JP3951723B2 - Faucet direct water purifier - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a water purifier provided with means for displaying the life of a purification cartridge.
[0002]
[Prior art]
Conventionally, as a water purifier that displays the time for replacement of a purification cartridge to a user, for example, as disclosed in Japanese Patent Laid-Open No. 2000-176446, the amount of water to be purified by a water purification cartridge is detected. In addition, it is known that a light emitting diode (hereinafter referred to as an LED) is turned on when an integrated flow rate obtained by integrating this reaches a preset life reaching flow rate. The user can know from the lighting of the LED that the purification cartridge has reached the end of its life and needs to be replaced.
[0003]
However, since this water purifier has only one LED, it cannot convey a plurality of information to the user. In order to display a plurality of information, a large number of LEDs may be provided. In particular, the faucet direct-coupled water purifier is miniaturized so as not to interfere with operations such as dishwashing, so the surface area of the portion where the LEDs can be installed is small. . Even if a plurality of small LEDs can be installed on a small surface area, it is unavoidable that the characters explaining what each LED means are inevitably small, and it is difficult to make the display easy to understand for the user.
[0004]
On the other hand, when a plurality of LEDs are used for easy-to-understand display and a circuit board or a plurality of wirings on which a plurality of LEDs are mounted is placed inside the main body casing of the water purifier, the main body casing of the water purifier is used. As a result, the problem of not only increasing the cost of the components but also obstructing operations such as dishwashing during use occurred.
[0005]
[Problems to be solved by the invention]
In view of the above-described problems, an object of the present invention is to provide a water purifier capable of easily displaying a replacement period of a purification cartridge and a plurality of other information for a user.
[0006]
[Means for Solving the Problems]
In order to achieve the above object, the present invention In the faucet direct connection type water purifier in which the purification cartridge for purifying the raw water is disposed in the water purifier main body, the raw water inlet connected to the faucet and receiving the raw water in the water purifier main body, the raw water outlet, A purified water outlet, a switching valve for purifying the raw water to flow out from the purified water outlet or from the raw water outlet, a flow rate detection unit for detecting the flow rate of the raw water or purified water, and the detected raw water or purified water Display unit that displays the purification cartridge replacement time based on the flow rate Toga Preparation And Display part Is located in front of or on the side of the raw water inlet, and is erected so as to protrude outward. It features a faucet directly connected water purifier.
[0007]
here , table The display section is provided so that it can be tilted up and down, and the display section includes at least one of the replacement timing of the purification cartridge, the replacement timing of the power supply, the instantaneous flow rate of purified water, the type of the purification cartridge, and the switching state of the switching valve. Are preferably displayed. Furthermore, the display unit is preferably a liquid crystal display.
[0008]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings, taking a water purifier attached to a faucet of a home kitchen or the like as an example.
[0009]
As shown in FIGS. 1 to 6, the water purifier of the present invention is composed of a main body 2 having a built-in switching valve therein, a purification cartridge 3 containing a filter medium, and the like. The main body 2 is provided with a lever 5, and by operating the lever 5, the raw water flowing from the tap 4 through the raw water inlet is directly discharged as shower water (raw water shower) -Select whether to discharge as raw water (raw water straight) or supply to the purification cartridge 3 and switch. The raw water supplied to the purification cartridge 3 is filtered by an adsorbent such as activated carbon, a hollow fiber membrane or the like, and discharged from the purified water outlet as purified water.
[0010]
First, the main body 2 will be described.
[0011]
As shown in FIGS. 4 and 5, the main body 2 includes a switching valve main body 13 including three balls 11 a, 11 b, 11 c and a valve shaft 12 constituting a switching valve, and a raw water shower port 14. A lower body 16 having a raw water straight port 15 and a purified water outlet 19, an upper body 17 having an opening from which the switching valve body 13 protrudes on the upper surface, a valve operating unit 18 for performing a switching operation, A cartridge cap 91 for fixing the cartridge 3 and an electric component unit for accumulating the flow rate and displaying the result.
[0012]
A ring-shaped packing 36 is attached to the switching valve main body 13, and an attachment nut 38 is screwed into the switching valve main body 13 via an adapter 37 screwed into the male thread portion of the faucet 4, so that the main body portion 2 is connected to the faucet 4. It is supposed to be attached to.
[0013]
The interior of the switching valve main body 13 is partitioned into an upper chamber 23 and a lower chamber 24 by a partition plate 22 having three water passages 21a, 21b, and 21c.
[0014]
In the upper chamber 23, three balls 11a, 11b, 11c are arranged so as to correspond to the three water passages 21a, 21b, 21c. The lower portion of the ball 11a protrudes into the lower chamber 24 in a state where the ball 11a is fitted in the water passage 21a and the water passage 21a is closed. The same applies to the balls 11b and 11c.
[0015]
In the cylindrical lower chamber 24, the valve shaft 12 is rotatably inserted, and O-rings 25 a, 25 b, 25 c disposed at predetermined positions of the valve shaft 12 are watertight with the inner wall surface of the lower chamber 24. Are engaged. As a result, the lower chamber 24 is divided into three sections, a flow path 31a leading from the water passage 21a to the raw water supply port 26 (see FIG. 6) for supplying raw water to the purification cartridge 3, and a raw water straight from the water passage 21b. A flow path 31b that leads to the mouth 15 and a flow path 31c that leads from the water passage 21c to the raw water shower mouth 14 are formed.
[0016]
Further, as shown in FIG. 4, the valve shaft 12 is provided with cam portions 27a, 27b, and 27c at positions facing the water passages 21a, 21b, and 21c. These cam portions 27a, 27b, and 27c are provided so as to be shifted by 60 °, for example, in the circumferential direction of the valve shaft 12, and selectively turn upward by rotating the valve shaft 12 by 60 °. It is possible to open the water passage by pushing up the lower part of the ball protruding to the top. That is, by turning the valve shaft 12 by a predetermined angle by a valve operating unit 18 to be described later, one of the water passages 21a, 21b, 21c is opened, and the raw water flowing in from the faucet 4 is discharged as shower water as it is. It is possible to select whether to discharge as straight water or to supply to the purification cartridge 3 as it is.
[0017]
For the balls 11a, 11b, and 11c, a metal sphere as a core covered with rubber is used. However, the shape of the valve is not limited to a sphere, and may be conical or cylindrical, or may be umbrella-shaped. . And in order to improve the sealing performance when the water passage is closed, the balls 11a, 11b, 11c provided in the upper chamber 23 may be urged from above by a spring or the like in the direction of the water passage.
[0018]
As shown in FIGS. 6 and 10, on the rear side of the switching valve main body 13, a raw water supply port 26 that supplies raw water to the purification cartridge 3 and a purified water reception port 29 that receives purified water from the purification cartridge 3. And are provided. The raw water supply port 26 communicates with the flow path 31 a, and the purified water receiving port 29 communicates with the purified water outlet 19 via the purified water supply channel 30. A water wheel 122 and a water wheel support member 123 of the flow rate detection unit 102 described later are provided in the purified water supply channel 30, and the water wheel 122 is rotated by passing purified water.
[0019]
Next, the purification cartridge 3 will be briefly described.
[0020]
As shown in the cross-sectional view of FIG. 7, the purification cartridge 3 includes a raw water receiving port 62 that receives raw water from the raw water supply port 26 and a purified water supply port that supplies purified water to the purified water receiving port 29 at the bottom of the container 61. 63 is provided. The raw water receiving port 62 and the purified water supply port 63 are provided with O-rings 73 and 74, respectively, to prevent water from leaking outside when connected to the raw water supply port 26 and the purified water receiving port 29.
[0021]
A cylindrical protrusion 61 a is formed on the inner bottom surface of the container 61, and the lower end of the cylindrical body 64 of the hollow fiber membrane module is fitted and erected on the cylindrical protrusion 61 a through an O-ring 65. And in order to hold | maintain the adsorbent layer 70 which processes the raw | natural water which passes between the outer peripheral surface of the cylindrical body 64, and the inner wall surface of the container 61 in the outer peripheral upper and lower part of this cylindrical body 64, it is the ring-shaped filter 66. , 67 are fixed.
[0022]
A hollow fiber membrane bundle 68 in which a plurality of hollow fiber membranes are bundled and bent into an inverted U shape is housed inside the cylindrical body 64. Both ends of the hollow fiber membrane are sealed and fixed (potted) with a curable resin 69 (sealing agent) filled between the hollow fibers and between the hollow fiber and the cylindrical body 64 at the lower part of the cylindrical body 64. ing. Each hollow fiber membrane has its potting part partially cut and removed before fitting into the container 61, so that the end is open toward the purified water supply port 63.
[0023]
An adsorbent layer 70 made of activated carbon, inorganic ion exchanger, ceramic, zeolite, ion exchange resin, chelate resin, hydroxyapatite, or the like is provided between the outer peripheral surface of the cylindrical body 64 and the inner wall surface of the container 61. Has been deployed.
[0024]
The upper part of the container 61 is opened so that the hollow fiber membrane bundle 68 and the adsorbent can be easily filled, and a transparent cap 71 is fitted and ultrasonically welded so that the internal dirt can be confirmed.
[0025]
As shown in FIG. 6, the purification cartridge 3 configured as described above is loaded into the main body 2, and the lower body 16 is positioned at a position where the cartridge cap 91 covers the purification cartridge 3. And the upper body 17 are screwed and fixed to serve to fix the purification cartridge 3 at a predetermined position. The cartridge cap 91 is provided with an opening / closing cap 92, and when the opening / closing cap 92 is opened, the condition of the hollow fiber membrane is contaminated through the opening 93 of the cartridge cap and the transparent cap 71 of the purification cartridge 3. Can be confirmed.
[0026]
Next, the valve operation unit 18 that rotates the valve shaft 12 will be described with reference to FIGS. 3 and 6.
[0027]
As shown in FIG. 6, the valve operating unit 18 is supported by the lever 5 and the switching valve main body 13 so as to be rotatable, and rotates around the same axis as the lever 5. 16 and a torsion coil spring 44 fixed to the lever 5 at the other end. When the lever 5 is pushed down in the direction of the arrow A as shown in FIG. 3, the lever 5 rotates counterclockwise (when viewed from the right side) until it contacts the operation stopper 43, and the lever 5 moves to the operation stopper. When the operation is stopped and the finger is released in a state where it is in contact with -43, it is rotated clockwise by the torsion coil spring 44 to return to the initial position.
[0028]
FIG. 8 is a schematic cross-sectional view taken along the line CC in FIG. 5 and shows a connecting portion between the lever 5 and the drive shaft 41. As shown in FIG. 8, the ratchet pawl member 47 fitted to one end of the drive shaft 41 meshes with the ratchet teeth 48 of the lever 5 to constitute a ratchet mechanism. When the lever 5 is rotated counterclockwise from the initial position (as viewed from the right side in FIG. 6), the drive shaft 41 is rotated together with the lever 5 by 40 ° counterclockwise. When -5 rotates clockwise and returns to the initial position, the drive shaft 41 does not rotate.
[0029]
As shown in FIG. 6 and FIG. 9, which is a schematic sectional view taken along the line DD in FIG. 6, the drive shaft 41 is provided with a spur gear 45 and meshes with a spur gear 46 provided on the valve shaft 12. . Since the gear ratio of the spur gears 45 and 46 is 3: 2, when the spur gear 45 rotates 40 °, the spur gear 46 rotates 60 °. That is, when the lever 5 is operated once, the drive shaft 41 rotates 40 ° and the valve shaft 12 rotates 60 °. Here, there is no problem even if the spur gear is a helical gear or a helical gear. Further, the gear ratio is set to 3: 2, but the present invention is not limited to this and may be 2: 1 or 3: 1. When the number of teeth of the spur gear 45 is larger than the number of teeth of the spur gear 46, the rotation angle of the valve shaft 12 becomes larger than the rotation angle of the drive shaft 41. That is, even if the operation angle of the lever 5 is reduced, the rotation angle of the valve shaft 12 can be sufficiently increased. As described above, when the gear is used, the lever operation angle can be easily set by selecting the gear ratio, and the flow path can be switched reliably and accurately.
[0030]
As shown in FIG. 5, a display ring 51 is fixed to the drive shaft 41 in which characters of “purified water”, “straight”, and “shower” indicating the switching state are printed at 40 ° positions. ing. The characters “purified water”, “straight”, and “shower” printed on the display ring 51 can be seen from the opening 81 of the upper body 17 so that the switching state can be easily confirmed. The display indicating the switching state may be characters, illustrations alone, or a combination thereof. The transparent member 82 is attached to the opening 81 to prevent water from entering the inside of the main body 2 and to prevent the display ring 51 from becoming dirty when washing dishes.
[0031]
Next, an electrical component (electronic circuit) that measures the flow rate of raw water or purified water and calculates and displays the result will be described.
[0032]
As shown in FIGS. 6 and 10, the electrical equipment unit includes a power supply unit 101, a flow rate detection unit 102, a purification cartridge identification unit 103, a control unit 104, a liquid crystal display 105, and the like. .
[0033]
As shown in the exploded perspective view of FIG. 11, the power source 101 mainly includes a battery holder 115 provided in the main body 2, a coin-type manganese dioxide lithium battery 111 (hereinafter referred to as a battery 111), an anode fitting 113, and a cathode. A metal fitting 114 and a detachable battery cover 112 for fixing the battery in a watertight manner are included.
[0034]
The battery cover 112 has a cylindrical battery mounting portion 116 and an O-ring 117 on the outer periphery thereof. When the battery cover 112 is mounted on the battery holder 115 by the bayonet mechanism, water enters the battery mounting portion 116. To prevent it. Since the cylindrical battery mounting portion 116 is provided with a notch 118, the battery can be easily removed by hooking a finger. The surface of the battery cover 112 is provided with a recess 119 for inserting and turning a coin, and characters and illustrations indicating the standard of the battery and the rotation direction for opening and closing are engraved around the recess. Therefore, the user can remove the battery cover 112 from the battery holder 115 and replace the battery using a coin after confirming the battery standard and the rotation direction of the battery cover 112.
[0035]
The anode metal fitting 113 and the cathode metal fitting 114 provided in the battery holder 115 are respectively connected to the control unit 104 shown in FIG. 6 by lead wires, and power from the battery 111 is supplied to the control unit 104. The lead wire is fixed to the battery holder 115 via a rubber cap 120, and the rubber cap 120 is connected to the lead metal 113, the cathode metal fitting 114, and the battery mounting portion 116 by water passing through the lead wire. To prevent intrusion.
[0036]
The battery may be a primary battery or a secondary battery. In addition to a lithium battery such as a manganese dioxide lithium battery that can stably supply power at a relatively high voltage for a long period of time, an alkaline dry battery, a manganese dry battery, and a silver oxide battery. A zinc-air battery may be used. The shape is preferably a small battery such as a button shape or a coin shape that is lightweight and does not require a large installation space. In the case of a small battery, the main body does not significantly increase in size or increase in weight, and the cost does not increase significantly.
[0037]
As shown in FIGS. 10 and 12 to 14, the flow rate detection unit 102 mainly includes a water wheel 122 in which a magnet 121 is embedded, a water wheel support member 123 that rotatably supports the water wheel 122, and the rotation of the magnet. And a magnetic switch holder 125 for supporting and fixing the magnetic switch 124.
[0038]
The water wheel 122 has two blades 132 and 133 formed on a cylindrical shaft portion 131, and a rotating shaft hole 134 into which the shaft 126 of the water wheel support member 123 is inserted is provided at one end of the shaft portion 131. A magnet mounting hole 135 in which the magnet 121 is embedded is provided at the other end.
[0039]
The magnet 121 is inserted into the magnet mounting hole 135 so that the straight line connecting the N pole and the S pole and the rotating shaft of the water wheel 122 are perpendicular to prevent falling off and rusting due to water contact. The opening of the magnet mounting hole 135 is covered with a stopper member and bonded or welded. In order to prevent the magnet 121 from falling off and rusting, it is also preferable to insert the magnet 121 into the magnet mounting hole 135 and then seal the opening of the magnet mounting hole 135 with a curable resin 136 (sealing material). . As the curable resin, a polyurethane resin with higher safety is preferable, but an epoxy resin, other sealing materials, and an adhesive may be used. In order to prevent rust of the magnet 121, it is also preferable to coat the magnet itself. In addition to the rare earth magnet having a strong magnetic force, a ferrite magnet or the like may be used for the magnet 121.
[0040]
As shown in FIG. 10, the water wheel 122 is pivotally supported from the downstream side by a water wheel support member 123 so as to be rotatable in the purified water supply channel 30. The water wheel 122 may be an axial flow type whose rotation axis is parallel to the direction of water supply of purified water or may be orthogonal. The number of blades of the water wheel is two, but it may be one or three or more. Furthermore, although the water wheel is provided in the purified water supply passage 30 on the downstream side of the purification cartridge 3, it may be provided on the upstream side. In this case, it is preferable to provide a prefilter further upstream so that dust or the like is not caught on the water wheel 122.
[0041]
As shown in FIG. 14, the magnetic switch 124 is inserted into the magnetic switch holder 125 and sealed and fixed with a curable resin 137 (sealing material). Two terminals of the magnetic switch 124 are connected to the control unit 104 shown in FIG. 10 by lead wires, and a pulse signal generated by opening and closing the magnetic switch 124 is transmitted to the control unit 104. As shown in FIG. 6, the magnetic switch holder 125 that houses the magnetic switch 124 is in contact with the outer periphery of the purified water supply channel 30 and is fixed in the vicinity of the water wheel 122.
[0042]
In the flow rate detection unit 102 configured in this manner, the water wheel 122 rotates when the purified water flows, the magnet 121 embedded in the water wheel 122 rotates, and the magnetic field changes accordingly. When the magnet 121 rotates once, the magnetic switch 124 opens and closes twice, and as a result, a pulse signal for two cycles is transmitted and transmitted to the control unit 104.
[0043]
The water wheel 122 may be provided in a flow path 31 a for supplying raw water to the purification cartridge 3 in addition to a flow path of purified water such as the purified water transmission path 30.
[0044]
Next, the control unit 104 and the liquid crystal display 105 will be described with reference to FIGS.
[0045]
The control unit 104 mainly includes a circuit board 151 provided with a CPU, a substrate holder upper part 152 that houses the circuit board 151, and a substrate holder lower part 153. The substrate holder upper part 152 includes a transparent part and an opaque part so that the liquid crystal display 105 can be seen through the transparent part. Further, in order to prevent water from entering from the outside and causing the circuit board 151 to malfunction, the circuit board 151 and the liquid crystal display 105 are attached to the board holder lower part 153, and the board holder upper part 152 is attached via the packing 155. Fix it. By performing waterproofing in this manner, it is not necessary to individually waterproof each part, and the manufacturing process can be simplified and the manufacturing cost can be reduced.
[0046]
The CPU receives power supply from the power supply unit 101, performs calculation based on the pulse signal from the flow rate detection unit 102 and the signal from the purification cartridge identification unit 103, and sends an output signal to the liquid crystal display 105. It has become.
[0047]
The circuit board 151 is provided with two contacts for resetting accumulated flow data and the like. Conductive ink is applied to the switch rubber 156 provided immediately above the contacts, and the data is reset when the switch rubber 156 is pressed with a finger to bring the conductive ink into contact with the two contacts. When the finger is released from the switch rubber 156, the switch rubber 156 returns to the initial state due to elasticity, and the contact opens. The switch rubber 156 also plays a role of preventing water from entering the circuit board 151 side.
[0048]
The liquid crystal display 105 is erected on the front upper side of the main body 2 (that is, the user side upper side of the raw water inlet) while being directly supported and fixed to the circuit board 151. In this way, the liquid crystal display 105 is erected so as to protrude outward without being embedded in the upper body 17 or the lower body 16. Make Accordingly, a liquid crystal display having a relatively large size can be used, and a plurality of information can be easily displayed to the user by using a large illustration, a large block, and a large character. Even if a large liquid crystal display is used, it is not necessary to change the size of the upper body and the lower body (that is, the main body casing), so that the member cost does not increase significantly. And the display part is in front of the raw water inlet or side Because it is provided In addition, when provided above the lever 5, it is very easy for the user to see during dishwashing operations, and does not interfere with the operation.
[0049]
The liquid crystal display 105 can be arranged at a position away from the circuit board 151 and connected by a lead wire or the like, but the signal can be transmitted more reliably if it is directly supported and fixed to the circuit board 151.
[0050]
By making the liquid crystal display 105 tiltable or detachable, it is possible to save space during transportation and simplify packaging, and to make the liquid crystal display 105 easy to see according to the height of the user. Can be installed.
[0051]
As shown in FIG. 17, the liquid crystal display 105 includes a purification cartridge exchange display element 161 composed of a frame 167 and three blocks A, B, and C (164, 165, 166) provided therein. An instantaneous water flow rate display element 171 including ten blocks a to j (172 to 181) and an illustration k (182), and three blocks D, E, and F (191, 192, and 193) A battery replacement display element 162 and a cartridge type display element 163 are provided, and by turning on, turning off, and blinking, the life of the cartridge, the instantaneous flow rate of purified water, the suitability of the instantaneous flow rate, Displays battery life and cartridge type. The purification cartridge replacement display element 161, the instantaneous water flow rate display element 171, the battery replacement display element 162, and the cartridge type display element 163 may be provided independently of each other. By providing the liquid crystal display together, it is possible to save space, and it is preferable because a user can read a large amount of information at a glance.
[0052]
Next, the purification cartridge identification unit 103 in FIG. 10 will be described with reference to the schematic longitudinal sectional view of FIG.
[0053]
The purification cartridge identification unit 103 mainly includes a rubber switch 143 having a conductive member 142 in close contact therewith, an identification substrate 141 having two contacts with the conductive member 142, and an identification unit housing 144 for housing them. Has been.
[0054]
The two contacts of the identification board 141 are connected to the control unit 104 by lead wires, and the opening / closing of the two contacts is transmitted to the control unit 104.
[0055]
The rubber switch 143 is accommodated in the identification unit housing 144 so as to overlap the identification substrate 141. When the rubber switch 143 is pushed through the switch operation hole 145 by the protrusion 72 provided at the bottom of the purification cartridge 3, the conductive member 142 comes into contact with the two contacts of the identification substrate 141, the circuit is closed, and a current flows. ing. When the protrusion 72 is released by removing the purification cartridge, the rubber switch 143 returns to the initial state due to elasticity, and the contact is opened. If no protrusion is provided on the bottom of the purification cartridge, the contact remains open. That is, it is possible to discriminate between a purification cartridge having a protrusion on the bottom and a cartridge having no protrusion by the contact opening / closing signal. The rubber switch 143 also serves to prevent water from entering from the switch operation hole 145 to the identification substrate 141 side.
[0056]
Instead of the protrusions, a mechanism for discriminating between a cartridge provided with a recess at the bottom and a cartridge not provided with a recess may be employed. Further, a plurality of switch operation holes, rubber switches, and identification boards may be provided to enable identification of three or more types of cartridges. Furthermore, a combination of a bar code and a bar code reader, or a combination of a magnet and a magnetic switch may be used instead of the protrusion and the rubber switch.
[0057]
Then, the effect | action of the water purifier 1 comprised as mentioned above is demonstrated.
[0058]
FIG. 4 shows a state in which raw water is discharged from the raw water shower port 14. When the faucet is opened, raw water flows in from the raw water inlet 28, and after the momentum is reduced by the water flow reducing member 39, the cam portion 27c pushes up the ball 11c and passes through the open water passage 21c. And discharged from the raw water shower port 14. At this time, the characters “shower” written on the display ring 51 can be seen from the opening 81.
[0059]
When the lever 5 shown in FIG. 1 is operated and rotated until it touches the operation stopper 43, the drive shaft 41 connected to the lever 5 via the ratchet mechanism shown in FIG. Move. At the same time, the rotation is transmitted from the spur gear 45 to 46, and the valve shaft 12 is accurately rotated by 60 °. Then, instead of the cam 27c of the valve shaft 12, the cam 27b faces upward, the water passage 21c is closed and the water passage 21b is opened. As a result, the raw water passes through the water passage 21c and is discharged from the raw water straight port 15. At this time, the letters “straight” written on the display ring 51 can be seen from the opening 81.
[0060]
Next, when the finger is released from the lever 5, the lever 5 is rotated in the reverse direction by the torsion coil spring 44, returns to the initial position, and stops. At this time, the drive shaft 41 connected via the ratchet mechanism does not rotate, and neither the valve shaft 12 nor the display ring 51 rotates.
[0061]
When the lever 5 is pushed down again, similarly, the valve shaft 12 rotates exactly 60 °, the water passage 21b is closed and the water passage 21a is opened. As a result, the raw water passes through the water passage 21 a and flows to the raw water supply port 26. And it flows in into the purification | cleaning cartridge 3 from the raw | natural water inlet 62 shown in FIG. 7, and is filtered with adsorption agents and hollow fiber membranes, such as activated carbon. The filtered water flows from the purified water supply port 63 to the purified water receiving port 29, passes through the purified water supply channel 30, and is discharged from the purified water outlet 19 (see FIG. 10). At this time, the characters “purified water” written on the display ring 51 can be seen from the opening 81, and the water wheel 122 is rotated by the purified water flowing through the purified water supply passage 30, and the flow rate detection unit 102 sends a pulse signal to the control unit 104. Will be sent.
[0062]
The cycle or frequency of the pulse signal corresponds to the instantaneous water flow rate of the purified water, and the integrated count number of pulses corresponds to the integrated water flow rate. That is, when the period of the pulse signal reaches a preset first period setting value, the block a172 is turned on, and when the second period setting value is further reached, the block b173 is also turned on in addition to the block a172. In this way, when the period of the pulse signal reaches the first to tenth period setting values, the corresponding blocks a to j (172 to 181) are also turned on step by step. In addition, also when making a frequency respond | correspond to an instantaneous water flow instead of the period of a pulse signal, if the frequency of a pulse signal reaches the 1st-10th frequency setting value, it will correspond to the block aj each time. What is necessary is just to comprise so that (172-181) may also light up in steps.
[0063]
Moreover, the optimum range of the instantaneous water flow rate is set in advance, and it is displayed whether or not the instantaneous water flow rate is within the optimum range at the time of purified water flow. For the standard cartridge described later, the optimum range of the instantaneous water flow rate is 2 liters per minute or less, but 2 liters per minute corresponds to the sixth cycle setting value. If the period of the pulse signal is not over the sixth period set value when the standard cartridge is mounted, the illustration k182 is lit. In the high removal cartridge described later, the optimum range of the instantaneous flow rate is 1.75 liters per minute or less, but 1.75 liters per minute corresponds to the fifth cycle set value. If the period of the pulse signal is not over the fifth period set value when the high-removal cartridge is mounted, the illustration k182 is turned on.
[0064]
Illumination of illustration k182 confirms that the raw water has been sufficiently purified, and the user can drink the purified water with peace of mind. When the illustration k182 is turned off, the faucet is squeezed to suppress the instantaneous water flow rate, and after the illustration k182 comes on, the purified water may be pumped. If you remember the instantaneous flow rate and the optimal range of the installed cartridge, adjust the opening of the faucet so that the maximum flow rate is within the optimal range while looking at the blocks a to j (172 to 181) and the illustration k182. It is possible to pump out the purified water sufficiently purified in the shortest time.
[0065]
Further, in the present water purifier, the remaining life of the purification cartridge is displayed on the purification cartridge replacement display element 161 of the liquid crystal display 105 in accordance with the accumulated amount of the purified water. That is, in the purification cartridge replacement display element 161, as shown in FIG. 17, the frame 167 and the blocks A, B, and C (164 to 166) are all lit when the purification cartridge is started to be used. When the accumulated count of pulses corresponding to the accumulated water flow reaches the first set value set in advance, the block A164 is turned off, and when the second set value is reached, the block B165 is turned off. Furthermore, when the integrated water flow rate at which the purification cartridge has to be replaced is approached (third set value), the block C166 is turned off and the frame 167 blinks, prompting the user to replace the purification cartridge. When the user replaces with a new purification cartridge and presses the reset button 154, the integrated count number returns to zero, and the purification cartridge replacement display element 161 also returns to the initial display.
[0066]
Further, the liquid crystal display 105 sequentially turns off the blocks D to F (191 to 193) of the battery replacement display element 162 as the battery voltage decreases to prompt the user to replace the battery. Therefore, it is not necessary for the user to memorize the battery use start time and the battery life described in the manual. For this reason, the battery cannot be replaced because the battery life is forgotten, and the accumulated flow rate data is not lost while the purification cartridge is used, and the battery can be replaced at an appropriate time. If the user replaces the battery with a new one, all the blocks D to F (191 to 193) of the battery replacement display element 162 are automatically turned on. When the power consumption is almost constant regardless of the usage status, the timing of turning off the light from the integrated flow rate of purified water, the integrated value of the purified water flow time, or the integrated value of the non-purified time You can decide. The battery replacement display element 162 is configured to turn on at the start of battery use and turn off sequentially as the battery life approaches the end. However, all of the battery replacement display elements 162 turn off at the start of use and approach the battery life. You may comprise so that it may light sequentially.
[0067]
Further, the liquid crystal display 105 displays the type of cartridge mounted by turning on and off the cartridge type display element 163 based on the signal from the purification cartridge identification unit 103 described above. For example, when a cartridge with a high removal rate of organic matter with protrusions on the bottom (hereinafter referred to as a high removal cartridge) is attached, it lights, and when a standard cartridge without protrusions on the bottom is attached. Turns off. Here, when the lifetimes of the cartridges are also different, the first to third setting values relating to the purification cartridge replacement display described above are stored for the high removal cartridge and the standard cartridge, respectively. It is automatically selected based on the signal from the purification cartridge identification unit 103. As a result, the remaining cartridge life corresponding to the type of cartridge is displayed, so that the user can clean the cartridge at an appropriate time without having to memorize the type of cartridge used, the filtration capacity, and the use start time. Cartridges can be exchanged.
[0068]
The liquid crystal display 105 is turned off when the purification cartridge 3 is not used. That is, the CPU of the circuit board 151 detects that the flow of purified water has stopped and the pulse signal from the flow rate detection unit 102 has stopped (the magnetic switch 124 has been open or closed for a certain period of time). Switching to the sleep mode, the liquid crystal display 105 is turned off. By this switching, the power consumption of the battery is greatly suppressed, and the battery can be used for a long time. Note that immediately after battery replacement and immediately after the reset button is operated, the sleep mode is canceled for a certain period of time, and the liquid crystal display 105 is turned on. This is to confirm that the user has correctly installed the battery and has correctly reset the data.
[0069]
The present invention can be modified as follows.
(1) In the above-described embodiment, the liquid crystal display 105 is provided so as to be erected on the front upper part of the main body part 2 (that is, the upper part on the front side of the raw water inlet). May be provided. Even in this configuration, a plurality of pieces of information can be displayed in an easy-to-understand manner for the user using large illustrations, large blocks, and large characters, as described above.
[0070]
When the liquid crystal display 105 is provided on the side of the main body, the magnetic switch 124 of the flow rate detection unit 102 is provided in a space formed by the substrate holder upper part 152 and the substrate holder lower part 153 in which the liquid crystal display is installed. Is preferred. By providing the magnetic switch 124 in the vicinity of the water wheel 122 and on the circuit board 151 or in the vicinity of the circuit board 151, the rotation of the water wheel 122 can be detected, and lead wires can be further reduced.
(2) In the above-described embodiment, the liquid crystal display 105 is fixed to the upper body 17 and the lower body. However, the liquid crystal display can be used if it can be rotated with respect to the upper body and the lower body. The user can adjust the direction and angle of the liquid crystal display so that it can be easily seen.
(3) In the above embodiment, regarding the instantaneous water flow rate display, 2 liters per minute corresponds to the sixth cycle set value and 1.75 liters per minute corresponds to the fifth cycle set value. -2 liters per minute may correspond to the sixth cycle setting value when the cartridge is mounted, and 1.75 liters per minute may correspond to the sixth cycle setting value when the high removal cartridge is mounted. In this case, even if any cartridge is mounted, the instantaneous water flow rate is within the optimum range unless the period of the pulse signal exceeds the sixth period set value. That is, even if the type of cartridge changes, the optimum range of instantaneous water flow rate does not change. At this time, if the illustration k is turned on, it is easier to understand that it is within the optimum range.
(4) In the above embodiment, for the instantaneous water flow display, the blocks a to j in FIG. 17 are only turned on / off, but a plurality of colors are used. For example, when the standard cartridge is mounted, the blocks a to f may be green and blocks g to j may be yellow. In this case, since the inside / outside of the optimum range of the instantaneous water flow rate can be seen by the difference in color, it is easy for the user to understand.
(5) In the above-described embodiment, with regard to the instantaneous water flow rate display, when the standard cartridge is mounted, the high removal cartridge is mounted when the period of the pulse signal does not exceed the sixth cycle set value. Sometimes the illustration k is lit when the period of the pulse signal is not over the fifth period set value, but as shown in FIG. 18, it is optimally adjacent to the blocks a to j (172 to 181). A block m183 for displaying the range may be provided, whereby the user may determine whether the instantaneous water flow rate is appropriate.
(6) In the above-described embodiment, a flow rate detection unit is provided in the obtained water passage for purified water, and it is configured to display the appropriateness of the instantaneous water flow rate of the obtained purified water, but the raw water is fed to the purification cartridge. A flow rate detection unit is provided in the flow path to indicate whether the instantaneous flow rate of raw water passing through the flow path or the raw water instantaneous flow rate passing through the flow path is appropriate for the purification capacity of the purification cartridge. You may comprise as follows.
[0071]
【The invention's effect】
The water purifier of the present invention is In the faucet direct-coupled water purifier in which a purification cartridge for purifying raw water is disposed in the water purifier main body, the water purifier main body is connected to the faucet and receives a raw water inlet and a raw water outlet. , A purified water outlet, a switching valve for purifying the raw water to flow out from the purified water outlet or from the raw water outlet, a flow rate detection unit for detecting the flow rate of the raw water or purified water, and the detected raw water or purified water Display unit that displays the purification cartridge replacement time based on the flow rate Toga Preparation And Display part Is located in front of or to the side of the raw water inlet and stands so as to protrude outward. Since it is provided, the display section can be enlarged, and a plurality of information can be displayed in an easy-to-understand manner to the user using large illustrations, blocks, and characters. And since it is not necessary to change the magnitude | size of a main body casing, member cost does not rise significantly.
[0072]
further, Set the display unit in front of or at the side of the raw water inlet during use. Because It is very easy to see when washing dishes and so on, and does not interfere with the work.
Also, When the display unit is provided so that it can be tilted up and down, each user can adjust the display so that the display can be easily seen. When the display unit displays at least one of the purification cartridge replacement time, the power supply replacement time, the instantaneous flow rate of purified water, the type of purification cartridge, and the switching state of the switching valve, the purification cartridge is displayed. This is convenient because the user can know information other than the time to replace the cartridge.
[0073]
In addition, when the display unit is a liquid crystal display, a variety of information can be visually represented by characters and illustrations, which can be very easily understood by the user. Further, there is no need to increase the number of display elements in proportion to the number of information as in the case of LEDs, and there is no cost increase associated with the increase.
[Brief description of the drawings]
FIG. 1 is a front view of a water purifier showing an embodiment of the present invention.
FIG. 2 is a top view of the water purifier shown in FIG.
FIG. 3 is a right side view of the water purifier shown in FIG.
4 is an AA longitudinal sectional view of the water purifier shown in FIG. 2; FIG.
5 is a BB longitudinal sectional view of the water purifier shown in FIG. 2. FIG.
FIG. 6 is a cross-sectional view of the water purifier shown in FIG.
FIG. 7 is a cross-sectional view of a purification cartridge.
8 is a cross-sectional view taken along the line CC of the connecting portion between the lever and the drive shaft in the water purifier shown in FIG.
9 is a cross-sectional view taken along the line DD of the water purifier shown in FIG. 6;
FIG. 10 is a cross-sectional view of the water purifier shown in FIG.
FIG. 11 is an exploded perspective view of a power supply unit.
FIG. 12 is an exploded perspective view of a flow rate measuring unit.
13 is a cross-sectional view of the water wheel and the water wheel support member in FIG. 12. FIG.
14 is a cross-sectional view of the magnetic switch and the magnetic switch holder in FIG.
FIG. 15 is a longitudinal sectional view of a purification cartridge identification portion.
16 is a cross-sectional view taken along the line FF of the control unit in the water purifier shown in FIG.
FIG. 17 is a schematic view of a liquid crystal display.
FIG. 18 is a schematic view of a liquid crystal display.
[Explanation of symbols]
1: Water purifier 2: Main body
3: Purification cartridge 4: Faucet
5: Lever 11a: Ball
11b: Ball 11c: Ball
12: Valve shaft 13: Switch valve body
14: Raw water shower port 15: Raw water straight port
16: Lower body 17: Upper body
18: Valve operation part 19: Purified water outlet
21a: Waterway 21b: Waterway
21c: Water channel 22: Dividing plate
23: Upper chamber 24: Lower chamber
25a: o-ring 25b: o-ring
25c: o-ring 26: raw water supply port
27a: cam part 27b: cam part
27c: Cam part 28: Raw water inlet
29: Water purification entrance 30: Water purification waterway
31a: Channel 31b: Channel
31c: Flow path 36: Packing
37: Adapter 38: Mounting nut
39: Water flow reducing member 41: Drive shaft
43: Operation stopper 44: Torsion coil spring
45: Spur gear 46: Spur gear
47: Ratchet claw member 48: Ratchet tooth
51: Display ring 61: Container
61a: cylindrical protrusion 62: raw water receiving port
63: Clean water supply port 64: Cylindrical body
65: o-ring 66: filter
67: Filter 68: Hollow fiber membrane bundle
69: Curable resin 70: Adsorbent layer
71: Transparent cap 72: Projection
73: o-ring 74: o-ring
81: Opening 82: Transparent member
91: Cartridge cap 92: Opening / closing cap
93: Opening 101: Power supply
102: Flow rate detection unit 103: Purification cartridge identification unit
104: Control unit 105: Liquid crystal display
111: Battery 112: Battery cover
113: Anode fitting 114: Cathode fitting
115: Battery holder 116: Battery mounting part
117: o-ring 118: notch
119: Recess 120: Rubber cap
121: Magnet 122: Water wheel
123: Water wheel support member 124: Magnetic switch
125: Magnetic switch holder 126: Shaft
131: Shaft 132: Blade
133: Blade 134: Rotating shaft hole
135: Magnet mounting hole 136: Curable resin
137: Curable resin 141: Identification substrate
142: Conductive member 143: Rubber switch
144: Identification part housing 145: Switch operation hole
151: Circuit board 152: Upper part of board holder
153: Lower part of the substrate holder 154: Reset button
155: Packing 156: Switch rubber
161: Purification cartridge replacement display element
162: Battery replacement display element 163: Carriage type display element
164: Block A 165: Block B
166: Block C 167: Frame
171: Instantaneous water flow rate display element
172: Block a 173: Block b
174: Block c 175: Block d
176: Block e 177: Block f
178: Block g 179: Block h
180: Block i 181: Block j
182: Illustration k 183: Block m
191: Block D 192: Block E
193: Block F

Claims (4)

In the faucet direct-coupled water purifier in which a purification cartridge for purifying raw water is disposed in the water purifier main body, the water purifier main body is connected to the faucet and receives a raw water inlet, a raw water outlet, and a purified water An outlet, a switching valve for purifying the raw water to flow out from the purified water outlet or from the raw water outlet, a flow rate detection unit for detecting the flow rate of the raw water or purified water, and the detected raw water or purified water display unit and is provided to display to determine the replacement time of the purification cartridge from the flow, the display portion of that is positioned in front or the side of the raw water inlet, and is erected so as to protrude outward Faucet-direct water purifier, characterized by The faucet direct-coupled water purifier according to claim 1, wherein the display unit is provided so as to be tiltable. The faucet according to claim 1 or 2 , wherein the display unit displays at least one of a purification cartridge replacement time, a power supply replacement time, an instantaneous flow rate of purified water, a type of the purification cartridge, and a switching state of the switching valve. Directly connected water purifier. The faucet direct-coupled water purifier according to any one of claims 1 to 3 , wherein the display unit is a liquid crystal display.

Images