TW201000195A - Cold and warm water purifier - Google Patents

Abstract

The present invention relates to a cold/warm water purifier provided with a first function of generating purified water and softened water and providing cold/warm water, purified water and softened water, separately, a second function of hot-sterilizing purified water tanks for storage of purified water and cooling tanks for storage of cold purified water, a third function of sterilizing a user cup or the like near a first outlet through which cold/warm purified water is discharged, with ultraviolet rays, a fourth function of externally inserting and drawing out a second outlet through which purified water and softened water are discharged, and a fifth function of rotably drawing out an internal filter unit with ease. With a first function of the cold/warm water purifier, since a user can use cold/warm purified water for drinking, purified water for cooking or the like, and softened water for hand washing or the like, it is possible to provide the user with a widened selection and supply the user with water adaptable for applications. With a second function of the cold/warm water purifier, a user suffers from less troublesomeness in cleaning up the cold/warm water purifier and more sanitized management is possible. With a third function of the cold/warm water purifier, it is sanitary and convenient for a user since the user can disinfect his own cup or the like simply at his pleasure. With a fourth function of the cold/warm water purifier, it is very convenient for a user when the user receives water in a bulky bowel for cooking or washes his hands and the like. With a fifth function of the cold/warm water purifier, any users can replace filters simply and conveniently to maintain best quality of water.

Description

201000195 VI. Description of the Invention: [Technical Field] The present invention relates to a cold/warm water purifier, and more particularly to a cold/warm water purifier having the following functions: first function The second function of producing filtered water and softened water and separately providing filtered water and softened water is cold water. The second function is to provide a water disinfection water tank for storage and storage of cold water and cooling water tank for storage. Filtration of water, the third function is to disinfect the cold/warm filtered discharge, the user's cup or the like near the first outlet through which the water passes, and the fourth function is to insert and pull the discharge through the outside. The second outlet through which the hydrophobic water and the softened water pass, and the fifth function is that the internal filter unit can be easily rotatably pulled out. [Prior Art] Water cleaners or water purifiers that are widely used in daily life are used to purify untreated water (such as tap water or the like) into Chapter 5, Section 3 of the Drinking Water Management Act. The device for drinking water specified in the section. Such water purifiers can be classified in various ways depending on their purpose, composition, purification principle and the like. Among them, water purifiers can be classified into natural filtration type, direct filtration type, distillation type, reverse osmosis type, etc. according to the principle of purification as the most common classification standard. ... The natural filtration type is to store a certain volume of untreated raw water, and purify the raw water through a filtration process using the weight of the raw water. The direct filtration type is to connect the water filter directly to a faucet or the like that supplies raw water, and filter the untreated water by using the raw water supply pressure raw water through the filter. The distillation type collects and liquefies the steam generated by boiling the raw water. Inverse 6 201000195 Infiltration type 疋 疋 渗透 ( ( 其 其 其 ( ( ( ( ( ( ( ( ( ( ( 自 自 自 自 自 自 自 自 自 自 自 自 自 自然 自然 自然 自然 自然 自然 自然 自然 自然 自然 自然 自然 自然 自然 自然 自然 自然 自然 自然 自然"Water", because all of them have the aging system of the filter. The general filter 'except the n-type clean water test provides the filtered water from the inflow, initial filtration, absorption, main money removal and flow division. Therefore, Purging impurities from raw water flowing into the filter type water purifier through a preliminary filtration step 'removing volatiles from untreated water via an absorption step, and finally removing fine impurities through the main step In order to provide filtered water, the 'hybrid H type water uses various steps, including a sediment filter, a carbon filter, etc. Therefore, proper maintenance of such a damper is to control water. The key factor of the filter. It has been proposed to use the pollution degree and the replacement time based on the fouling device to improve the efficiency of the filter and the proper maintenance of the filter capacity, but the money is correct and Objectively speculate on pollution and based on The degree of contamination is changed by the filter. Μ Therefore, currently, for example, based on any time interval (such as monthly) or according to the user's subjective feeling (such as the taste of water), the filter can be exchanged. This leads to waste of labor and labor due to unnecessary frequent replacement of the ejector and frequent use of the filth due to improper filter replacement. In addition, the typical filter type water purifier has a disassembly and removal for the filter replacement. The reassembly process, which imposes a heavy burden on the end user. 201000195 In addition, as water purifiers become more popular and use increased, 'products with various convenience functions have been introduced. For example' and for providing cold/warm filtered water As with the technology, the technology of providing filtered ice cubes through a separate ice making function is also widely used. However, 'the water purifier has pointed out a lot of room for improvement in hygiene and management. In addition, 'because it is always exposed to water and The water purifier that comes into contact with water has a high possibility of pollution such as scale or bacterial growth, so the clean water tank and the filter are often cleaned. In addition, the typical water purifier is still limited to the role of providing drinking water. Therefore, a cold/warm water purifier is needed to provide various convenience functions and more convenience and sanitation to the user. [Technical Problem] To overcome the above problems, it is an object of the present invention to provide a water purifier which is simpler and more convenient to perform various convenient functions in general maintenance (including filter replacement), and is highly improved in sanitary control. One aspect of the present invention is to provide a cold/warm water purifier whose first function is to produce filtered water and softened water and provide cold/warm water, filtered water and softened water, respectively. The second function is a water disinfection tank with heat disinfection, for storing filtered water and a cooling water tank for storing cold filtered water, and the third function is to use ultraviolet rays to the vicinity of the first outlet for discharging cold/warm filtered water. The cup or the like is sterilized, and the fourth function is to insert and pull out the filtered filtered water and the second outlet of the softened water from the eve, and the functions of the second and the fifth are easily Rotate the internal filter unit out. The above and other objects, features, and advantages of the present invention will become more apparent. [Embodiment] For the above purpose, according to the aspect, the present invention provides a water purification unit: a U-removal unit that filters untreated raw water into a ft water element, which contains a clean water The water and the heated water are heated to be warm filtered water and stored in a cooling water phase which is cooled by the hydrophobic water and the cold filtered water and stored in the cold water, and the discharge unit, which contains the cold discharge. / warming the first outlet of the filtered water and discharging the second outlet of the filtered water. Preferably, the filter unit further comprises a softening filter for softening the untreated water into softened water, and the second outlet discharges the filtered, water and demineralized water. According to another aspect, the present invention provides a water purifier comprising: filtering out a '11 unit' which comprises a filament passing through a water filter to filter the filtered water and softening the untreated water to soften The water softening filter; and the discharge, the private discharge of the waste water-AD and the second outlet of the soft water. Preferably, the water purifier further comprises a water tank unit comprising a clean water tank for storing the filtered water, the heating water tank heating the filtered water to the warm filtered water and storing the warm filtered water, and the cooling water tank is cooled by the filtered water. The filtered water is cooled and the cold filtered water is stored, wherein the first outlet discharges the cold/warm filtered water, and the second outlet discharges the filtered water and the softened water. Preferably, the second outlet discharges the filtered water and the softened water, respectively, and the second outlet includes a first outflow opening for discharging the filtered water and a second outflow opening for discharging the softened water 9 201000195.槔, 1 , H outlets include - pairs of parallel tubular - and second outflow :: into the first and second outflow holes at the bottom of the leading end. Shape. 'The water purifier further includes a bridge that interconnects the first and second outflows. According to the invention, the invention provides a "* type water purifier, which comprises: filtering out the water from the early to the untreated surface. Water collection; money discharge unit,

It consists of a fixed first outlet that discharges through the water and a second outlet that discharges the filtered water and can be inserted and pulled out of the outside. Preferably, the filter unit further comprises a softening filter that softens the untreated water to softened water, and the second outlet discharges the filtered water and the softened water.

According to still another aspect, the present invention provides a water purifier comprising: a filter unit comprising: a water purification filter that filters untreated water into filtered water and softens untreated water into a a softening water softening filter; and a discharge unit that includes a fixed first outlet that discharges the filtered water and a second outlet that discharges at least one of the filtered water and the softened water and that can be inserted and pulled out of the exterior. Preferably, the water purifier further comprises a water tank unit comprising a clean water tank for storing the filtered water, the heating water tank heating the filtered water to the warm filtered water and storing the warm transition water, and the cooling water tank is cooled by the hydrophobic water. The filtered water is cooled and the cold filtered water is stored, wherein the first outlet discharges the cold/warmed filtered water. Preferably, the second outlet separately discharges the filtered water and the softened water. Preferably, the second outlet comprises a first outflow hole for discharging the filtered water and a second outflow hole for discharging the softened water by 201000195, and the second outlet has a shape of a tube disposed along the insertion and extraction directions. Preferably, the second outlet comprises a pair of parallel tubular first and second outflow weirs, respectively having first and second outflow holes formed at the bottom of the leading end. Preferably, the water purifier further comprises a bridge interconnecting the first and second outflow ports. Preferably, the water purifier further comprises: a motor and a pinion; and along the second

A bracket formed in a longitudinal direction on one side of the outlet, wherein the second outlet is pulled out and inserted by rotation of the motor. Preferably, the motor is fixed to the first outlet. Preferably, the water purifier further comprises: a position mark protrusion formed along a longitudinal direction of the second out side, and having at least one stop groove formed therein, and an optical induction, the induction stop groove, The towel controls the motor based on the sensing result of the optical sensor, so that the insertion and exit of the second outlet are clamped. Preferably, the water purifier further includes: a guiding protrusion formed along a longitudinal direction of the second outlet to the =- side; and a guiding table disposed in the first outlet and guiding the guiding protrusion. According to the re-state, the present invention provides a water purifier=, which converts untreated water into filtered water; the water tank single f is stored in the transition water, and the heating water tank is heated by the filtered water. The filtered water 'and the cooling water tank will pass through the water and store the cold through the water; the heating water tank contains '..., the first heater, the cooling box included in the cooling box for cooling, the cooling coil 11 201000195 but the coil, and the second a heater, the second heater being included in at least one of a clean water tank and a cooling water tank, and heating at least one of filtered water and cold filtered water; and a discharge unit that discharges cold/warm filtered water Preferably, the cooling water tank is connected to the clean water tank so that the water can be circulated, and the second heater is contained in the cooling water tank or the clean water tank. Preferably, the cooling water tank is located at the bottom of the inner side of the clean water tank. The water purifier further includes a circulation plate interposed between the cooling water tank and the clean water tank, the circulation plate having a plurality of circulation holes formed therein.

Preferably, the water purifier further comprises at least two (four) degrees sensors disposed in the clean water tank or the cooling tank water, wherein the second heating is performed when at least one of the temperature sensors senses the reference temperature or above The device is turned off. Preferably, the water purifier further comprises at least two float sensors disposed in the clean water tank and sensing different water levels. According to still another aspect, the present invention provides a water purifier comprising: a body having a clean water tank in which filtered water is stored; and a filter unit that filters untreated water into filtered water and Rotated to the body. Preferably, the water purifier further comprises a pair of opposite hinge fixing platforms disposed on one side of the main body; and a pair of hinge protrusions disposed on both sides of the filter unit and rotatably inserted in the hinge fixing table And wherein the filter unit rotates around the pair of hinge protrusions in an angular range of 9° or less.

Preferably, the filter unit comprises: a passage housing having hinge projections formed on both sides thereof; and at least a bottom of the water purification filter housing. Preferably, the water purifier further includes a stopper protrusion provided on one side of the main body such that the filter unit is captured by the stopper projection to maintain the level of the eliminator. Preferably, the water purifier further comprises a rotary fixed table disposed on one side of the main body such that the filter unit is fixed in a rotating state. Preferably, the filter unit is coupled to one side of the tank unit. According to still another aspect, the present invention provides a water purifier comprising: a filter unit that filters untreated water into filtered water; a discharge unit that discharges water through the county; and an ultraviolet lamp; It is placed near the discharge unit and emits ultraviolet rays in the direction of discharge of the filtered water. Preferably, the UV lamp is fixed to the discharge unit. Preferably, the water purifier further comprises a tubular lamp housing fixed to the discharge unit 70, the housing having a towel portion formed in the filtered, water discharge direction wherein the ultraviolet lamp is inserted in the lamp housing. . According to still another aspect, the present invention provides a water purifier comprising a filter unit 70 for filtering untreated water into filtered water; a water tank unit containing a purified water tank for storing filtered water and heating The water tank will be heated by the filtered water, gamma passing; the water will be stored and the warm filtered water will be stored, and the cooling water tank will be filtered = the cold part is cooled by the filtered water and the cold filtered water is stored; the discharge unit is packaged to discharge the cold/warm The first outlet of the filtered water and the second port of the filtered water are discharged, the first passage supplies the untreated water to the filter unit, and the second, the path = filtered water of the filter unit is delivered to the filtered water The clean water tank, the third passage will be: the water tank is delivered to the cooling water tank through the filtered water, the fourth passage supplies the filtered water of the clean water tank to the heating water tank, and the fifth passage delivers the cold water filtration of the cooling water tank 13 201000195 water to the first - an outlet "the sixth passage delivers the warm filtered water of the heated water tank to the first outlet, and a seventh passage delivers the filtered water of the clean water tank to the second outlet; and a first valve disposed in the first passage a second valve disposed in the second passage The fifth passage provided in a third valve disposed in the sixth passage of the fourth valve, and a seventh passage provided in the fifth valve. Preferably, the water purifier further comprises a driving fruit mounted on the first passage. Preferably, the degree of contamination of the element is sensed based on at least one of the opening time of the first valve, the driving time of the driving fruit, and the opening time of the second valve. β η preferably 'because the n unit contains two or more water purification filters' which convert untreated water into filtered water, and the first passage sequentially delivers untreated water through the Two or more water purifiers are described. Preferably, the decanter unit further comprises a softening filter, which will be softened into softened water by hydrophobic water, and the water heater further comprises: a first passage interconnecting the first path with the softening device and the ninth passage will soften The device is interconnected with the second outlet; and a sixth valve is disposed in the ninth passage. Preferably, the degree of contamination of the culling unit is sensed based on at least one of an opening time of the first valve, a drive _ 驱动 of the drive pump, an opening time of the second valve, and an opening time of the sixth valve. Preferably, the water purification filter comprises a first water purification filter as a screening filter, a second net as a pre-carbon filter (pre-b〇n filter), a filter and a The third clean water of n (pGst earbc) nfilte〇 filters out n 'and the first passage contains the un-domain water supplied to the first water filter of the first water filter, which will be the first The second water purification filter mutual 14 201000195 is connected, and the first two paths connecting the second and third water purification filters and connected to the eighth passage. Preferably, the first valve is provided in the first passage. According to still another aspect, the present invention provides a water purification water purifier comprising: a main body including a filter unit, a water tank unit, and a discharge unit; a bottom case on which the main body is disposed; first and second sides a casing disposed on a left side and a right side of the main body; a front casing disposed at a front end of the main body and having an opening to explode the discharge unit; a rear casing disposed in a rear side of the main body; and a front casing covering the top of the main body a control box that is slid to the opening in the front side of the front case, the discharge unit is exposed to the bottom of the opening, and a top cover that covers the top of the control box. Preferably, the water purifier further comprises first to fourth bottom flank protruding upward from the edges of the front, rear, left and right sides of the bottom case, wherein the front case, the rear case and the first and second side cases are respectively coupled Connected to the first to fourth bottom flank. Preferably, the water tank unit is disposed at the top of the main body, and the front shell is inserted by the plurality of first screws inserted into the first bottom flank through the anterior crest, and the plurality of second inserted through the pre-war into the water tank unit Screw fixing. Preferably, the water purifier further includes a support table that supports the water tank unit across the top of the opening of the front casing, and the second screw is inserted into the support table. Preferably, the water purifier further comprises a plurality of first and second kerf slots formed along the third and fourth bottom flank; and a plurality of first and second kerf protrusions along the first and second sides The inner side of the shell projects inwardly, wherein the first and second side shells are secured by a combination of first and second slit slots and first and second slit projections 15 201000195. Preferably, the water tank unit is disposed at the top of the main body, and the rear casing is fixed by a plurality of third screws inserted through the rear casing into the second bottom flank and a plurality of fourth screws inserted through the front casing into the water tank unit. Preferably, the water purifier further includes a plurality of support protrusions provided at the top of the rear case and supporting the water tank unit, and the fourth screw is inserted into the plurality of support protrusions. Preferably, the water purifier further comprises left and right first and second front flank 'which protrudes rearward from the edge of the front shell; and left and right first and second front flank 'from the front guide shell The top edge protrudes downward. Preferably, the water purifier further comprises a plurality of first and second spanning protrusions protruding rearward from the first and second front side wings; a plurality of third and fourth spanning protrusions from the first and second leading ends The side flaps are downwardly protruded; the plurality of first and second insertion protrusions are upwardly lifted from the inner side of the top of each of the first and second side shells, and the plurality of third and fourth insertion protrusions are First and second, the inner side of the front end of each of the side shells protrudes forward, wherein the first and second insertion protrusions are inserted in the first and second spanning protrusions in a spanning manner, and the third and fourth insertion protrusions are spanned Preferably, the water purification filter further comprises first and second bending stations which are bent from the edges of the rear ends of the first and second side shells and are tightly closed. The outer side of the rear case is adhered, wherein the first and second side cases are respectively fixed by a plurality of fifth screws inserted through the first and second curved two in the rear case. σ [Advantageous Effects] The present invention provides a cold/warm water purifier which is simple in terms of general maintenance (including 16 201000195 filter replacement) and is highly improved in terms of hygiene control. Specifically, 'by the first function, the filtered water and the softened water are separately supplied and the cold/warm water, the filtered water and the softened water are separately supplied, and the user can use the cold/warmed filtered water for drinking. The filtered water is used for cooking, etc., and the softened water is used for hand washing or the like, so that the user can be provided with a wide range of choices and supply the user with water suitable for the application. ❹ 储存 The second function of storing the filtered water through the water tank with heat sterilization and storing the cold filtered water with the cooling water tank, the user encounters less when cleaning the cold '/warm water purifier Difficulties and more manageable management. 7 disinfecting the user cup or the like near the first outlet through which the cold/warm filtered water flows by ultraviolet radiation by the second function is more hygienic and convenient for the user because of the use The person can sterilize only his own cup or the like. ^, by externally inserting and pulling out the fourth function of discharging filtered water and softened water = outlet 'When the maker accepts water in a large volume for cooking or washing hands, etc., it is very convenient. The fifth user who can easily rotate the internal filter unit can easily and conveniently replace the filter to maintain the water's 1st primary mouth quality 0 to make the above features and advantages of the present invention more apparent. The embodiments are described in detail below with reference to the accompanying drawings, and the embodiments of the present invention will be described in detail. BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a block diagram of a cold/warm water purifier according to an embodiment of the present invention. This figure is provided to understand the principles of the invention and its details are described in the relevant section. Here, an outline of the present invention will be described which focuses on the transport path of untreated water. As shown, the cold/warm water purifier of the present invention comprises a water tank unit 100, a filter unit 400, a discharge unit 700, and a plurality of pipes and valves. First, the filter unit 400 includes one or more water purification filters and a softening filter, preferably including first to fourth water purification filters F1 to F4 and a softening filter F5. In this case, the first to fourth water purifiers F1 to F4 are used to generate filtered water by filtering untreated water. For example, the first water purification filter F1 may include a sinking or osmotic filter, and a second water purification filter F. 2 can include front rhyme removal||As her rhyme (4) 'The third water purifier F3 can include a rear carbon filter as a secondary carbon filter and the fourth water purification filter F4 can contain more than Detacher or reverse osmosis filter. Therefore, the untreated water becomes filtered drinking water when it is sequentially passed through the first to fourth filter filters. The softening filter F5 is used to produce purified water by softening untreated water and is filled with an ion exchange resin as a polymer material. Therefore, when the untreated water handle is softly tilted (four) F5, the hard water component such as ##子收+) j ion (Mg2+) is not removed from the water, and the star-treated water is changed to softened water. Here, in particular, the cold/warm water purifier of the present invention is characterized in that it is rotatably pulled out, thereby allowing the user to easily and conveniently replace the filter. Next, the water tank unit 1A includes a clean water tank T1, a cooling water tank T2, and a heating water tank T3. The clean water tank T1 stores the filtered water generated in the filter unit 4, and the cooling water tank T2 transfers the filtered water delivered from the clean water tank T1, cools it into cold filtered water and stores cold filtered water, and heats the water tank. T3 will filter the filtered water delivered from the clean water tank T1, heat it into warm filtered water and store the warm filtered water. To this end, the cooling water tank T2 contains a cooling coil for water cooling, and the heating water tank T3 contains a first heater for water heating. Here, in particular, at least the water purification tank T1 and the cooling water tank T2 are characterized in that they contain a separate second heater for heating the filtered water and/or the cold filtered water, thereby purifying the purified water. The tank and/or the cooling water tank itself is sterilized. Next, the discharge unit 700 includes first and second outlets 800 and 900. The first outlet 800 discharges filtered water (preferably, cold/warm filtered water) and the second outlet 900 discharges at least one of filtered water and softened water, respectively (preferably, filtered water and softened) Both water). Here, in particular, it is characterized in that the first outlet 800 of the cold/warm water purifier of the present invention is fixed in position, and the second outlet 9 can be pulled out and inserted, thereby allowing the user to drink The first outlet 8 〇〇 discharged cold/warmed filtered water while allowing the user to use filtered water and softened water discharged from the second outlet 9〇〇, the second outlet 9〇〇 being generally 201000195 Pulled out when the bowl receives water for cooking or hand washing. In addition, the feature is that the 'UV lamp is installed near the first outlet 9〇〇 of the discharged cold/warm filtered water for emitting ultraviolet rays in the direction of the cold/warm filtered water discharge, thereby allowing the user to simply drink for drinking purposes. And conveniently sterilizing the cups and the like at will. Next, a plurality of pipes interconnect the filter unit 400, the water tank unit 100, and the discharge unit 700 in an appropriate manner to move the water supply flow path. Valves are located at appropriate points in these pipes to control the flow of water. In particular, the plurality of pipes include a first pipe L1 for supplying external untreated raw water to the filter unit 4, and a second pipe L2 for filtering the filtered water in the filter unit 400 Delivered to the clean water tank τι, a third conduit (not shown) for delivering the filtered water in the clean water tank T1 to the cooling water tank T2, the fourth conduit L4 for delivering the filtered water in the clean water tank T1 To the heating water tank T3, the fifth pipe L5 is for delivering the cold filtered water in the cooling water tank T2 to the first outlet 800, and the sixth pipe L6 is for delivering the warm filtered water in the heating water tank T3 to the first outlet 8 〇〇, the seventh pipe [7 is for delivering the filtered water in the clean water tank T1 to the second outlet 900, and the eighth pipe ramp L8 is for venting the first pipe u and the softening filter An interconnection, and a ninth conduit L9 is used to interconnect the softening filter F5 with the second outlet 900. The first pipe L1 includes a first pipe L1-1 for supplying raw water to the first water purification filter F1, and for the first and second water purification filters F1 and F2 The first two pipes L1-2 interconnected, the third pipe L1-3 for interconnecting the second and third water purification filters F2 and F3 and connected to the eighth pipe L8 And a first 4 pipe L1-4 for interconnecting the third and 20th 201000195 four water purification filters F3 and F4. In addition, a first discharge pipe 〇1 for discharging water in the heating tank T3 may be provided, and for discharging during the reverse osmosis process (if the fourth water purification filter F4 is a reverse osmosis filter, the separator) The second discharge pipe d2 of the waste water. At this time, as shown in the figure, when the clean water phase T1 is directly connected to the cooling water tank T2, the third pipe can be omitted. The plurality of valves include a first valve VI disposed on the first pipe L1 (specifically, the first 2 pipe L1-2), a second valve V2 disposed on the second pipe L2, and disposed in the fifth pipe L5 The upper third valve v3, the fourth valve V4 disposed on the sixth pipe L6, the fifth valve V5' disposed on the seventh pipe L7, and the sixth valve V6 disposed on the ninth pipe L9. Further, the 'drive pump Μ can be placed on the first 2 pipe L1-2. In this case, the electronic solenoid valve is preferably used as the first to sixth valves VI to V6, and the manual cock is preferably used. Installed on the first discharge pipe D1. Therefore, when the first valve VI is closed (closed), the operation of the cold/warm water purifier of the present invention is all stopped. When the first and second valves VI and V2 are opened (open) and the sixth valve V6 is closed, the raw water in the first 1 pipe L1-1 sequentially passes through the first to fourth water purification filters F1 to F4. Collected in the clean water tank T1. In this state, when the third and/or fourth valves V3 and V4 are opened, the cold and/or warm filtered water is discharged through the first outlet 800. When the fifth valve V5 is opened, the filtered water is discharged through the second outlet 900. In addition, when the first valve VI is opened, the second valve V2 is closed, and the sixth valve V6 is opened, the raw water in the first pipe L1-1 is changed by the first and second water purifiers F1 and F2. The water is demineralized and then discharged to the second outlet 900 via the demineralized water. 21st 201000195: The above-described operations to the sixth valves VI to V6 are controlled by a controller (not shown), which will be described in detail later in the corresponding section. If necessary, a flow meter or the like can be installed on the first pipe B at the field position to accurately measure the volume of water passing through each filter, so that the side filter can be objectively and accurately removed. The degree of contamination and the time of the filter replacement are disclosed in Korean Patent Application No. 1K-K-6-0063142, the entire disclosure of which is hereby incorporated by reference. Those skilled in the art will readily appreciate that instead of using the opening (on) duration of the first valve V1 and the drive duration of the drive pump and/or the opening duration of the first and sixth valves V2 and V6, The flow meter detects the amount of filter used. Although the moving path through which the water flows is generally referred to as "pipe" for convenience, the path may be a "tube" or a groove-shaped "channel" or other shape appropriately formed in the water purifier ( The form representation, if necessary, will be described later in the corresponding section. Hereinafter, a detailed configuration of the cold/warm water purifier of the present invention will be described. Fig. 2 is a perspective view showing the entire structure (including a case) of the cold/warm water purifier of the present invention, and Figs. 3, 4 and ό are partial exploded perspective views of the case. As shown in the figures, the cold/warm water purifier of the present invention comprises: a main body 直接 which is directly related to the generation and discharge of filtered water and softened water, and includes a water tank unit 100 and a filter unit 4 〇〇, discharge unit 7〇〇, a plurality of pipes and valves, etc.; and an outer casing for packaging the body to provide a beautiful appearance. First, the outer casing will be described. As shown, the outer casing of the cold/warm water purifier of the present invention comprises: a bottom case 1002 for supporting the main body β; first and second side cases 11〇2 and 12〇2, 22 201000195 which form two The front and rear shells 1302 and 1502 form a front side and a rear side, respectively, and a front guide shell 1602 that forms a top side. The separate control box 1402 is coupled to the front of the front case 1302. For convenience of description, based on the state of the cold/warm water purifier, the direction toward the user is called "front direction" or "leading end", and the relative direction is called "rear direction" or "tail end", cold / The top part of the warm water purifier is called "upper" or "upper end", and the opposite part is called "lower" or "lower". First, the bottom portion 1002 includes a base side 1〇〇4 on which the main body b is disposed, and first to fourth bottom side flaps 1012 and 1 which protrude upward from the edge of the base side 1004 in the front, rear, left and right directions by a predetermined length. 〇 14, 1 〇 16 and 1018. A plurality of first and second slit grooves 1022 and 1 24 are formed on the straight line along the longitudinal direction of the third and fourth bottom side flaps 1016 and 1018, and one or more insertion grooves 1032 are formed in the second bottom side flap 1 In the inner side of 14. Next, the first and second side cases 1102 and 1202 are formed in the shape of the corresponding plates. The first (1112) and the second (not shown) slit protrusions are inwardly projected from the inner sides of the lower ends of the first and second side cases 1102 and 12〇2, respectively, and are respectively bent at a predetermined interval. Formed on a straight line. Further, first and second insertion projections 1114 and 1214 are provided, respectively, projecting from the outer side along the inner side of the respective upper ends of the first and second slit projections in a stepped pattern. Further, third and fourth insertion protrusions 1116 and 1216 are respectively provided to protrude forward from the outer side along the inner side of the corresponding leading end in a stepped pattern. In addition, the trailing ends of the first and second side cases 1102 and 1202 are bent in opposite directions to form first and second saliva steps 1118 and 1218 covering the left and right edges of the rear case 15〇2, which will be later Interpret this. 23 201000195 Next, the front case 1302 includes a leading front side 1304 coupled to the cold/warm water purifier, and a first predetermined length of the leading edge in the front, rear, left and right directions from the front side 1304. To the fourth front side flaps 1312, 1314, 1316 and 1318. The control box 1402, which will be described later, forms the coupled opening 1306 on the front side 1304 with the support table 1308 spanning the upper end of the opening 1306. The front case 1302 is inserted into the first water tank T1 ' inserted into the first bottom side flap 1012 of the bottom case 1 2 through the lower end of the front side 1304 and the clean water tank T1 inserted into the main body B through the support table 1308 ( It will be described later) A plurality of second screws B2 in one side are fixed. Specifically, referring to FIG. 5, a part of the mounting state 1322 of the support table 13〇8 and the clean water tank T1 is enlarged, and the mounting step 1322 is recessed in the stepped pattern in the upper end of the rear side of the support table 13〇8, and The first insertion step 102' inserted into the mounting step 1322 protrudes from the side of the clean water tank T1 toward the side on which the step 丨 322 is mounted. The second screw B2 passes through the mounting step 1322 and the first insertion step 1〇2 so that the support table 1308 can support the clean water tank T1. Further, a plurality of first and second crossing projections 1332 and 1334 projecting from the outside in a stepped pattern are formed along the insides of the rear ends of the third and fourth front side flaps 1316 and 1318. The first and second spanning protrusions 1332 and 1334 are closely mounted in a spanwise manner to the second and fourth insertion protrusions 1116 and 1216 of the first and second side cases 11〇2 and 12〇2, respectively, and a separate sink The plurality of mounting holes 1342 of the case 1350 are coupled to the lower end of the front side 13〇4 of the case 1302. The sink box includes a bowl-shaped lower cover 1352 and a front cover ι362. The front cover 1362 is disposed on the top side of the 24 201000195 lower cover 1352, and has a drain hole through the front cover 1362. A plurality of insertion projections 1354 project rearward from the wings at the rear end of the lower cover 1352, and are inserted into the mounting holes at the lower end of the front side 1304 of the front case 1302. At this time, the first screw B1 can be inserted into the plurality of mounting holes 42. Next, the rear case 1502 has a rectangular frame shape coupled to the rear end of the cold/warm water purifier. A cooling fin 504, a coolant circulation pipe 1506, and the like are mounted inside the rear case 1502. The insertion cymbal 1512 inserted into the insertion groove 1032 inside the second bottom side flap 1014 of the bottom case 1002 protrudes downward from the bottom side of the rear case 1502 and supports a plurality of support protrusions of the clean water tank T1 of the main body B 1514, protruding upward from the top side of the rear case 1502. The rear case 1502 is inserted from the second bottom side flap 1〇14 of the bottom case 1002 through the insertion groove 1032 and the plurality of third screws B3 inserted into the crucible 1512, and inserted into the clean water tank T1 through the support protrusion 1514. The fourth screw B4 is tightly fixed. In particular, referring to FIG. 7 alone, an enlarged view of a portion of the coupling state of the support protrusion 1514 and the clean water tank T1 is supported. The support protrusion 1514 supports one side of the clean water tank T1 and the fourth screw B4 passes through the branch protrusion 1514. And the side of the clean water tank T1, thereby allowing the support protrusion 1514 to support the clean water tank T1. Next, the 'leading casing 1602' includes a top side 1604' covering the top of the cold/warm water purifier and a predetermined length extending downward from the edge of the top side 1604 and disposed on the rear sill 1502 and the first and second side shells 11, respectively. First and third leading flank 1612, 1614 and 1616 on 〇 2 and 1202. A plurality of third and fourth spanning projections 1622 and 1624 projecting downwardly from the outer sides of the second and third leading side flaps 1614 and 1616 are 25 201000195 disposed along the inner sides of the second and third leading side flaps 1614 and 1616 And mounted in the spanning manner together with the first and second insertion protrusions and inserted into the first and second insertion protrusions. An opening space 1632' for the top cover 1450 of the control box 1404 is inserted in a portion of the leading end of the front housing 1602. The insertion pin 1642' inserted into the first to third front side flaps m2, 1316, and 1318 of the front case 1302 is laterally outward from the top side 1604 and the second and third leading side flaps 1614 and 1616. Front protrusion. Next, the control box 1402 includes a front side 1404, and first to third control flank that protrude rearward from the top of the front side 1404 and the left and right edges. The user operated lever 1408 and the plurality of buttons 1406 are exposed on the front side 1404. The hook-shaped projections 1422 are insertable and fixed in the openings 1306 of the front case 13〇2 and are disposed in the second and third control wings 1414 and 1416. The bottom side of the control box 1302 is open to expose the discharge unit 700 of the main body B (which will be described later). Additionally, a separate top cover 1450 covers the top side of the control - box 1402 to complete the look. Now, a method of combining the outer casing of the cold/warm water purifier according to the present invention will be briefly described. First, after the main body B is set and fixed on the bottom case 1〇〇2 ,, the front case 1302 is tightly fixed to the bottom case 1002 and the clean water tank T1 using the first and second screws B1 and B2, and the third is used. And the fourth screws B3 and B4 tightly fix the rear case 1502 to the bottom case 1002 and the clean water tank T. Subsequently, the first and second side cases 1102 and 1202 are closely adhered to the bottom case 1002 and the rear case 1502 at the rear. And pushing the front case 1302 such that the first (1112) and the second (not shown) slit projections are inserted into the first and second kerf slots 1022 and 1024, while the third and fourth insertion protrusions 1116 26 201000195 and 1216 The first and second intersection protrusions 1332 and 1334 are inserted in an intersecting manner. The picker inserts a plurality of fifth screws B5 through the first and second incompatibility steps 1118 and 1218 into the rear case 1502. Next, the leading end of the leading case 16〇2 is inclined downward, and the insertion pin 1642 is inserted into the first to third front side flaps 1312, 1316 and 1318 of the front case 1302. Then, when the assembly is disposed on the first 篦- and 1202 and the rear case 15〇2, the first and second insertion protrusions 1114 and 1214 are mounted to the third and fourth intersection protrusions 1622 and cut in an intersecting manner. 1624. Subsequently, the control box is inserted into the opening 13〇6 of the front case 1302 and covered with the top cover 1450. Subsequently, the sink housing 1305 is lightly attached to the lower end of the front casing 丨3〇2, thereby completing the assembly of the outer casing. At this time, the top case of the outer casing of the cold/warm water purifier according to the present invention.  1602 (which is the most frequently separated) can be separated by the action of lifting its back end. The first and second side cases m2 and MN (which are the most frequent separations) are simply separated when the fifth screw B5 © inserted into the first and second spray steps 1118 and 1218 is disengaged and slightly pushed rearward. In addition, in the outer casing of the cold/warm water purifier according to the present invention, the first and second side cases 11〇2 and 1202, the front case 1302, and the front guide case 1602 can be assembled without gaps or steps because It exhibits the shape in which its interconnected components are mounted in a spanning manner. Further, when the front case 1302 and the front guide case 1602 respectively support the front side and the rear side of the clean water tank ,, the water purification tank T1 can be prevented from being deformed by the pressure of the filtered water stored in the tank. Next, the main body B of the cold/warm water purifier according to the present invention 27 201000195 will be described in detail with reference to FIG. 1 and related drawings. 8 and 9 are respectively a perspective view and an exploded perspective view of the main body b of the cold/warm water filter of the present invention. As described earlier with reference to Figure 1, the body B of the cold/warm water purifier of the present invention comprises a water tank unit 100, a filter unit 4A, a discharge unit 7A, a plurality of pipes and valves, a drive pump, and Cooling system, heating system and controller. 8 and 9 illustrate the water tank unit 1〇〇, the filter unit 4〇〇, the discharge unit 700, the first to sixth readings V1 to ¥6, the drive pump, and some portion of the cooling system (such as the condenser 52). The cooling pin 1504, the coolant circulation pipe 1506, and the like) and the pcB case 1〇〇1 including a controller (not shown). Wherein, the driving pump Μ, the condenser 52, the first and second valves vi and V2, and the sixth valve V6 are disposed on the bottom case 1〇〇2, and the water tank unit 100 and the fifth valve V5 and the filter unit are disposed thereon. 400. The discharge unit 700 mounted on the front case 1302 is positioned on the front side of the water tank unit 1〇〇. Further, the cooling pin 1504 and the coolant circulation pipe 15〇6 are disposed vertically with the rear case 1502 in the rear portion of the main body, and the PCB case 9 is fixed in the spare space of the bottom case 1〇〇2. The main components of the main body of the cold/warm water purifier of the present invention will be described in detail hereinafter. First, Figs. 10 to 16 are views for explaining the filter unit 4 of the present invention. Fig. 10 is a top perspective view showing the exploded state of the filter unit 4'' when viewed from the top. Fig. 11 is a bottom perspective view showing the exploded state of the filter unit 400 when viewed from the bottom, Fig. 12 In order to soften the cross-sectional view of the filter F5, FIGS. 13 and 14 are a plan view and a bottom view, respectively, of the first passage plate 502 of the passage casing 5〇〇201000195 to which the filter is combined, and FIGS. 15 and 16 are respectively closely adhered to A plan view and a bottom view of the second passage plate 602 of the passage casing 500 of the first passage plate 502. As shown, the filter unit 4 of the present invention includes a horizontally stable box-like passage casing 500' and a plurality of filter units F1 to F5 detachably coupled to the bottom of the passage casing 50A. The passage housing 500 includes a plurality of filter plates pi to F5, a second passage plate 502' and an upper second passage plate 602 that are closely adhered to the first passage plate 502 to form first and second passage plates 502 and A plurality of passages between 602, and the plurality of filters F1 to F5 include first to fourth water purifiers F1 to F4 and a softening filter F5. At this time, the filters F1 to F5 have a cylindrical shape or the like, and the first to fifth rotary flanges 402, 404, 406, 408, and 412 can be tightly combined with the first passage plate 502 with the flange and are easy. The detachment from the first passage plate 5〇2 is provided on the top of each filter. Further details of the first to fourth water purification filters F1 to F4 and the softening filter 卩5 揭 are disclosed in Korean Patent Application No. 10-2006-0063142, the entire disclosure of which is hereby incorporated by reference. 12 Briefly describe the softening filter F5, and FIG. 12 is a cross section for convenience. As shown, the fifth rotating flange 412 is raised from the top of the softening skimmer filled with a material suitable for its use (for example, ion exchange resin), and is connected to the inlet opening 422 of the internal space of the reducer and An exit aperture 432 is formed in the fifth rotating flange 412. The outlet opening 432 extends through the outlet tube 44 having a predetermined length to the interior space of the filter unit 'from the outlet opening 432 to the bottom of the filter unit 29 201000195. The water introduced into the inlet hole 422 is exchanged for the resin by softening the ion in the filter F5 and is discharged through the outlet hole 432. The internal structure of the softening filter F5 will be described by way of example only, and it should be understood that the internal structure may be modified at random, as long as water introduced into the inlet aperture 422 can pass through the desired material in the filter and through the exit aperture. 432 discharge can be. Further, as shown in FIGS. 13 and 14, a plurality of fixing flanges 512, 522, 532, 542, and 552 project downward from the bottom of the first passage plate 5〇2, and have a one-to-one correspondence with the filters F1 to F5. Settings. The inflow hole and the outflow hole formed in the fixing flange are respectively connected to the inlet hole and the outlet hole of the corresponding filter. At this time, it is assumed that the two holes connected to the first clean water filter F1 are the first inlet hole and the outlet holes 514 and 510, and the two holes connected to the second water filter F2 are the second inlet holes. And the outlet holes 524 and 526, the two holes connected to the second water purification device F3 are the third hole and the outlet holes 534 and 536, and the two holes connected to the fourth water purification device F4 are the fourth inlet The holes and outlet holes 544 and 546, and the two holes connected to the softening filter F5 are the fifth inlet holes and the outlet holes 554 and 556. Next, when the first and second via plates 5〇2 and 602 are closely adhered to each other, a first via L1-1 connected to the first inlet hole 514 is formed therebetween, and the first exit hole 516 and the second inlet hole are formed. 524. The first two paths L1-2 of the interconnection, the first three paths L1-3 interconnecting the second exit holes 526 and the third inlet holes 534, and the third exit holes 536 and the fourth inlet holes 544 a first four path L1-4, a first path L2 connected to the third exit hole 546, an eighth path L8 interconnecting the first 3 path L1-3 and the fifth entrance hole 554, and a connection to The fifth exit hole 556 is 30 201000195 The ninth passage L9. In this case, specifically, although the first two passages υ·2 include one end connected to the first outlet hole 516 and the other end connected to the second inlet hole 524, in the case where the middle portion thereof is cut The second path plate 6〇2 has a first path LM connected to the first port 612, and second and third ports 614 and 622 are respectively connected to one end and the other end of the first path L1-2. The fourth port 642 is connected to the second path L2, and the fifth port 2 is connected to the ninth path L9. Therefore, when the external untreated raw water is supplied to the first port 612, the second and third ports 614 and 622 are interconnected via the first valve VI and the drive pump, and the fourth port 642 is connected to the water tank Τ1. 'When the fifth port 652 is connected to the second port 9 ,, the same configuration as the pipe shown in FIG. 1 can be obtained. Therefore, since each "path" corresponds to the "pipe" shown in the figure, the path is denoted by the same reference numeral. Next, Figs. 17 and 18 are views for explaining the water tank unit 1A of the main body of the cold/warm water purifier of the present invention. Figure 17 is an exploded perspective view of the water tank unit, and Figure 18 is a partial plan view of the water tank unit 1 (except for some components). As shown, the water tank unit 100 of the present invention comprises a water purification tank, a cooling water tank Τ2, and a heating tank Τ3. Preferably, the cooling water tank Τ 2 is integrally disposed at a lower end of one side of the clean water tank τι, and is separated from the clean water tank T1 by a circulation plate 250 in which a plurality of circulation holes 252 are formed to allow water circulation, and the clean water tank T1 And the cooling water tank T2 is separated from the outside by the guide cover before covering the top of the clean water tank T1. The heating water tank T3 is set separately. 31 201000195 At this time, a filtered water inlet hole 120' is formed in one side of the clean water tank T1, which is connected to the fourth port 642 via a single (four) pipe or the like and the filtered water is introduced therein. First and second filtered water outlet holes 124 and 126 are formed in the other side of the clean water tank T1, and the filtered water in the clean water tank T1 is discharged through the filtered water outlet hole. The first filtered water outlet port 124 is connected to the filtered water supply hole 172 of the heating water tank T3 via a separate second pipe or the like, and the second passed through the water outlet port hole 26 via a separate third pipe or the like. It is connected to the second outlet 900 of the discharge unit 700 by the medium fifth valve V5. Therefore, the first pipe interconnecting the fourth connecting bee 642 of the filter unit 4 and the filtered water inlet hole 120 of the clean water tank T1 substantially forms part of the second pipe L2, and the clean water tank τΐ The second tube interconnected by the filtered water outlet hole 124 and the filtered water supply hole 172 of the heating water tank T3 substantially forms a fourth pipe L4, and the second filtered water outlet hole of the clean water tank T1 is The third tube interconnected by the second outlet 900 of the discharge unit 7' substantially forms a seventh conduit L2 by the medium fifth valve V5. Further, although not shown in the drawings, the first heater (not shown) for heating the filtered water is contained in the heating water tank T3. Further, a cooling coil 222 for cooling the filtered water is contained in the cooling water tank T2 and connected to the condenser 52, the cooling pin 1504, and the coolant circulation pipe 1506. At this time, a separate second heater 232 for heating water is contained in the cooling water tank T2. The second heater 232 sterilizes and sterilizes the corresponding space by boiling the water in the clean water tank T1 and the cooling water tank T2 according to the user's choice or heat generated at predetermined time intervals. The second heater 232 can be located at a different location away from the cooling coil 222 (as shown in the figures), 32 201000195 or can be installed in the clean water tank τι (if necessary). That is, the person shown in the drawing is explained by way of example only, and why the cooling water tank T2 is provided in a stepwise manner at the lower end of one side of the clean water tank T1, and is separated by a circulation plate 252 to allow water circulation, and the second heater 232 includes The reason for the cooling water tank T2 is to use the convection effect. Specifically, although the cold filtered water having a high specific gravity is usually stored in the cooling water tank T2 and the room temperature having a low specific gravity is filtered and stored in the clean water tank T1, when the cold filtered water of the cooling water tank T2 is from the first When the heat of the H second heater 232 is heated, since the specific gravity thereof becomes low, it is effectively circulated with the water in the water tank T1. This causes rapid heating of both the water tank τι and the water tank T2. 7 However, this can be modified without limitation. For example, unlike the drawings, the clean water tank T1 can be separated from the cooling water tank T2, and the second heater 232 is included in at least one of the tanks. Therefore, as the second function of the cold/warm water purifier of the present invention, the purified water tank T1 for storing filtered water and the cooling water tank T2 for storing cold filtered water can be thermally sterilized. ® In addition, a plurality of rotating clamps 152 for fixing the two edges of the guide 150 and the top of the purified water phase T1 before sealingly sealing the clean water tank T1 are disposed along the three edges of the front guide 150, The splicing grooves i22 are disposed along the top side of one side of the clean water tank T1, and the same number of fishing-like salivation projections 154 to be inserted into the engaging grooves are disposed along the corresponding remaining one edge of the front guide 150. Therefore, the user can tilt the front guide 150 to combine the engaging projection 154 with the engaging groove 122, set the front guide 15A on the top of the filter case T1, and use the plurality of rotating jigs 152 to edge the front cover 33 201000195 150 with The top ends of the clean water tank T1 are tightly combined, thereby isolating the clean water tank Τ1 and the cooling water tank Τ2 from the outside without a gap. In addition, at least two temperature sensors 142 and 144 are provided in the cooling water tank Τ 2 for sensing the temperature. These temperature sensors 142 and 144 are used to prevent unnecessary heating by preventing heat generation by the second heater 232 (if the temperature rises above a predetermined reference value). The number of temperature sensors is two or more to achieve safe operation even in the event of an abnormality in one of the temperature sensors. Therefore, when the second heater 232 is mounted on the clean water tank T1, at least two temperature sensors 142 and 144 can be installed in the clean water tank T1. Alternatively, if the two second heaters 232 are respectively included in the clean water tank T1 and the cooling water tank T2, two or more temperature sensors 142 and 144 may be separately mounted in the case where the water tanks are separated from each other. In the clean water tank T1 and the cooling water tank T2. In addition, although the two temperature sensors 142 and 144 prevent unnecessary subcooling by preventing the cooling drive of the cooling coil 222 (if the temperature drops below a predetermined reference value), the additional temperature for sensing the temperature of the filtered water is filtered. The temperature sensor can be installed in the heating water tank T3. Further, at least two float sensors 132 and 134 for sensing different water levels may be installed in the clean water tank T1. These float sensors are used to pick up the predetermined maximum water (4), close the first room νι to interrupt the supply through the drowning water' while opening the first valve VI to restart the filtered water when the filtered water reaches the predetermined minimum water level. supply. Undescribed reference numeral 174 denotes a warm water supply port for supplying the warm transition water 'in the heating water tank T3 to the first outlet 800 via the fourth fourth tube or the like via a separate fourth tube or the like, and is not described. Reference numeral 34 201000195 176 will heat the filtered water or the first discharge enthalpy discharged from the water tank T3. Therefore, the fourth pipe L6 interconnecting the water supply lining 174 and the first outlet 174 by the medium fourth dam and the fifth pipe connected to the heating water tank τ substantially form the first discharge pipe. $Exhaust 埠Μ

Next, 19 to 22 are discharge orders for explaining the main body B of the cold/warm water purifier of the present invention. View of the meta 700. Figure 19 is an exploded perspective view of the front case 13〇2, the control box 1402, and the discharge unit 7〇〇, and Figure 2〇 is an exploded perspective view of the discharge unit 700. 21 and 22 are bottom perspective and cross-sectional views, respectively, of the second outlet 900 of the discharge unit 7''. As shown in the figure, the discharge unit of the present invention is used for discharging the first-out π 8GG ' of cold/warm water and the filtered water and the second outlet 900. * At this point 'clearly' the first outlet 800 is fixed in position and the second outlet 900 is either in the cold/warm water purifier or pulled out from the cold/warm water purifier depending on the user's choice. For example, the first outlet 8 may have a faucet shape fixed to the cold/warm water purification water (compared to the user's side), and the second outlet 900 may have The rotational force of the motor 950 is converted into a linear reciprocating motion and inserted into the side of the cold/warm water purifier (preferably from the front side of the user) or pulled out from one side of the cold/warm water filter. Tube shape. Now, the details of these exports will be described. First, the first outlet 800 is fixed to one side of the cold/warm water purifier for discharging cold/warm untreated water, and may be the first and second 35 201000195 holes 812 and 814 formed therein. A vertical combination of an outlet housing 810 and a second outlet housing 830 having a discharge aperture 832. Alternatively, the first outlet 8 can be secured to the bottom of the control box 1402 through the opening 1306 of the front box 1302. The first hole 812 of the first outlet casing 810 is connected to the cooling water tank T2 via a medium third pipe or the like via a separate sixth pipe or the like, and the second hole 814 is fourth by the medium fourth tube The valve V4 is connected to the warm water supply port 174 of the heating water tank T3. Therefore, the sixth tube interconnecting the cooling water tank T2 with the first hole 812 of the first outlet casing 810 by the medium third valve V3 substantially forms the fifth duct L5. ® Therefore, the cold filtered water and the warm filtered water merge in the first outlet 8 and are supplied to the user through the discharge hole 832. A double slit structure guide 84 〇 can be provided in both sides of the first outlet 800. Next, the second outlet 900 is used to pull out the supplied demineralized water and the filtered water in the side inserted into the cold/warm water purifier or from one side of the cold/warm water purifier. The second outlet 900 can have a tube shape with at least one inflow opening to allow the application tray and pinion drive system to perform corresponding operations and can be pulled or inserted from the bottom side of the control box. ❹ _ At this time, since the softened water and the drowning water are different in terms of use, it is necessary to distinguish them without mixing. Therefore, the second outlet 900 can be divided into a pair of tubular first and second outflow weirs 912 and milk. The first outflow opening 916 for discharging the transition water and the second flow f hole f6 for discharging the softened water may be divided into the bottoms of the leading ends of the first and second outflow weirs. The trailing end of the first outflow weir 912 is connected to the clean water tank T1 via the medium fifth pipe V5 or the like, and the tail end of the second outflow 36 201000195 埠922 is passed through a separate seventh pipe. Or the like, connected to the fifth port 652 of the second passage plate 6〇2 of the filter unit 4 by the medium sixth valve V6. Therefore, the seventh pipe interconnecting the fifth port 652 of the second passage plate 6〇2 and the second outflow port 922 substantially forms the ninth pipe L9. Therefore, the filtered water and the softened water are not mixed in the second outlet 900. The filtered water and the softened water are respectively discharged through the first outflow holes 916 of the first outflow weir 912 and the second outflow holes 926 of the second outflow weir 922. ❹ As described above, the second outlet 900 can employ a bracket and pinion system to convert the rotational force of the motor 950 into a linear reciprocating motion such that the second outlet 900 can be inserted into the bottom of the control box 丨4〇2 or The bottom of the control box 14〇2 is pulled out. To this end, the first and second outflow ports 912 and 922 are interconnected by a bridge 920. The motor 950 is fixed to the first outlet 800 by a separate motor bracket 940 medium and is coupled to a pinion coupled to the shaft of the motor 950. A 96-inch engaged bracket 932 is formed along a longitudinal direction of one of the first and second outflow ports 912 and 922. Further, the guide projection 930 of the guide table 840 guided to the first outlet 8 is formed in the longitudinal direction of one of the first and second outflow ports 912 ❺ and 922. With this configuration, in the case where the second outlet 900 is guided to the first outlet 800, the second outlet 900 is pulled out from the bottom of the control box 1402 by the rotation of the motor 950 in one direction and the motor 950 is taken. The rotation in the other direction is again inserted in the bottom of the control box 1402. In this case, the insertion and withdrawal operations of the second outlet 900 can be controlled by the lever 1408 provided in the control box 1402. In addition, the degree of pullout of the second exit 37 201000195 900 can be randomly controlled according to the selection from the user. To this end, along the first and second outflow weirs 912 and the longitudinal direction of the milk f, an optical sensor is formed which is formed with at least one stop groove 936 and is used to sense the stop groove 936. 98〇 is disposed at a predetermined position inside the front case 1302. Therefore, when the on/off and rotation directions of the motor 95 are controlled based on the sensing result of the optical sensor 980, the user can control the degree of insertion and withdrawal of the second outlet 9 可视 as needed. To this end, instructions from the user can be entered via the joystick 14 〇 8 or a button provided in the control box 1402. Further, preferably, the individual standing lamp housing 820 having the hollow portion formed in the vertical direction is provided on one side of the first outlet 8〇〇. The UV lamp 85A can be inserted into the lamp housing 820. With this configuration, the ultraviolet lamp 85 发出 emits ultraviolet rays in the outflow direction of the cold/warm filtered water, wherein the lamp is fixed to the first outlet, thereby using the material ray to perform the user's cup stitching near the first ^ π _ disinfection. In this case, the driving of the ultraviolet lamp 85 is preferably determined by the user's choice, and the maker can provide a button or lever selection corresponding function provided in the control box 14A2. In the drawings, reference numerals 914 and 924, which are not described, respectively denote internal passages through which the filtered water and the softened water pass through the first and second flow outflows 912 and 922. . Next, Figs. 23 to 25 are views for explaining a method of replacing the filter in the cold/warm water purifier of the present invention. Figure 23 is an exploded perspective view of the water tank unit 1A and the filter unit 400, and Figures 24 and 25 are perspective views showing different rotation states of the filter unit 400. As shown in the figure, the filter unit 4〇〇38 201000195 of the cold/warm water purifier of the present invention is characterized in that it is rotatably combined to a main body (preferably, a water tank unit of a cold/warm water purifier) 100) and at 90. Or rotate within the angle range below to expose it to the outside. To this end, a pair of hinge projections 504 protrude from both sides of the passage casing 500 of the filter unit 400, and a pair of hinge fixing tables 3〇2 are provided in the water tank unit ,, and the hinge projections 504 are rotatably inserted, respectively. It is located at the bottom of the clean water tank T1. Therefore, the filter unit 4A can be rotated to some extent about the virtual reference axis interconnecting the hinge projections 5〇4. Although the angle of rotation is not clearly limited, the angle of rotation is preferably 9 〇. Or within the following range, in order to prevent the various tubes connected to the filter unit 4 from coming off. Further, in the bottom of the clean water tank T1, a stopper projection 3〇6 for fixing and maintaining the horizontal state of the filter unit 400, and a rotary fixing table for fixing and holding the rotation state of the predetermined angle are provided. 4. Assume that the horizontal state is 〇. Then, the filter unit 400 is at 90 in only one direction around the virtual reference axis. Or within the angular range below, and the rotation state is fixed when the rotary fixed table 3〇4 filter unit 400 is engaged.

& and man? En ι * τ state. steal. After the completion of the filter replacement, when the rotary fixed stage 304 is captured, the reference numeral 5〇6, which is not described, represents the hinge member 502 and the hinge fixing table 3〇2. Separate auxiliary 39 for preventing the hinge protrusion 502 from being taken out after the combination. 201000195 Finally, FIG. 26 is a block diagram showing the controller 1 and related components of the cold/warm water filter according to an embodiment of the present invention. Figure. Hereinafter, the function and general operation of the cold/warm water purifier of the present invention will be outlined with reference to the drawings. Referring to the foregoing description, the cold/warm water purifier of the present invention typically has five unique functions. The first function is to produce filtered water and demineralized water and separately provide cold/warm filtered water, filtered water and softened water. The second function is to heat-sterilize the water storage tank T1 for storing and filtering the filtered water, and the cooling water tank T2 for storing the cold filtered water. The third function is to sterilize the user cup or the like near the first outlet 800 through which the cold/warm filtered water is discharged by ultraviolet radiation. The fourth function is that the second outlet 900 through which the filtered filtered water and the softened water pass can be externally inserted and pulled out from the outside. The fifth function is to rotatably pull out the filter unit 400 contained in the cold/warm water purifier from the outside. All functions except the fifth function are performed by the controller 100 in accordance with the selection from the user. To this end, the controller 1000 is composed of a logic operation circuit such as a microcomputer or the like to be based on user commands that are rotated through a plurality of buttons 1406 and a control f 1408, and various sensors (for example, a float including the water tank T1) The first and sixth valves VI to V6, the motor 700, and the ultraviolet lamp 850 are controlled by the sensing results of the sensors 132 and 134 and the temperature sensors 142 and 144' and the optical sensor 98' of the discharge unit 7. Therefore, the cold/warm water purifier of the present invention generally displays five operation modes. The first operation mode is "standby mode" which generates filtered water and maintains a certain amount in the clean water tank τι, the cooling water tank T2 and the heating water tank T3. Filtered water, a certain amount of cold filtered water and a certain amount of warm filtered water. The second operation mode 201000195 is "cold/warm water discharge mode" in which the cold/warm transition water stored in the cooling water tank τ2 and the heating water tank Τ3 is discharged through the first outlet according to the user's choice. The third mode of operation is "ultraviolet disinfection mode" in which the ultraviolet lamp 850 emits ultraviolet rays according to the user's selection to perform a "transitional water or softened water discharge mode" on the user cup or the like near the first outlet 800. It = the fourth out = 0 according to the degree of insertion and withdrawal from the user's choice and the "exit: ❹ = or softened water discharged through the second outlet 900. The fifth mode of operation is "self" The second heater 232 generates heat in the standby mode to sterilize the clean water tank T1 and the cooling water tank T2 in accordance with the selection from the user. These modes will be described below. In the standby mode, the controller 1000 opens the first and second valves V1 & V2 < 'the /, the valve V6 is closed to supply the filtered water and the cold / warm filtered water to the clean water tank T and the cooling water tank T2 and The water tank T3 is heated to close the first and second valves V2 to maintain a predetermined water level when the float sensors 132 and 134 of the clean water tank T1 sense the two most water levels, and drive the cooling coil 222 and the heater (not shown) to The cold/warm filtered and cooled water is cooled and heated to a predetermined temperature based on the induction results of the temperature sensors 142 and 144 provided in the cooling water tank T2 and the heating water tank T3. Next, when the user pushes the deposit t 1406 or the like to select the "cold/warm filtered water discharge mode", the controller 1000 drives the ultraviolet lamp 850 to use ultraviolet rays to the user cup near the first outlet 800 or the like. Disinfect the substance. At this time, this mode is preferably automatically stopped within a few seconds to prevent the 201000195 user from being exposed to ultraviolet light for a long time. Next, when the user turns the control lever H08 and then pushes the button 1406 or the like to select the "filtered water or softened water discharge mode", the controller 1000 drives the motor 950 based on the sensing result of the optical sensor 980 to The second outlet 900 is pulled out from the front side by a predetermined length, the fifth valve V5 is opened to discharge the filtered water through the second outlet 900, while the first valve VI is opened to replenish the filtered water, or the first and sixth valves VI and V6 are opened. To discharge softened water. At this time, the selection of the pull-out or insertion of the second outlet 900 may be a scheme of controlling the rotation direction of the motor 950 according to the rotation direction of the ❹ control lever 1408, and the selection of the degree of pull-out or insertion of the second outlet 900 may be The scheme of controlling the degree of rotation of the motor 950 in accordance with the degree of rotation of the lever 1408. During this process, the controller 1000 can accurately detect and control the position of the second outlet 900 based on the sensing result of the optical sensor 980. Additionally, preferably, the second outlet 900 can be returned to its original position within a few seconds when the filtered or demineralized water discharge is completed after the second outlet 900 is pulled out. Next, when the user pushes the button 1406 or the like to select the "self-sterilization mode", the controller 1000 drives the second heater 232 in the cooling water tank T2 to generate heat, thereby passing the clean water tank T1. The water in the cooling water tank T2 is boiled to sterilize the corresponding space. At this time, the controller 1000 can control the second heater 232 to not overheat based on the sensing results of the temperature sensors 142 and 144 provided in the cooling water tank T2, and if necessary, open the third and fifth valves V3. And V5 to completely empty the clean water tank T1 and the cooling water tank T2 after the self-sterilization mode. Although the present invention has been disclosed in the above embodiments, it is not intended to limit the invention, and any one of ordinary skill in the art can make a few Er, therefore, the scope of protection of Ming is subject to the deduction of the application. [Simple description of the drawings] 201000195 2 Outside the controller, the second self-disinfection mode at night, or when the monitor that is not used in 2002 can be based on the ί-warm water purifier, the controller 1000 is the second off 4 time, driving the pump The driving time and quantity of Μ. In addition, (4) V6 opening time to total the filter used by the controller 1000 can compare the total result with the S flow of each filter: comparison: the degree of loss and the replacement of the display unit of the individual i-disconnector The user displays the pollution process of the _. Therefore, at the time of the filter replacement time, the user can use the fifth Weier filter unit 400 of the cold/warm water through the wire, rotatably pull out to the outside and easily replace each filter and remover. . BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a block diagram of a cold/warm water purifier according to an embodiment of the present invention. 2 is a perspective view of a cold/warm water purifier in accordance with an embodiment of the present invention. 3 and 4 are partially exploded perspective views of the outer casing of the cold/warm water purifier in accordance with a preferred embodiment of the present invention. 43 201000195 Figure 5 is a partial exploded and enlarged view of a cold/warm water purifier in accordance with an embodiment of the present invention. Figure 6 is a partially exploded perspective view of the casing of the cold/warm water purifier according to an embodiment of the present invention. Fig. 7 is a partially exploded and enlarged view of cold/warm water purification according to an embodiment of the present invention. Figure 8 is a perspective view of a body of a cold/warm water purifier according to an embodiment of the present invention. Figure 9 is an exploded perspective view of the body of the cold/warm water purifier according to an embodiment of the present invention. And U is an exploded perspective view of the filtration of the cold/warm water purifier according to an embodiment of the present invention. The separator 7 is a cold 7 warm water purifier according to the embodiment of the present invention. FIGS. U and 14 are respectively a plan view and a view of a first passage plate of a filter unit of a water separator according to the present invention. The water cry 16 is a plan view and a bottom view, respectively, of the second passage plate of the cold/warm water time saver unit 70 according to the embodiment of the present invention. Box single invention _ real cold / warm water water purifier water tank single invention _ implementation of cold / warm water purifier water outside the water tree

❹ 201000195 The single-issue batch-solid-cold cold/warm water cooler is a bottom perspective view of the first outlet of the cold/warm water purifier according to the embodiment of the present invention. Figure 22 is a cross-sectional view showing a second outlet of the discharge unit of the cold/warm water purifier according to an embodiment of the present invention. Figure 23 is an exploded perspective view of a water tank unit and a filter unit of a cold/warm water purifier according to an embodiment of the present invention. 24 and 25 are perspective views showing a state of rotation of a filter unit of a cold/warm water purifier according to an embodiment of the present invention. Figure 26 is a block diagram showing a controller and associated components of a cold/warm water purifier in accordance with an embodiment of the present invention. [Main component symbol description] 52: condenser 100: water tank unit 102: first insertion step 120: filtered water inlet hole 122: engagement groove 124: first filtered water outlet hole 126: second filtered water outlet hole 132 : float sensor 134 : float sensor 142 : temperature sensor 144 : temperature sensor 45 201000195 150 : front guide cover 152 : rotary clamp 154 : hook-shaped engagement projection 172 : filtered water supply hole 174 : warm water supply 埠 176 : First discharge port 222: cooling coil 232: second heater 250: circulation plate 252: circulation hole 302: hinge fixing table 304: rotation fixing table 306: stopper protrusion 400: filter unit 402: first rotation flange 404: second rotating flange 406: third rotating flange 408: fourth rotating flange 412: fifth rotating flange 422: inlet hole 432: outlet hole 440: outlet tube 500: passage housing 502: first passage plate 201000195 铰 Hinge protrusion auxiliary part fixing flange first inlet hole first exit hole fixing flange second inlet hole second outlet hole fixing flange third inlet hole third outlet hole fixing flange fourth inlet hole fourth outlet hole fixed Edge fifth inlet hole fifth outlet hole second passage plate first connection 埠 second connection 埠 third connection 埠 fourth connection 埠 fifth connection 埠: discharge unit 201000195 800 : first outlet 810 : second outlet 812 : One hole 814: second hole 820: lamp housing 830: second outlet housing 832: discharge hole 840: double slit structure guide table 850: ultraviolet lamp 900: second outlet 912: first outflow port 914: internal passage 916: First outflow hole 920: Bridge 922: Second outflow port 924: Internal passage 926: Second outflow hole 930: Guide protrusion 932: Bracket 934: Position mark protrusion 936: Stop groove 940: Motor bracket 950: Motor 960 : Pinion 201000195 光学 Optical sensor: Controller: PCB Box: Bottom: Base side: First bottom flank: Second bottom flank: Third bottom flank: Fourth bottom flank: First kerf: Second Notch groove: insertion groove: first side case: first notch protrusion: first insertion protrusion: third insertion protrusion: first engagement step: second side case: second insertion protrusion: Four insertion protrusions: second engagement step: front case: front side: opening 49 201000195 1308: support table 1312: first front side flap 1314: second front side flap 1316: third front side flap 1318: fourth front side flap 1322: mounting step 1332: first spanning protrusion 1334: second spanning protrusion 1342: mounting hole 1350: sink box 1352: bowl-shaped lower cover 1354: insertion protrusion 1362: front cover 1402: control box 1404: front side 1406: button 1408 : Control lever 1414 : Second control wing 1416 : Third control wing 1422 : Hook protrusion 1450 : Top cover 1502 : Rear case 1504 : Cooling fin / Cooling pin 1506 : Coolant circulation pipe 50 201000195 1512 : Insert 埠 1514 : Supporting protrusion 1602: leading shell 1604: top side 1612: first leading side flap 1614: second leading side flap 1616: third leading side flap 1622: third spanning protrusion 1624: fourth spanning protrusion 1632: open space 1642: insert pin 2002: Timer 2004: Display unit B: Main body B1: First screw B2: Second screw ❹ B3: Third screw B4: Fourth screw B5: Fifth screw D1: First discharge pipe D2: Second discharge pipe F1: A clean water filter F2: Second clean water filter F3: third clean water filter 51 201000195 F4: fourth clean water filter F5: softening filter L1: first pipe L1-1: first pipe 1 / first 1 path L1-2: the first 2 pipes / the first 2 channels L1-3: the first 3 pipes / the first 3 channels L1-4: the first 4 pipes / the first 4 channels L2: the first Second pipe/second passage L4: fourth pipe L5: fifth pipe L6: sixth pipe L7: seventh pipe L8: eighth pipe/eighth passage L9: ninth pipe/ninth passage/ninth pipe Μ: Drive pump Τ 1 clean water tank Τ 2 cooling water tank Τ 3 heating water tank VI first valve V2 second valve V3 third valve V4 fourth valve V5 fifth valve V6 sixth valve 52

Claims (1)

201000195 VII. Application for Patent Park: 1. A water purifier, comprising: yuan's untreated water into filtered water; water: single, including the storage of the purified water tank The water is heated into a warm water and stored in a detailed description of the temperature of the magnetic water. The water phase 'u and the water are cooled to a cold water cooling transition water tank; and ^ Ο ❿ the emission sheet it's containing emissions The cold/warm_filter water first outlet and the filtered, water second outlet. The water purifier of claim i, wherein the ejector unit 7G further comprises a softening filter for softening the non-domain water into softened water, and the L discharge The drenched water and the softened water. A water purifier comprising: a filter unit 'which filters the untreated water into a filtered filter that passes through the water and softens the untreated water to a soft softened filter And a < discharge unit comprising a first outlet for discharging the filtered water to place the second outlet of the softened water. _4. The water purifier of claim 4, further comprising a water tank unit, the water tank unit comprising a purified water tank for storing the filtered water, heating the filtered water into warm filtered water And storing the warm water tank of the warm filtered water, and cooling the filtered water into cold filtered water = the cooling water tank of the cold filtered water, sub 53 201000195 wherein the first outlet discharges the cold / The water is filtered by warming, and the first outlet discharges the filtered water and the softened water. 5. The water purifier of claim 2, wherein the second outlet discharges the filtered water and the softened water, respectively. 6. The water purifier of claim 5, wherein the second outlet comprises a first outlet hole through which the filtered water is discharged and a second passage through which the softened water is discharged. Outflow hole. 7. The water purifier of claim 6, wherein the second outlet comprises a pair of parallel tubular first and second outflow weirs, the first and first first exit pupils respectively having a front lead formed The first and second outflow holes at the bottom of the end. 8. The water purifier of claim 7, further comprising a bridge interconnecting the first and first outflow ports. A water purifier comprising: a filter unit that filters untreated water into filtered water; and a discharge unit that includes the discharge of the fixed first outlet port through the hydrophobic water and discharge The financial output can be inserted and pulled out of the second export. 10. The water purifier of claim 9, wherein the filter unit further comprises: the unlocalized water softening softening filter, and the second The outlet discharges the passed water and the softened water. 11. A water purifier comprising: a ejector unit comprising: filtering untreated water into filtered water 54 201000195 and softening the untreated water into softened soft water and a purified water filter a descaling filter; a discharge unit comprising a fixed first outlet for discharging the filtered water and a second outlet for discharging at least the inlet and the outlet of the filtered water and the softened water. 12. The water purifier as claimed in any one of claims 9 to 11, further comprising a water tank unit, the water tank unit comprising a clean water tank for storing the filtered water, the heating water tank to be the filtered water Heating into warm filtered water and storing the slit county water 'money cooling water tank 赖 _ filtered water cooled into cold filtered water and storing the cold filtered water, wherein the first outlet discharges the cold / warm filtered water. The water purifier of claim 10 or 11, wherein the second outlet discharges the filtered water and the softened water, respectively. 14. The water purifier of claim 13, wherein the second outlet comprises a first outflow hole through which the filtered water is discharged and a second outflow hole through which the softened water is discharged. The second outlet has a tube shape disposed along the insertion and extraction directions. 15. The water purifier of claim 14, wherein the second outlet comprises a pair of parallel tubular first and second outflow weirs, the first and second outflow weirs respectively having a leading end formed The first and second outflow holes at the bottom. 16. The water purifier of claim 15 further comprising a bridge interconnecting said first and first outflow ports. 17. The water purifier of claim 14, further comprising: 55 201000195 a motor and a pinion; and a bracket formed along a longitudinal direction of one side of the second outlet, wherein the second outlet Pulled out and inserted by the rotation of the motor. 18. The water purifier of claim 17, wherein the motor is fixed to the first outlet. The water purifier according to claim 14, further comprising: a position mark protrusion formed along a longitudinal direction of one side of the second outlet and having at least one stop groove formed therein; and optical sensing And sensing the stop slot, wherein the motor is controlled based on a result of the sensing of the optical sensor such that the insertion and withdrawal of the second outlet are controlled. 20. The water purifier of claim 14, further comprising: a guiding protrusion formed along at least a longitudinal direction of the second outlet; and a guiding platform disposed at the The first outlet is described and the guiding protrusion is guided. 21. A water purifier comprising: ❹ a filter unit 'which filters untreated water into transition water; a water tank unit comprising a purified water tank for storing the filtered water, the filtered Heating the water into warm water filtered water and storing the heated water tank of the warm filtered water and a cooling water tank for cooling the transition water to cold filtered water and storing the cold filtered water; the heating water tank comprises a first heater for heating, a cooling coil for cooling, and a second heater, the 56 201000195 second heater being included in at least the clean water tank and the cooling water tank /name · and heating at least one of the filtered water and the cold filtered water; and the discharge unit 'which discharges the cold/warmed filtered water. The water purifier of claim 21, wherein the cooling water tank is connected to the clean water tank such that water is circulated, and the second heater is included in the cooling water tank or the net In the water tank. ❹ 23. The water purifier of claim 22, wherein the cooling water tank is located in the bottom of the inner side of the filter tank. 8. The water purifier according to claim 23, further comprising a circulation plate inserted between the cooling water tank and the purified water tank, the circulation plate having a plurality of circulation holes formed therein . 25. The water purifier of claim 21, further comprising at least two temperature sensors included in the clean water tank or the cooling tank water, wherein 'at least one of the temperature sensors - When the sensor senses above the reference temperature, the second heater is turned off. 1. 26 If the water purifier described in item 21 of the patent application is more than a float wire, the child money rides the surface to sense different water levels. And a water purifier comprising: and a main body having a clean water tank filter unit for storing filtered water, which passes the untreated water into the said rotatably coupled to the body The subject. Considering water 28. The water purifier according to the above-mentioned patent scope, further comprising 57 201000195 includes: a pair of opposite hinge fixing stages provided on one side of the main body; and a pair of hinge protrusions, Provided on both sides of the filter unit and rotatably inserted into the hinge fixing table, wherein the filter unit interconnects the pair of hinge protrusions at an angle of 90° or less The rotary axis rotates. 29. The water purifier of claim 28, wherein the filter unit comprises: a passage housing having the hinge protrusions formed on both sides thereof; and at least one surface contacting the passage A water purification filter at the bottom of the housing. 30. The water purifier according to claim 27, further comprising a stopper protrusion provided on one side of the main body such that the filter unit is covered by the stopper protrusion Live to maintain the horizontal state of the filter unit. The water purifier according to claim 27, further comprising a rotary fixing table provided on one side of the main body such that the filter unit is fixed in a rotating state. The water purifier according to any one of claims 27 to 31, wherein the filter unit is coupled to one side of the water tank unit. 33. A water purifier comprising: filtering an f unit, the treated water of the wire is filtered water; a discharge unit passing and discharging the filtered water; and a 201000195 ultraviolet lamp disposed on the discharge The water purifier is provided in the vicinity of the unit and in the direction of discharge of the filtered water. The water purifier according to claim 33, wherein the ultraviolet lamp is fixed to the discharge unit. 35. The water purifier of claim 33, further comprising a tubular lamp housing fixed to the discharge unit, the lamp housing having a hollow portion formed in the filtered water discharge In the direction, wherein the ultraviolet lamp is inserted in the lamp housing. 36. A water purifier comprising: a filter unit that filters untreated water into filtered water; a water tank unit comprising a clean water tank for storing the filtered water, the heated water tank to The filtered water is heated to warm filtered water and the warm filtered water is stored, and the cooled water tank cools the filtered water into cold filtered water and stores the cold filtered water; the discharge unit 'which contains the cold a first outlet for filtering the filtered water and a second outlet for discharging the filtered water; a first passage supplying the untreated water to the filter unit, and a second passage separating the filter The filtered water is delivered to the clean water tank, the third passage delivers the filtered water of the clean water tank to the cooling water tank, and the fourth passage passes the said water purification tank Filtered water is supplied to the heating water tank, and a fifth passage passes the cold filtered water delivery of the cooling water tank to the m port, and the sixth filtered water to the heating water tank is delivered to the First exit, seventh passage ^ and the place where the clean water tank will be Delivered to the second outlet via filtered water; and 59 201000195 a first valve disposed in the first passage, a first valve disposed in the second passage, and a first passage in the fifth passage a three valve, a fourth valve disposed in the sixth passage, and a fifth port disposed in the seventh passage. 37. The water purifier of claim 36, further comprising a drive pump mounted on the first passage. 38. The water purifier of claim 37, wherein the water purifier is induced based on at least one of an opening time of the first valve, a driving time of the driving pump, and an opening time of the second valve. The degree of contamination of the filter unit. U 39. The water purifier of claim 37, wherein the filter unit comprises two or more water purification filters, the water purification filter will treat the untreated The water is filtered into the filtered water, and the first passage sequentially transfers the untreated water through the two or more purified water filters. 40. The water purifier of claim 39, wherein the filter unit further comprises a softening filter, the softening filter softening the filtered water into demineralized water, The water purifier further includes: an eighth passage interconnecting the first passage with the softening filter and a ninth passage interconnecting the softening filter with the second outlet; and a sixth valve Located in the ninth passage. 41. The water purifier of claim 4, wherein the water purifier is based on an opening time of the first valve, a driving time of the driving pump, an opening time of the second valve, and the sixth interval At least one of the opening times to sense the degree of contamination of the filter unit 60 201000195. 42. The water purifier of claim 39, wherein the water purification filter comprises a first water purification filter as a screening filter and a second carbon dioxide filter as a pre-carbon filter. a water purification filter and a third water purification filter as a post carbon filter, and wherein the first passage includes supplying the untreated water to the first filter filter a first pass, a first one path interconnecting the first and second clean water filters, and interconnecting the second and third clean water filters with the eighth path Connect the first 2 channels. 43. The water purifier of claim 42, wherein the first valve is provided in the first two passages. 44. A water purifier comprising: a body including a filter unit, a water tank unit, and a discharge unit; a bottom case on which the body is disposed; and a second side case disposed on a left side of the body And a right side; a front case having an opening to expose the discharge unit and disposed at a front end of the body; a rear case disposed at a rear side of the body; a front guide case covering a top portion of the body; a control I coupled to the opening in a front side of the front case, the discharge unit being exposed to a bottom of the opening, and a top cover covering a top of the control box. 45. The water purifier as claimed in claim 44, further comprising a front cover, a rear part, and an edge of the pick-up phase, the 201000195 one to the fourth bottom side wing, wherein the front shell, the The rear case and the first and first side cases are further transferred to the first to fourth bottom side wings. 46. The water purifier of claim 45, wherein the water tank unit is disposed at the top of the body, and wherein the front case is inserted into the first case through the front case A plurality of first screws of a bottom flank and a plurality of second screws inserted through the front casing into the water tank unit are fixed. 47. The water purifier of claim 46, further comprising a support table that supports the water tank unit over the top of the opening of the front case, the second screw Inserted into the support table. 48. The water purifier of claim 45, further comprising: a plurality of first and second slit grooves formed along said third and third wings; and _ plurality of first and second a slit protrusion that protrudes inwardly along an inner side of the first and second side shells, wherein the first and second weaves are fixed by a combination of the second slit groove and the first and second slit protrusions . For example, in the water purifier described in claim 45, the water tank unit is disposed at the top of the main body, and the rear case is inserted into the second middle screw through the rear case and passes through The front case is fixed by a plurality of fourth screws inserted into the water tank Ϊ /0. Dry water 净 如 ^ ^ ^ ^ 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利The water purifier of claim 44, further comprising: left and right first and second front flank from the front shell The edges project rearward; and the left and right first and second leading side flaps project downwardly from the edge of the top of the leading shell. 52. The water purifier of claim 51, further comprising: a plurality of first and second spanning protrusions protruding rearward from the first and second front portions; a plurality of second and a fourth spanning protrusion that protrudes downward from the first and second leading side flaps; a plurality of first and second inserting protrusions from an inner side of a top of each of the first and second side shells a protrusion and a second and fourth insertion protrusion projecting forward from an inner side of a front end of each of the first and second side cases, wherein the third and second insertion protrusions are inserted The person is in the first and second spans, and the second and fourth insertion protrusions are inserted in the third and fourth spanning protrusions in a spanwise manner. The water filter of claim 44, further comprising: a bending station, wherein the first and second f-curving stations are bent from an edge of the first and the -= rear ends, and The first and second side shells, which are closely recorded along with the rear case, are respectively shouted by a plurality of fifth screws inserted through the first and second curved openings in the rear case. 63