JP5091115B2 - Water purifier - Google Patents

Description

  The present invention relates to a water purifier, and more particularly, to a water purifier including a display unit that can display a use state.

  A water purifier that filters water using a filter using a hollow fiber membrane or the like is known. In this type of water purifier, when a certain amount of water is filtered, it is necessary to replace the filter cartridge. Therefore, the water purifier is equipped with a flow meter that measures the amount of filtered water, and integrates the measured flow rate into the storage unit of the control device. If the integrated value reaches a predetermined value, the user is notified that the filter cartridge needs to be replaced with a new one.

  In addition, when the water purifier has a mechanism for switching between a filtration mode in which the raw water that has flowed in is filtered through the filter cartridge and discharged and a raw water mode in which the water is discharged without passing through the filter cartridge, the water purifier is currently The user is informed if it is in mode.

  As means for performing such notification, it is known to use a display unit using a liquid crystal display (see, for example, Patent Document 1).

JP 2002-210459 A

  The water purifier described in Patent Document 1 is manufactured by sealing the opening of the holder with a two-component mixed resin after attaching the liquid crystal display unit, the circuit board, and the like to the holder with one end opened. . Since the two-component mixed resin requires a long time for curing, there is a possibility that the uncured resin penetrates into the holder through the gap and adheres to the liquid crystal display portion or the like attached inside, thereby hindering these functions. In order to prevent such permeation and the like, the water purifier of Patent Document 1 has to be provided with a packing, which increases the number of parts and the number of assembly steps.

  The present invention has been made to solve the above-described problems, and can reduce the number of parts and the number of assembling steps of the display unit, and can be sufficiently waterproof under the assumed usage environment of a domestic water purifier. The purpose is to provide a water purifier with performance.

According to the present invention,
A water purifier comprising a raw water inlet for receiving raw water, a cartridge for filtering the raw water, a discharge port for discharging filtered purified water, and a display unit indicating the state of the water purifier,
The display unit includes a circuit board to which a control circuit is attached and one end of a lead wire connected, a frame-shaped holder that supports the circuit board, an exterior case in which the circuit board and the holder are accommodated in an opening, A one-component curable resin portion for sealing the opening;
A lead-out space through which the lead wire is led out is formed on the side wall of the outer case,
A notch is formed in the wall of the holder located inside the lead-out space ;
The one-part curable resin part is formed of a polyamide-based resin having a softening point in the range of 145 ° C to 160 ° C.
The water purifier characterized by this is provided.

According to such a configuration, since the opening is sealed with a one-component curable resin that cures in a short time, there is no possibility that the resin before curing penetrates into the display portion, so it is necessary to provide a packing for preventing penetration. The number of parts and the number of assembly steps can be reduced.
Further, since the resin is cured in a short time, the time required for the production and a place for storing the product after the resin injection for waiting for the curing become unnecessary, and the production cost is reduced.
Furthermore, since the thickness of the contact portion between the exterior case and the one-part curable resin can be secured to a certain level or more, the possibility of water leakage at this portion is reduced while suppressing the thickness of the liquid crystal unit.

According to another preferred aspect of the present invention, the lead-out space is a notch formed with an open end of the side wall of the exterior case.
According to another preferred aspect of the present invention, the lead-out space is an opening formed in a side wall of the exterior case.

  According to the other preferable aspect of this invention, the thickness of the contact | adherence part of the said exterior case and one-component curable resin is 2 mm or more.

  According to the other preferable aspect of this invention, the unevenness | corrugation is formed in the wall surface of the exterior case which contacts the said one-component curable resin.

  According to the other preferable aspect of this invention, the height difference of the unevenness | corrugation of the said exterior case wall surface is 1-100 micrometers.

  As described above, according to the present invention, there is provided a water purifier that can reduce the number of parts of the display unit and the number of assembly steps, and that has sufficient waterproof performance in a use environment that can be assumed for a home water purifier. The

  Hereinafter, with reference to an accompanying drawing, composition of water purifier 1 of a preferred embodiment of the present invention is explained. 1 is a perspective view of the water purifier 1, FIG. 2 is a plan view of the water purifier 1 partially broken along the line II-II in FIG. 1, and FIG. 3 is a bottom view of the water purifier 1.

  The water purifier 1 is a so-called faucet direct-coupled water purifier connected to a faucet or the like of a water supply, and includes a main body casing 2 and a filter cartridge 4 as shown in FIGS. 1 to 3. The filter cartridge 4 accommodates a filtering material such as a hollow fiber membrane filter that filters water flowing into the main casing 2, and is detachable from the main casing 2.

  The water purifier of this embodiment can use two types of filter cartridges, a standard type that is a normal filter cartridge and a high-grade type that has a long amount of water that can be filtered. One of the two types of filter cartridges, for example, a high grade type, has a magnet embedded in a connection portion with the main body casing 2, and a magnetic sensor for detecting the magnet is provided in the vicinity of the connection portion with the filter cartridge of the main body casing 2. Installed.

  And when filter cartridge 4 is attached to main part casing 2, if a magnetic sensor detects magnetism, control devices, such as microcomputer P which manages operation of a water purifier, will say that attached filter cartridge 4 is a high grade. If it is determined that the magnetic sensor does not detect magnetism, it is determined that the attached filter cartridge 4 is a standard type, and the filterable water amount of the attached filter cartridge is set based on the determination result.

  The main casing 2 is provided with a raw water inlet 6, a switching lever 8, a liquid crystal display unit 10, and the like. The raw water port 6 is connected to a water tap through an annular fixture 12 and functions as an opening for introducing tap water into the main casing 2.

  The switching lever 8 has a discharge mode from the water purifier 1, a “fresh water mode” in which tap water that has flowed into the raw water port 6 is filtered by a filter medium in the filter cartridge 4 and discharged, and tap water that has flowed into the raw water port 6. Is a switching means for switching between the “raw water mode” in which the water is directly discharged without being filtered and the “shower mode” in which the raw water is discharged in the form of a shower.

  In the water purifier 1 of the present embodiment, the switching lever main body extending in the horizontal direction is supported only at one end side and extends in the horizontal direction at a position spaced from the main body casing 2 toward the user side. For this reason, it is compact and easy to use for left-handed users. Furthermore, the distance between the lever body and the body casing 2 is set such that the user does not pinch his / her finger when the switching lever is switched.

  As shown in FIG. 2, a flow meter 14 for measuring the amount of water filtered by the filter cartridge 4 is provided in the main body casing 2. The flow meter 14 is arranged on the downstream side of the filter cartridge 4 and is configured to measure the amount of water flowing out from the filter cartridge 4, that is, the amount of water (fresh water) filtered by the filter cartridge 4 (filtered water amount). .

  The value of the filtered water amount measured by the flow meter 14 is sent to a control device such as a microcomputer P that is built in the main body casing 2 and manages the operation of the water purifier 1, and is accumulated and stored in the control device. The water purifier 1 of the present embodiment needs to replace the filter cartridge 4 when the integrated value of the filtered water amount reaches a predetermined value.

  As shown in FIGS. 1 and 3, tap water filtered by the filter medium in the film cartridge 4, that is, fresh water, is discharged to the lower surface of the main casing 2 when the “fresh water mode” is selected. The fresh water discharge port 16, the raw water discharge port 18 through which the raw water, that is, the tap water that does not pass through the film cartridge 4, is directly discharged when the “raw water mode” is selected, and the raw water is discharged when the “shower mode” is selected. A raw water shower port 20 discharged in a shower shape is formed.

  Further, a reset switch 22 is provided on the lower surface of the main casing 2 for resetting the integrated value of the filtered water amount stored in the control device. In the water purifier 1 of the present embodiment, when the filter cartridge is replaced with a new filter cartridge, the user operates the reset switch 22 to reset the accumulated value of the filtered water amount stored in the control device to zero. In this configuration, the accumulation of the amount of water filtered by the cartridge is started.

  The liquid crystal display unit 10 is a display unit that indicates the state of the water purifier 1. As shown in FIGS. 1 and 2, the liquid crystal display unit 10 includes a first display window 24 and a second display window 26. The first display window 24 is covered with a transparent member so that the display content of the internal liquid crystal display panel 28 can be seen through.

  In the present embodiment, the remaining life display unit 32, the fresh water sign unit 34, and the remaining battery level display unit 36 provided on the liquid crystal display panel 28 can be seen through the first display window 24. . The remaining life display unit 32 is a display unit that digitally displays the amount of water that can be filtered by the filter cartridge 2 (that is, the remaining life of the filter cartridge), and the fresh water sign unit 34 is when purified water filtered by the filter cartridge 2 is discharged. The battery remaining amount display unit 36 is a display unit that displays the lifetime of the battery that operates the control device, the LED, and the like.

  Further, in the present embodiment, the indications of “Shimizu”, “Raw”, and “Shower” attached from the second display window 26 to the rotating shaft of the switching lever 8 disposed below the second display window 26 are displayed. Of these, the display corresponding to the currently selected discharge mode can be seen through by the rotation of the switching lever 8.

  Next, the configuration of the liquid crystal display unit 10 will be described. 4 is a cross-sectional view of the liquid crystal display unit 10 taken along line VI-VI in FIG. 2, and FIG. 5 is a cross-sectional view of the liquid crystal display unit 10 taken along line VV in FIG. is there. FIG. 6 is an exploded perspective view in a state where the liquid crystal display unit 10 is turned upside down.

  As shown in FIGS. 4 to 6, the liquid crystal display unit 10 includes a circuit board 36 to which a control circuit is attached, and a display 38 that is fixed to one surface of the circuit board 36 and controlled by the control circuit. A circuit board 36 and a display 38 are accommodated, and an exterior case 40 having one end opened is provided.

  The circuit board 36 and the display 38 are mounted in the outer case 40 so that the circuit board 36 is disposed on the opening side of the outer case 40. The outer case 40 is a member constituting a part of the upper part of the main casing 2 (FIGS. 1 and 2).

  In this embodiment, the display 38 is a liquid crystal display including a liquid crystal display panel (liquid crystal display element) 42, a light guide plate 44 having a wedge-shaped cross section and an LED element 46 constituting a backlight unit. From the opening side, the light guide plate 44 and the liquid crystal display panel 46 are arranged in this order. The liquid crystal display panel 46 is arranged so that the display surface faces in the direction opposite to the opening of the exterior case 40, and is configured to perform a predetermined display through the first display window 24 under the control of the control device.

  In the present embodiment, the LED element 46 is composed of two LEDs, a red LED 46 a and a yellow-green LED 46 b, arranged so that light is incident on the end surface 44 a on the thick side of the light guide plate 44, and the end surface together with the light guide plate 44. An incident type backlight is formed.

  As shown in FIGS. 4 and 5, the circuit board 36 is attached to the outer side (outer case 40 opening side) position of the frame-like liquid crystal holder 48 fixed in the opening of the outer case 40. Thus, the outer case 40 is fixed. The display 38 is fixed to the outer case 40 by being attached to the other side of the liquid crystal holder 48.

  In the present embodiment, when assembling, the circuit board 36 and the display 38 are attached to the liquid crystal holder 48 to form an integrated unit. The unitized circuit board 36, the display 38 and the liquid crystal holder 48 are attached to the outer case 40. Installed on. The unitized circuit board 36, the display 38, and the liquid crystal holder 48 are formed on the side wall of the outer case 40 with locking claws 48a (FIG. 6) extending outwardly formed on the liquid crystal holder 48. It is fixed to the outer case 40 by being inserted into the corresponding opening 40a (FIG. 6).

  As shown in FIGS. 4 and 5, the opening of the outer case 40 is sealed with a one-component curable resin 50 on the back surface (lower side in FIGS. 4 and 5) of the circuit board 36. The one-component curable resin 50 is also disposed on the stepped portion 40b in the side wall thickness direction formed at the front end of the side wall constituting the opening end of the exterior case 40, and covers the entire opening.

  Examples of the one-part curable resin include polyamide-based resins and styrene-based resins. From the aspect of adhesiveness to the ABS resin and polycarbonate resin used for the outer case 26, the influence of molding temperature, the surface of melt viscosity, and the like. It is preferable to use a polyamide-based resin based on dimer acid, which is a natural fatty acid.

  In the case of considering the durability against a rapid heat change assuming the use situation in an actual water purifier also in the polyamide-based resin, it is necessary to set the softening point of the polyamide-based resin to be used to 165 ° C. or less, and 160 ° C. to 145 ° C. The range of is preferable. In a polyamide-based resin having a softening point higher than 165 ° C., repeated rapid temperature changes may cause the outer case and the one-part curable resin to peel off and be immersed in the gap. In particular, the faucet direct-coupled water purifier is easily affected by a rapid temperature change because the water purifier body has a water passage.

  Further, the Shore hardness of the polyamide-based resin is 85 or less, preferably 83 to 70. In a polyamide-based resin having a Shore hardness higher than 85, a rapid temperature change is repeated, whereby the outer case and the one-component curable resin may be peeled off and may be immersed in the gap.

  As shown in FIGS. 4 and 5, the stepped portion 40 b is configured such that the inner portion in the thickness direction at the tip of the side wall constituting the open end is one step higher than the outer portion. Accordingly, the one-part curable resin 50 is also arranged outside the inner part, that is, above the lower part of the outer part, and the inner part that is one step higher is sandwiched by the one-part curable resin 50 from both sides. As a result, the contact area between the exterior case 40 and the one-component curable resin 50 at the opening end of the exterior case 40 increases. For this reason, the entry of water from this portion into the liquid crystal display unit 10 is suppressed, and the hardened one-part curable resin 50 is not easily peeled off from the outer case 40.

In the water purifier 1 of this embodiment, after fixing the unitized circuit board 36 and the display 38 to the outer case 40, the liquid crystal display unit is filled by filling the opening of the outer case 40 with a one-component curable resin. 10, that is, the open end of the outer case 40 is sealed.
At this time, if the circuit board 36 needs to be waterproofed, for example, if it is desired to seal a reed switch or a battery terminal, when sealing the opening of the outer case 40 with a one-component curable resin, If the parts are sealed with a one-component curable resin, the working efficiency is improved.

  In the water purifier 1 of the present embodiment, it is necessary to lead out the plurality of lead wires 52 connected at one end to the circuit board 36 and arranged in parallel to the outside of the liquid crystal display unit 10 from the connection part with the circuit board. In the water purifier 1 of this embodiment, in order to lead out the lead wires 52 from the liquid crystal display unit 10 while suppressing the thickness of the liquid crystal display unit 10, as shown in FIG. A notch portion 54 that is a lead-out space for lead wires is formed in the lead wire 52, and the lead wires 52 arranged in parallel through the notch portion 54 are connected to the liquid crystal display portion 10 as shown in FIG. The circuit board 36 is led out to the outside.

  In the water purifier 1 of the present embodiment, a notch 56 corresponding to the notch 54 of the outer case 40 is also formed on the side wall of the liquid crystal holder 48 located inside the notch 54 of the outer case 40. ing.

  The one-part curable resin 50 filled in the opening of the outer case 40 is in close contact with the inner surface of the side wall of the outer case 40 on the opening end side of the outer case 40, and this close contact causes moisture to enter the liquid crystal display unit 10. Prevents intrusion. In the water purifier 1 of the present embodiment, the notch 56 is also formed on the side wall of the liquid crystal holder 48 corresponding to the notch 54 of the outer case 40, so the notch 54 is formed at the opening end of the outer case 40. The thickness of the portion where the side wall of the outer case 40 and the one-part curable resin 50 are in close contact with each other (the length in the vertical direction in FIGS. 4, 5, and 7) is the same as the other portions. It has become. As a result, the waterproofness in the vicinity of the cutout portion 54 of the outer case 40 becomes more reliable.

  The position where the cutout portion 54 of the outer case 40 is formed is not particularly limited, but when the lead wire 52 is connected to one end side of the circuit board 36 to be mounted in the outer case 40, the circuit The lead wire 52 formed on the side corresponding to the other end of the substrate 36 and connected to the circuit substrate 36 is preferably led out from the liquid crystal display unit 10 linearly.

The size (depth) of the notch 56 of the liquid crystal holder 48 is determined by the thickness of the portion where the lead wire 52 is arranged, the outer case 40 in the surrounding portion, and the close contact portion between the one-part curable resin 50 (FIGS. 4 and 4). 5 and the vertical length in FIG. 7) are preferably set to be equal. This is because if it is shorter than the surrounding part, the peel resistance against a rapid temperature change is not sufficient, and conversely, if the liquid crystal holder 48 is cut deeply so as to make the bonding distance longer than the surrounding part, the strength of the liquid crystal holder 48 is lowered. This is because the pressure at the time of filling the one-component curable resin 50 cannot withstand the pressure and may be damaged.
Moreover, it is preferable that the thickness of the contact | adherence part of the exterior case 40 of the part in which the lead wire 52 is arrange | positioned, the surrounding part, and the one-component curable resin 50 is 2 mm or more.

  As shown in FIGS. 8 and 9, an opening 58, which is a lead-out space into which the lead wire 52 can be inserted, is formed on the side wall of the exterior case 40, and the lead wire 52 is led out from the liquid crystal display unit 10 through this opening. It is good also as a structure.

Concavities and convexities are formed on the wall surface of the outer case 40 that contacts (adheres) the one-component curable resin 50. Due to the unevenness, the contact surface area between the outer case 40 and the one-part curable resin 50 is increased, and the one-part curable resin 50 is prevented from peeling off from the outer case 40 even in the case of repeated expansion and contraction due to a rapid temperature change. it can.
The shape of the unevenness is not particularly limited, but a plurality of parallel grooves 60 (FIG. 10) or ridges 62 (FIG. 11) extending in the circumferential direction of the opening of the outer case 40, or irregular unevenness 64 (FIG. 12).

  The method of forming the irregularities 60, 62, 64 on the wall surface of the outer case 50 is not particularly limited. For example, the groove 60 or the ridge formed in the corresponding part of the mold for molding the outer case 50 is used. There is a method of forming a shape of a ridge or groove complementary to 62 or a fine uneven shape by, for example, blasting or etching.

  The wall surface on which the unevenness of the exterior case is formed may be all surfaces in contact with the one-component curable resin, or may be a part requiring particularly adhesive force, and the height difference of the unevenness may be changed depending on the location.

  The unevenness on the wall surface of the outer case preferably has a height difference of 1 to 100 μm. If the unevenness is less than 1 μm, the surface area in contact with the one-part curable resin is not sufficient, and the outer case and the one-part curable resin may peel off due to repeated rapid temperature changes, and the water may be submerged through the gap. This is not preferable.

  If the height difference of the unevenness is larger than 1 μm, there is a possibility that air may be caught when injecting the one-part curable resin, and sufficient waterproofness may not be obtained. In addition, when the outer case is molded with resin, it is difficult to remove the molded product from the mold after molding, which is not preferable because it is necessary to increase the taper angle of the mold.

The height of the unevenness is defined by the average value of the depth of the recess when the surface of the exterior case is concave, and is defined by the average value of the height of the protrusion when conversely. Further, in the case where irregularities are formed on the outer case by performing blasting or etching on the mold, it is defined by the ten-point average height Rz.
The ten-point average height Rz is extracted from the roughness curve by the reference length L in the direction of the average line as shown below, and the altitude of the highest peak from the highest peak to the fifth peak from the average line of this extracted part. It is represented by the sum of the average of the absolute values of (Yp) and the average value of the absolute values of the altitude (Yv) of the bottom valley from the lowest valley bottom to the fifth.
Ten-point average roughness: Rz = | average of Yp | + | average of Yv |
Yp: average of absolute values from the average line of convex portions (n = 5)
Yv: average of absolute values from the average line of the recesses (n = 5)

  The present invention is not limited to the above-described embodiment, and various changes and modifications can be made within the scope of the technical idea described in the claims.

The waterproof performance of the faucet-direct water purifier can be evaluated by immersing the water purifier in water. However, there are various environments in actual use. For example, in the severe winter season, a case where water of 60 ° C. is passed through the water purifier body at −10 degrees Celsius can be considered.
In such a case, when the one-part curable resin 50 is peeled off from the outer case 40 due to a rapid temperature change occurring in the water purifier, sufficient waterproof performance cannot be obtained. Therefore, a waterproof test after such a rapid temperature change is required.

  Therefore, assuming a wider range of usage conditions than the actual usage environment, heat cycle of -20 ° C for 1 hour and 70 ° C for 1 hour in the constant temperature chamber to promote the peeling of the outer case and the one-part curable resin. After performing 3 cycles, the liquid crystal unit was immersed in water at 25 ° C. to confirm that the circuit board was immersed.

<Example 1>
The circuit board 36 and the display 38 are attached to the liquid crystal holder 48 in which the notch 56 having a width of 20 mm and a depth of 1.2 mm is formed, and is fitted into the outer case 40 of FIG. The liquid-curing resin 50 was sealed by low-pressure injection molding under the conditions of a resin temperature of 220 ° C., an extrusion pressure of 1 MPa, and a pressure holding time of 40 seconds to obtain a liquid crystal unit. The part of the inner wall surface of the outer case 40 that is in contact with the one-component curable resin is subjected to graining with a height difference of 10 μm.

  As a one-part curable resin, a hot melt adhesive [Macromelt (registered trademark) OM652] manufactured by Henkel having a softening point of 155 ° C. and a Shore A hardness of 80 was used. The adhesive distance in the thickness direction of the one-part curable resin 50 of the completed liquid crystal unit and the outer case 40 was 3 mm at the location where the lead wires were arranged as shown in FIG. In the waterproof test after the heat cycle, water immersion into the circuit board was not observed for all three samples, and good results were obtained.

<Example 2>
An opening 58 having a width of 15 mm and a depth of 1.5 mm is provided on the wall surface of the outer case 40 of FIG. 8 located on the opposite side of the end to which the lead wire 52 of the circuit board 36 is connected. After passing the wire 52, the same resin as in Example 1 was used, and the opening of the outer case 40 was sealed by low pressure injection molding under the same conditions. The portion of the inner wall surface of the outer case 40 that comes into contact with the one-component curable resin is subjected to a textured process with a height difference of 10 μm.

  However, in this case, a mold that does not provide a space for arranging the lead wires 52 vertically is used. As shown in FIG. 9, the adhesive distance in the thickness direction of the one-part curable resin 50 of the liquid crystal unit and the outer case 40 is 4.2 mm at the location where the lead wire 52 is arranged, and the other outer peripheral portion is 3 mm. Met. In the waterproof test after the heat cycle, as in Example 1, all three samples were not immersed in the circuit board 36, and good results were obtained.

<Comparative example>
The same liquid crystal display unit as in Example 1 was used as a comparative example except that the liquid crystal holder notch was not provided. The adhesion distance in the thickness direction of the one-part curable resin of this liquid crystal unit and the outer case was 1.8 mm at the location where the lead wire was disposed, and 3 mm for the other outer periphery.
In the waterproof test after the heat cycle, about one sample out of three samples, a portion with a short contact distance where the lead wire was arranged peeled off, and the liquid crystal holder part was soaked that the gap penetrated, so that it was submerged.

It is a perspective view of the water purifier of preferable embodiment of this invention. It is a horizontal cross-sectional view along the II-II line of the water purifier of FIG. It is a bottom view of the water purifier of FIG. It is sectional drawing of the liquid crystal display part fractured | ruptured along the VI-VI line of FIG. It is sectional drawing of the liquid crystal display part fractured | ruptured along the VV line | wire of FIG. It is a disassembled perspective view in the state which turned upside down the liquid crystal display part of the water purifier of FIG. It is a side view in the assembly state of the water purifier of FIG. It is an exploded perspective view in the state where the liquid crystal display part of other embodiments was turned upside down. It is a side view in the assembly state of the water purifier of FIG. It is drawing which shows typically the groove | channel formed in the wall surface of the exterior case which contacts 1 liquid curing type resin. It is drawing which shows typically the wrinkle formed in the wall surface of the exterior case which contacts 1 liquid curing type resin. It is drawing which shows typically the irregular unevenness | corrugation formed in the wall surface of the exterior case which contacts 1 liquid curing type resin.

Explanation of symbols

1: Water purifier 2: Main body casing 4: Filter cartridge 6: Raw water inlet 8: Switching lever 10: Liquid crystal display

Claims (6)

A water purifier comprising a raw water inlet for receiving raw water, a cartridge for filtering the raw water, a discharge port for discharging filtered purified water, and a display unit indicating the state of the water purifier,
The display unit includes a circuit board to which a control circuit is attached and one end of a lead wire connected, a frame-shaped holder that supports the circuit board, an exterior case in which the circuit board and the holder are accommodated in an opening, A one-component curable resin portion for sealing the opening;
A lead-out space through which the lead wire is led out is formed on the side wall of the outer case,
A notch is formed in the wall of the holder located inside the lead-out space ;
The one-part curable resin part is formed of a polyamide-based resin having a softening point in the range of 145 ° C to 160 ° C.
A water purifier characterized by that. The lead-out space is a notch formed in the opening end of the side wall of the exterior case.
The water purifier according to claim 1. The lead-out space is an opening formed in a side wall of the exterior case.
The water purifier according to claim 1. The thickness of the adhesion part of the exterior case and the one-component curable resin is 2 mm or more,
The water purifier according to any one of claims 1 to 3.   The water purifier according to any one of claims 1 to 3, wherein irregularities are formed on a wall surface of the outer case that contacts the one-component curable resin. The height difference of the unevenness is 1 to 100 μm.
The water purifier according to claim 5.

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