CN109665575B - Housing for a water treatment device - Google Patents

Abstract

The invention discloses a shell for a water treatment device, wherein the shell is integrally integrated to form a water diversion waterway, the water diversion waterway is provided with an inlet end and at least two outlet ends, one outlet end is configured as a first water diversion outlet end, and the inlet end and the first water diversion outlet end are mutually communicated to form a hot water inlet channel; the other outlet end is configured as a second water diversion outlet end, and the inlet end and the second water diversion outlet end are mutually communicated to form a cold water inlet channel. According to the shell for the water treatment device, normal water supply for the refrigerating module and the heating module can be guaranteed, the water flowing between the refrigerating module and the heating module can be prevented from affecting normal use of the water treatment device, convenience can be provided for assembling the refrigerating module and the heating module, and connection tightness between the refrigerating module and the heating module and a water diversion waterway is facilitated to be improved.

Description

Housing for a water treatment device

Technical Field

The invention relates to the technical field of water purifying and drinking equipment, in particular to a shell for a water treatment device.

Background

The water purifying and drinking equipment in the related technology is complex in waterway arrangement, so that the design difficulty of the water purifying and drinking equipment is increased, the production cost of the water purifying and drinking equipment is increased, and the assembly efficiency of the water purifying and drinking equipment is seriously influenced.

Disclosure of Invention

The present invention aims to solve at least to some extent one of the above technical problems.

Therefore, the invention provides the shell for the water treatment device, which is convenient to assemble and is beneficial to simplifying the waterway design of the water treatment device.

According to the shell for the water treatment device, the shell is integrally combined to form a water diversion waterway, the water diversion waterway is provided with an inlet end and at least two outlet ends, one outlet end is configured as a first water diversion outlet end, and the inlet end and the first water diversion outlet end are communicated with each other to form a hot water inlet channel; the other outlet end is configured as a second water diversion outlet end, and the inlet end and the second water diversion outlet end are communicated with each other to form a cold water inlet channel.

According to the shell for the water treatment device, the inlet end and the outlet end are arranged on the water diversion waterway, and the hot water inlet channel and the cold water inlet channel which are mutually independent are defined in the water diversion waterway, so that normal water supply for the refrigerating module and the heating module can be ensured, the normal use of the water treatment device can be prevented from being influenced by water flowing between the refrigerating module and the heating module, convenience can be provided for assembling the refrigerating module and the heating module, and the connection tightness between the refrigerating module and the heating module and the water diversion waterway is facilitated to be improved.

According to one embodiment of the invention, the aperture of the hot water inlet channel or the cold water inlet channel is gradually increased.

According to one embodiment of the invention, the aperture of the hot water inlet channel or the cold water inlet channel is gradually reduced.

According to one embodiment of the invention, the aperture of the hot water inlet channel or the cold water inlet channel is gradually increased in part and gradually decreased in the other part.

According to one embodiment of the invention, the water diversion waterway comprises a plurality of sections of sub water diversion waterways, and each section of sub water diversion waterway is connected end to form a complete hot water inlet channel or a complete cold water inlet channel.

According to one embodiment of the invention, the apertures of the multiple sections of the sub-diversion waterways are the same.

According to one embodiment of the invention, the apertures of the multiple sections of the sub-diversion waterways are different.

According to one embodiment of the invention, part of the sub-water distribution paths extend in a vertical direction and part of the sub-water distribution paths extend in a horizontal direction.

According to one embodiment of the invention, the included angle between two adjacent sections of the sub-water dividing paths is 90 degrees.

According to one embodiment of the invention, the aperture of the hot water inlet channel or the cold water inlet channel is 5-20 mm.

According to one embodiment of the invention, the housing is an injection molded part.

According to one embodiment of the invention, the water diversion waterway is formed by a core pulling process.

According to one embodiment of the invention, the water diversion waterway further comprises a third outlet end, wherein the third outlet end is configured as a normal temperature outlet end, and the inlet end and the normal temperature outlet end are mutually communicated to form a normal temperature water outlet channel.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Drawings

The foregoing and/or additional aspects and advantages of the invention will become apparent and may be better understood from the following description of embodiments taken in conjunction with the accompanying drawings in which:

FIG. 1 is a schematic view of a water treatment apparatus according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of a water distribution housing according to an embodiment of the present invention;

FIG. 3 is a cross-sectional view of the structure of FIG. 2 taken in a horizontal direction;

FIG. 4 is a schematic view of the structure of a heating housing according to an embodiment of the present invention;

FIG. 5 is a bottom view of the structure of FIG. 4;

Fig. 6 is a schematic structural view of a refrigeration case according to an embodiment of the present invention.

Reference numerals:

100: a water treatment device;

10: a housing; 11: a water dividing housing; 111: a first separator; 112: a third connecting plate; 12: a heating housing; 121: a second separator; 122: a first connection plate; 13: a refrigeration shell; 131: a third separator; 132: a second connecting plate;

14: a water diversion waterway; 141: a first set of sub-split waterways (hot water inlet channels); 142: a second set of sub-split waterways (cold water inlet channels); 143: a third group of sub-water diversion waterways (normal temperature water outlet channels);

20: a heating module;

30: a refrigeration module.

Detailed Description

Embodiments of the present invention are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present invention and should not be construed as limiting the invention.

A housing for a water treatment apparatus 100 according to an embodiment of the present invention is described below with reference to fig. 1 to 6.

The water treatment apparatus 100 includes: the housing assembly includes at least one functional module, may include a cooling module 30, may include a heating module 20, and may include a cooling module 30 and a heating module 20. The housing assembly includes: the device comprises a shell 10 and a waterway structure, wherein a compartment is defined in the shell 10, and a functional module is arranged in the compartment. Not only can provide convenience for the installation of functional module, can promote the installation stability of functional module moreover.

The water channel structure is disposed in the housing 10, and the water channel structure at least includes a water diversion channel 14 and a water outlet channel, wherein the water diversion channel 14 is integrally formed on the housing 10, that is, a plurality of water channel channels are defined in the housing 10 and are mutually communicated to form the water channel structure.

Specifically, the case 10 has at least two sub-cases 10, and may include: the water diversion housing 11 and the heating housing 12 may include: the water diversion housing 11 and the refrigeration housing 13 may include: a water separation housing 11, a heating housing 12, and a refrigerating housing 13. A water diversion channel 14 is provided in each sub-housing 10 and communicates with each other to guide the flow of water in the water purifying apparatus. The water diversion shell 11, the heating shell 12 and the refrigerating shell 13 can be sequentially arranged along the vertical direction and also can be sequentially arranged along the horizontal direction, each sub-shell 10 can be integrally formed, and the integrally formed shell 10 has high structural strength, high stability and long service life. The sub-housing 10 may also be formed separately, and the separately formed housing 10 may provide convenience for installation and maintenance of the cooling module 30 and the heating module 20, and may reduce the difficulty in producing the housing 10.

The water diversion waterway 14 has an inlet end and at least two outlet ends, the inlet end can be communicated with a water supply device, and water flow in the water supply device is respectively conveyed into different functional modules through the water diversion waterway 14. One of the outlet ports is configured as a first water diversion outlet port, and the inlet port communicates with the first water diversion outlet port to form a hot water inlet channel 141, through which water flow can enter the heating module 20. The other outlet end is configured as a second tap outlet end, the inlet end and the second tap outlet end being in communication with each other to form a cold water inlet channel 142, through which cold water inlet channel 142 water enters the refrigeration module 30.

Thus, according to the housing assembly of the embodiment of the present invention, by defining the water diversion waterway 14 in the housing 10, it is possible to provide convenience for waterway communication between components inside the water treatment apparatus 100, for example, it is possible to simplify the water purification apparatus for supplying water to the refrigeration module 30 or the heating module 20, and it is possible to provide convenience for installation and connection of the refrigeration module 30 or the heating module 20. Furthermore, with the integrative water diversion waterway 14 that fuses the shaping of casing 10, simple structure, easy to assemble has promoted the assembly efficiency of water treatment facilities 100, can promote stability and the intensity in water diversion waterway 14 moreover, prevents that water diversion waterway 14 from damaging, has prolonged the life of water treatment facilities 100.

Furthermore, the water diversion waterway 14 is provided with an inlet end and an outlet end, and the water diversion waterway 14 is internally provided with a hot water inlet channel 141 and a cold water inlet channel 142 which are mutually independent, so that normal water supply for the refrigerating module 30 and the heating module 20 can be ensured, the normal use of the water treatment device 100 can be prevented from being influenced by water flowing between the refrigerating module 30 and the heating module 20, convenience can be provided for assembling the refrigerating module 30 and the heating module 20, and the connection tightness between the refrigerating module 30 and the heating module 20 and the water diversion waterway 14 can be improved.

As shown in fig. 1, a water treatment apparatus 100 according to an embodiment of the present invention, the functional modules include: the refrigerating module 30 and the heating module 20, and the hot water inlet channel 141 of the water diversion waterway 14 communicates with the heating module 20 and supplies water to the heating module 20. The cold water inlet channel 142 of the water diversion waterway 14 communicates with the refrigeration module 30 and supplies water to the refrigeration module 30. The water treated by the refrigerating module 30 and the heating module 20 is sent out through the water diversion waterway 14 for users to drink.

The refrigeration module 30 may perform a refrigeration function on the water flow in the water purifying device, and the heating module 20 may perform a heating function on the water flow in the water purifying device. The user can obtain cold water and also can obtain hot water, and convenience is provided for different users or different periods of use of the clean drinking device. Therefore, the performance of the clean drinking device can be improved, and convenience is provided for users to use the clean drinking device.

As shown in fig. 1, the housing 10 is divided into a first sub-compartment located at an upper portion and a second sub-compartment located at a lower portion, that is, one sub-compartment is defined in the heating housing 12, the other sub-compartment is defined in the cooling housing 13, and the heating housing 12 is located above the cooling housing 13. Wherein the heating module 20 is disposed in the first sub-compartment, and the cooling module 30 is disposed in the second sub-compartment. The heating module 20 is disposed in the second compartment, and the cooling module 30 is disposed in the first compartment.

The refrigeration module 30 and the heating module 20 are arranged in different sub-compartments, so that the mutual interference between the refrigeration module 30 and the heating module 20 can be prevented. Not only can prevent heat in the heating module 20 from being conducted to the refrigerating module 30 to cause energy waste, but also the refrigerating module 30 and the heating module 20 independently work, and the working efficiency of the refrigerating module 30 and the heating module 20 can be improved.

As shown in fig. 2 to 6, the housing 10 has a first partition 111, a second partition 121, and a third partition 131 disposed at an upper and lower interval, the first partition 111 may be provided on the water diversion housing 11, the second partition 121 may be provided on the heating housing 12, and the third partition 131 may be provided on the refrigeration housing 13. A first connecting plate 122 is arranged between the first partition 111 and the second partition 121, and the first connecting plate 122 is connected with the second partition 121 and cooperates with the second partition 121 to form the heating housing 12. A second connecting plate 132 is arranged between the second partition plate 121 and the third partition plate 131, and the second connecting plate 132 is connected with the second partition plate 121 and is matched with the second partition plate 121 to form the refrigeration shell 13.

The water diversion channel 14 may be provided in the refrigeration case 13, and the water diversion channel 14 may be provided in the heating case 12. The water diversion channel 14 may be partially provided in the refrigeration case 13, and the other part may be provided in the heating case 12. Therefore, the water diversion waterway 14 can be communicated with the refrigerating module 30 and the heating module 20 conveniently, and the water outlet end of the water diversion waterway 14 can be arranged at a position adjacent to the refrigerating module 30 and the heating module 20, so that convenience is provided for the installation of the refrigerating module 30 and the heating module 20, and the connection tightness of the refrigerating module 30 and the heating module 20 is improved.

By providing the first, second and third partitions 111, 121 and 131 on the housing 10, the components of the water treatment apparatus 100 can be arranged to be spaced apart, so that the interference between the cooling module 30 and the heating module 20 can be eliminated. A first connection plate 122 or a second connection plate 132 is provided between adjacent partitions, and the first sub-compartment and the second sub-compartment may be closed by the connection plates. Therefore, the influence of the external environment on the refrigerating module 30 and the heating module can be eliminated, and the service lives of the refrigerating module 30 and the heating module can be prolonged.

As shown in fig. 6, in the present embodiment, the housing 10 further includes: the third connecting plate 112, the third connecting plate 112 is disposed around the first partition 111 and extends upward in the vertical direction, and the third connecting plate 112 cooperates with the first partition 111 to form a water diversion chamber with an open upper surface.

By arranging the third connecting plate 112 around the water diversion chamber, the environment in the water diversion chamber can be improved, dust in the air can be prevented from entering the water diversion chamber to influence the quality of water flow, and the aesthetic degree of the outer surface of the water treatment apparatus 100 can be improved.

In this embodiment, the water diversion waterway 14 includes a plurality of sections of sub-water diversion waterways, and each section of sub-water diversion waterway is connected end to form a complete hot water inlet channel 141 or cold water inlet channel 142.

Specifically, in this embodiment, the water diversion channel 14 at least includes a first set of sub-water diversion channels 141 and a second set of sub-water diversion channels 142, the first set of sub-water diversion channels 14 includes a plurality of sub-water diversion channels connected end to end in sequence, the first set of sub-water diversion channels 141 are connected between the inlet end and the first water diversion outlet end to form a hot water inlet channel 141, and water flow in the water supply device enters the heating module 20 along the first set of sub-water diversion channels 141. Similarly, the first set of water diversion channels 14 includes a plurality of sub-water diversion channels connected end-to-end in sequence, and the second set of sub-water diversion channels 142 are connected between the inlet end and the second water diversion outlet end to form a cold water inlet channel 142, and water in the water supply device enters the refrigeration module 30 along the second set of sub-water diversion channels 142.

The apertures of the multi-stage water diversion channel 14 may be the same or different. That is, the diversion waterway may be designed as a waterway having a uniform aperture, or may be designed as a waterway having a non-uniform aperture by fluid mechanics.

Through setting up first group sub-water diversion water route 141 and second group sub-water diversion water route 142, not only can guarantee the normal water supply of refrigeration module 30 and heating module 20, can also prevent that the rivers between refrigeration module 30 and the heating module 20 from mixing and taking place the cluster water, be favorable to promoting the working property of refrigeration module 30 and heating module 20.

The sub-water paths in the housing 10, one part of which extends in the vertical direction and the other part of which extends in the horizontal direction, may be at an angle of 90 degrees. Thereby, the difficulty of the production process of the sub-divided waterway can be reduced, and the total length of the divided waterway 14 can be shortened.

As shown in fig. 3, according to one embodiment of the present invention, the first group of sub-divided water paths 141 includes: the device comprises a first horizontal extension section, a first vertical extension section and a second horizontal extension section, wherein an inlet of the first vertical extension section is connected with an outlet of the first horizontal extension section, and an outlet of the first vertical extension section is connected with an inlet of the first horizontal extension section. That is, the first group of sub-divided water paths 141 includes three interconnected water pipes, two water pipes extending in a horizontal direction, one water pipe extending in a vertical direction, one horizontally extending water pipe being connected between an upper end of the vertically extending water pipe and a water inlet end, and the other horizontally extending water pipe being connected between a lower end of the vertically extending water pipe and the heating module 20.

Each pipe section of the first group of sub-water diversion pipes of the structure extends along a straight line, the difficulty of the production process is low, the length of the first group of sub-water diversion pipes can be shortened, the production cost of the water treatment device 100 can be reduced, and convenience is provided for the assembly of heating components.

In this embodiment, the second set of sub-split waterways 142 includes: the inlet of the second vertical extension section is connected with the outlet of the third horizontal extension section, and the outlet of the second vertical extension section is connected with the inlet of the fourth horizontal extension section. Similarly, the second set of sub-split waterways 142 includes three interconnected water tubes, two extending horizontally, one extending vertically, with one horizontally extending water tube connected between the upper end of the vertically extending water tube and the water intake end and the other horizontally extending water tube connected between the lower end of the vertical water tube and the refrigeration module 30.

Each pipe section of the second group of sub-water diversion pipes of the structure extends along a straight line, the difficulty of the production process is low, the length of the second group of sub-water diversion pipes can be shortened, the production cost of the water treatment device 100 can be reduced, and convenience is provided for the assembly of the refrigeration component.

Wherein upper sections of the first and second vertical extension sections are formed on the first connection plate 122, and lower sections of the first and second vertical extension sections are formed on the second connection plate 132. When the first connection plate 122 and the second connection plate 132 are connected, the upper section portion of the first vertically extending section is connected with the lower section portion in a sealing manner, and the upper section portion of the second vertically extending section is connected with the lower section portion in a sealing manner. The length of the first and second vertical extensions in the vertical direction can be thereby extended, ensuring that the water flow can smoothly enter the cooling module 30 and the heating module 20. And the difficulty of the production process of the shell 10 can be reduced, and convenience is provided for the production and assembly of the shell 10.

Further, a sealing connecting piece with a through hole is arranged between the upper section part of the first vertical extension section and the lower section part of the first vertical extension section, so that normal communication between the upper section part of the first vertical extension section and the lower section part of the first vertical extension section can be ensured, and water flow leakage can be prevented from occurring between the upper section part of the first vertical extension section and the lower section part of the first vertical extension section.

Similarly, a sealing connecting piece with a through hole is arranged between the upper section part of the second vertical extension section and the lower section part of the second vertical extension section, so that normal communication between the upper section part of the second vertical extension section and the lower section part of the second vertical extension section can be ensured, and water flow leakage between the upper section part of the second vertical extension section and the lower section part of the second vertical extension section can be prevented.

Wherein, sealing connection spare is dumbbell-shaped in general, and sealing connection spare includes: the connecting part and two embedding parts, two embedding parts are connected at the both ends of connecting part, and all be equipped with the through-hole on two embedding parts, inject the water flow passage that communicates two through-holes in the connecting part. When the first connecting plate 122 is connected to the second connecting plate 132, one of the embedded parts extends into the upper half of the first vertical extension section or the second vertical extension section, and the other embedded part correspondingly extends into the lower half of the first vertical extension section or the second vertical extension section. The outer peripheral wall of the embedded part is in sealing fit with the inner peripheral wall of the first vertical extension section or the second vertical extension section, the water flow passage is communicated with the upper half section and the lower half section of the first vertical extension section, and the water flow passage is communicated with the upper half section and the lower half section of the second vertical extension section.

The sealing connecting piece with the structure has the advantages of simple structure and easy manufacture, can not only improve the connection tightness between the upper half section and the lower half section of the first vertical extension section and between the upper half section and the lower half section of the second vertical extension section, but also improve the connection stability between the first connecting plate 122 and the second connecting plate 132.

The diversion waterway 14 further includes: a third group of sub-divided water paths 143, the third group of sub-divided water paths 143 being formed on the first partition 111, the third group of sub-divided water paths 143 being configured as a normal temperature water outlet path 143. Specifically, one end of the third group of sub-water diversion waterways 143 is connected to the water inlet end, the other end extends outwards along the radial direction of the first partition 111, one end of the third group of sub-water diversion waterways 14 far away from the water inlet end forms a normal temperature water outlet, and a normal temperature water outlet channel 143 is defined between the normal temperature water outlet and the water inlet end. The water flow in the water supply device enters the third group of sub-water diversion waterways 143 through the water inlet ends and directly flows out through the normal-temperature water outlets without passing through the refrigeration module 30 and the heating module 20, so that the user can directly take the normal-temperature water flow conveniently.

In the present embodiment, the aperture of the hot water inlet channel 141 or the cold water inlet channel 142 may be gradually increased, the aperture of the hot water inlet channel 141 or the cold water inlet channel 142 may be gradually decreased, and the aperture of the hot water inlet channel 141 or the cold water inlet channel 142 may be gradually increased in one portion and gradually decreased in the other portion.

Specifically, the inner diameters of the first, second and third sets of sub-divided water paths 141, 142 and 143 may be gradually increased, may be gradually decreased, or may be gradually increased and then gradually decreased in the direction of the central axis of the water paths.

The waterways with different inner diameters are arranged, so that convenience can be provided for connection of the waterways with the refrigerating module 30 or the heating module 20, and convenience can be provided for connection between adjacent waterways.

Wherein the aperture of the hot water inlet channel 141 or the cold water inlet channel 142 is 5-20 mm, that is, the inner diameter of each pipe section in the first group of sub-split water paths 141, the second group of sub-split water paths 142 and the third group of sub-split water paths 143 is 5-20 mm. Not only can the water supply requirement of the water treatment device 100 be met, but also the occupied space of the water diversion waterway 14 can be reduced to the greatest extent.

The shell 10 is an injection molding piece, for example, the shell 10 can be prepared from PP, PC, PE, POM and other materials, and the water diversion waterway 14 is formed by a core pulling process, wherein the shell 10 prepared from polypropylene material has a simple structure, low manufacturing process difficulty and convenient processing, and can reduce the production cost of the shell 10. The shell 10 made of polypropylene materials is manufactured into the water diversion waterway through the core pulling process, the inner wall of the water diversion waterway is smooth, scale is not easy to precipitate, pollution to water quality is avoided, water supply quality of the water treatment device 100 is improved, the water diversion waterway 14 manufactured through the core pulling process can improve the quality of the water diversion waterway 14, the inner peripheral wall of the water diversion waterway 14 is arranged smoothly, and resistance of water flow in the flowing process of the water diversion waterway 14 can be reduced.

Other constructions and operations of the housing for the water treatment device are understood and readily available to those of ordinary skill in the art and will not be described in detail herein.

In the description of the present invention, it should be understood that the directions or positional relationships indicated by the terms "upper", "lower", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of description and simplification of the description, and do not indicate or imply that the apparatus or element in question must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention.

In the present invention, unless expressly stated or limited otherwise, a first feature "above" or "below" a second feature may include both the first and second features being in direct contact, as well as the first and second features not being in direct contact but being in contact with each other through additional features therebetween. Moreover, a first feature being "above," "over" and "on" a second feature includes the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is higher in level than the second feature. The first feature being "under", "below" and "beneath" the second feature includes the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is less level than the second feature.

In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Although embodiments of the present invention have been shown and described above, it will be understood that the above embodiments are illustrative and not to be construed as limiting the invention, and that variations, modifications, alternatives, and variations may be made in the above embodiments by those skilled in the art without departing from the spirit and principles of the invention.

Claims (13)

1. A housing for a water treatment device, the housing comprising:

A water dividing housing;

the heating device comprises a heating shell, wherein a heating module is arranged in the heating shell;

The refrigerating device comprises a refrigerating shell, wherein a refrigerating module is arranged in the refrigerating shell; wherein the water diversion shell, the heating shell and the refrigerating shell are sequentially arranged along the vertical direction;

The integrative integration of casing is formed with the water diversion waterway, the water diversion waterway is established in each casing, and communicates each other to guide rivers to flow, the water diversion waterway has an entrance point, the water diversion waterway includes at least:

the first group of sub-water diversion waterways comprise a plurality of sub-water diversion waterways which are connected end to end in sequence, the first group of sub-water diversion waterways are connected between the inlet end and the first water diversion outlet end to form a hot water inlet channel, and water flow in the water supply device enters the heating module along the first group of sub-water diversion waterways;

The second group of sub-water diversion waterways comprise a plurality of sub-water diversion waterways which are connected end to end in sequence, the second group of sub-water diversion waterways are connected between the inlet end and the second water diversion outlet end to form a cold water inlet channel, and water flow in the water supply device enters the refrigerating module along the second group of sub-water diversion waterways.

2. The housing for a water treatment apparatus according to claim 1, wherein the aperture of the hot water inlet channel or the cold water inlet channel is gradually increased.

3. The housing for a water treatment device according to claim 1, wherein the aperture of the hot water inlet channel or the cold water inlet channel is gradually reduced.

4. The housing for a water treatment apparatus according to claim 1, wherein a portion of the aperture of the hot water inlet channel or the cold water inlet channel is gradually increased and another portion is gradually decreased.

5. The housing for a water treatment device of claim 1, wherein the water diversion waterway comprises a plurality of sections of sub-water diversion waterways, each section of sub-water diversion waterway being connected end to form a complete hot water inlet channel or cold water inlet channel.

6. The housing for a water treatment device of claim 5, wherein the apertures of the plurality of sub-divided waterways are the same.

7. The housing for a water treatment device of claim 6, wherein the apertures of the plurality of sub-divided waterways are different.

8. The housing for a water treatment device according to claim 5, wherein a part of the sub-water dividing passages extend in a vertical direction and a part of the sub-water dividing passages extend in a horizontal direction.

9. The housing for a water treatment device of claim 5, wherein the angle between two adjacent segments of said sub-split waterways is 90 °.

10. The housing for a water treatment device according to claim 1, wherein the aperture of the hot water inlet channel or the cold water inlet channel is 5-20 mm.

11. The housing for a water treatment device of claim 1, wherein the housing is an injection molded piece.

12. The housing for a water treatment device according to claim 1, wherein the water diversion waterway is formed by a core pulling process.

13. The housing for a water treatment apparatus according to claim 1, wherein the water diversion waterway further comprises a third outlet port configured as a normal temperature outlet port, the inlet port and the normal temperature outlet port being in communication with each other to form a normal temperature water outlet channel.