CN109665576A - Shell for water treatment facilities - Google Patents

Abstract

The invention discloses a kind of shells for water treatment facilities, integrally fusion is formed with draining water route to shell, the draining water route has an input end and one outlet end, input end is configured to hot water inlet end, outlet end is configured to hot water outlet end, and hot water inlet end and hot water outlet end, which are interconnected, forms hot water drainage channel；And/or input end is configured to cooling water inlet end, outlet end is configured to cooling water outlet end, and cooling water inlet end and cooling water outlet end, which are interconnected, forms cold water drainage channel.Shell according to an embodiment of the present invention for water treatment facilities, it can not only guarantee normally to be discharged for refrigeration module and heating module, it can also prevent the normal use that string water influence water treatment facilities occurs between refrigeration module and heating module, and the connection airtightness for being conveniently conducive to be promoted between refrigeration module and heating module and draining water route can be provided for the assembly of refrigeration module and heating module.

Description

Shell for water treatment facilities

Technical field

The present invention relates to household appliance technical fields, and in particular to a kind of shell for water treatment facilities.

Background technique

Net drink equipment in the related technology, water route arrangement is complex, not only increases the design difficulty of net drink equipment, also The production cost of net drink equipment is increased, and seriously affects the assembly efficiency of net drink equipment.

Summary of the invention

The present invention is directed to solve one of above-mentioned technical problem at least to a certain extent.

For this purpose, the present invention proposes a kind of shell for water treatment facilities, the housing unit is easy to assembly, is conducive to simplify The circuit design of water treatment facilities, and the assembly efficiency of water treatment facilities can be promoted.

Shell according to an embodiment of the present invention for water treatment facilities, integrally fusion is formed with water drain to the shell Road, the draining water route have an input end and one outlet end, and the input end is configured to hot water inlet end, the outlet End is configured to hot water outlet end, and the hot water inlet end and the hot water outlet end, which are interconnected, forms hot water drainage channel； And/or the input end is configured to cooling water inlet end, the outlet end is configured to cooling water outlet end, the cooling water inlet end It is interconnected with the cooling water outlet end and forms cold water drainage channel.

Input end and outlet is arranged in shell according to an embodiment of the present invention for water treatment facilities on water drain road End, and the hot water drainage channel of independent communication heating module and the cold water of independent communication refrigeration module are limited in draining water route Drainage channel can not only guarantee normally to be discharged for refrigeration module and heating module, moreover it is possible to prevent refrigeration module and heating module Between occur string water influence water treatment facilities normal use, and can be refrigeration module and heating module assembly provider Just, be conducive to promote the connection airtightness between refrigeration module and heating module and draining water route.

According to one embodiment of present invention, the aperture of the hot water drainage channel or the cold water drainage channel gradually increases Greatly.

According to one embodiment of present invention, the aperture of the hot water drainage channel or the cold water drainage channel gradually subtracts It is small.

According to one embodiment of present invention, the aperture of the hot water drainage channel or cold water drainage channel a part It is gradually increased, another part is gradually reduced.

According to one embodiment of present invention, the water outlet water route includes the sub- water route of multistage, every section of sub- water route head and the tail It is interconnected to form a complete hot water drainage channel or cold water drainage channel.

According to one embodiment of present invention, the aperture in sub- water route described in multistage is identical.

According to one embodiment of present invention, the aperture in sub- water route described in multistage is different.

According to one embodiment of present invention, the part sub- water route extends along the vertical direction, the part sub- water route edge Horizontal direction extends.

According to one embodiment of present invention, the angle in the adjacent two sections sub- water routes is 90 °.

According to one embodiment of present invention, the aperture of the hot water drainage channel or the cold water drainage channel is 5-20 Millimeter.

According to one embodiment of present invention, the shell is prepared by polypropylene material.

According to one embodiment of present invention, the water outlet water route is formed by core pulling technique.

Additional aspect and advantage of the invention will be set forth in part in the description, and will partially become from the following description Obviously, or practice through the invention is recognized.

Detailed description of the invention

Above-mentioned and/or additional aspect of the invention and advantage will become from the description of the embodiment in conjunction with the following figures Obviously and it is readily appreciated that, in which:

Fig. 1 is the explosive view of water treatment facilities according to an embodiment of the present invention；

Fig. 2 is the structural schematic diagram of water treatment facilities according to an embodiment of the present invention；

Fig. 3 is the structural schematic diagram of according to an embodiment of the present invention point of water hull body；

Fig. 4 is the structural schematic diagram of heated shell according to an embodiment of the present invention；

Fig. 5 is the bottom view of structure in Fig. 4；

Fig. 6 is the structural schematic diagram of refrigeration shell according to an embodiment of the present invention；

Fig. 7 is the cross-sectional view in the horizontal direction of structure in Fig. 6；

Fig. 8 is a cross-sectional view in the horizontal direction of structure in Fig. 6；

Fig. 9 is another cross-sectional view in the horizontal direction of structure in Fig. 6.

Appended drawing reference:

100: water treatment facilities；

10: shell；11: dividing water hull body；111: first partition；112: third connecting plate；

12: heated shell；121: second partition；122: the first connecting plates；

13: refrigeration shell；131: third partition；132: the second connecting plates；

14: draining water route；141: the first drainings water route (hot water drainage channel)；1411: the first vertical extended segments；1412: First level extended segment；14121: the first sub- horizontal extension sections；14122: the second sub- horizontal extension sections；Vertically prolong at 1413: the second Stretch section；142: the second drainings water route (cold water drainage channel)；1421: the vertical extended segment of third；1422: the second horizontal extension sections； 14221: the sub- horizontal extension section of third；14222: the four sub- horizontal extension sections；1423: the four vertical extended segments；

20: heating module；

30: refrigeration module.

Specific embodiment

The embodiment of the present invention is described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning to end Same or similar label indicates same or similar element or element with the same or similar functions.Below with reference to attached The embodiment of figure description is exemplary, it is intended to is used to explain the present invention, and is not considered as limiting the invention.

The shell 10 according to an embodiment of the present invention for water treatment facilities 100 is described referring to Fig. 1 to Fig. 9.

Water treatment facilities 100 includes: shell 10 and includes at least a functional module, may include a refrigeration module 30, it may include a heating module 20, also may include a refrigeration module 30 and a heating module 20.Shell 10 wraps Include: shell 10 and waterway structure define compartment in shell 10, and functional module is indoor between being located at.It not only can be functional module Installation provide it is convenient, and can be with the mounting stability of enhanced feature module.

Wherein, waterway structure is located in shell 10, and waterway structure includes at least the water route Fen Shui, water outlet water route and draining water route 14, the 14 one fusion of draining water route is formed on shell 10, that is to say, that several waterway channels are defined in shell 10, it is multiple Waterway channel is interconnected and forms waterway structure.

Specifically, there are shell 10 at least two sub- shells to constitute, it may include: point water hull body 11 and a heated shell 12, it may include: point water hull body 11 and refrigeration shell 13, also may include: a point water hull body 11, heated shell 12 and refrigeration shell 13.Draining water route 14 can be located in one of them each sub- shell, can also be located in multiple sub- shells, when each sub- shell successively When connection, multiple sub- intracorporal draining water routes 14 of shell are interconnected.

Divide water hull body 11, heated shell 12 and refrigeration shell 13 that can be arranged successively along the vertical direction or along level side To being arranged successively, and each sub- shell can be integrally formed, and integrally formed 10 structural strength of shell is big, and stability is high, be used It lasts a long time.Sub- shell seperated can also form, and seperated molding shell 10 can be refrigeration module 30 and heating module 20 It is convenient that installation and maintenance provide, and can reduce the production difficulty of shell 10.

Wherein, draining water route 14 has an input end and one outlet end, and input end can be connected to heating module 20, into One end of mouth end connection heating module 20 forms hot water outlet end.Hot water inlet end and hot water outlet end, which are interconnected, forms hot water Drainage channel 141, the hot water in heating module 20 is through 141 wastewater treatment equipment 100 of superheated water drainage channel.

Input end can also be connected to refrigeration module 30, and input end is configured to cooling water inlet end, and outlet end is configured to cold Water outlet end limits cold water drainage channel 142 between cooling water inlet end and cooling water outlet end.Cold water in refrigeration module 30 is logical 142 wastewater treatment equipment 100 of subcooled water drainage channel.

Draining water route 14 can also include the hot water drainage channel 141 and cold water drainage channel 142 in above structure simultaneously, Draining water route 14 is respectively that refrigeration module 30 and heating module 20 drain.

Shell 10 according to an embodiment of the present invention as a result, can be water by limiting draining water route 14 in shell 10 It is convenient that water route connection between the 100 each component in inside of processing unit provides, for example, can simplify net drink equipment is refrigeration module 30 Or the draining water route 14 of heating module 20, and can for refrigeration module 30 or heating module 20 installation with connect provider Just.Furthermore molding draining water route 14 is merged with 10 one of shell, structure is simple, facilitates installation, improves water treatment facilities 100 assembly efficiency, and the stability and intensity in draining water route 14 can be promoted, it prevents draining water route 14 from damaging, extends The service life of water treatment facilities 100.

Furthermore inlet end and an outlet end is set on draining water route 14, and limits independent communication in draining water route 14 The hot water drainage channel 141 of heating module 20 and the cold water drainage channel 142 of independent communication refrigeration module 30, can not only guarantee It is normally discharged for refrigeration module 30 and heating module 20, moreover it is possible to prevent that string water shadow occurs between refrigeration module 30 and heating module 20 The normal use of Xiangshui County's processing unit 100, and can be provided for the assembly of refrigeration module 30 and heating module 20 conveniently, favorably Connection airtightness between promotion refrigeration module 30 and heating module 20 and draining water route 14.

As illustrated in fig. 1 and 2, water treatment facilities 100 according to an embodiment of the present invention, functional module includes: refrigeration module 30 With heating module 20, the hot water intake tunnel in the water route Fen Shui is connected to heating module 20, and supplies water to heating module 20.The water route Fen Shui Cold water intake tunnel be connected to refrigeration module 30, and to refrigeration module 30 supply water.Refrigeration module 30 is processed that water passes through cold water It drains water route 14 to be discharged, heating module 20 is processed that water drains the discharge of water route 14 by hot water, drinks for user.

Refrigeration module 30 can carry out refrigeration to the water flow in net drink equipment, and heating module 20 can be net drink equipment In water flow carry out heat effect.User can obtain cold water or obtain hot water, use different user or different times Net drink equipment provides convenience.It is possible thereby to promote the performance of net drink equipment, provided convenience for user using net drink equipment.

As shown in Fig. 2, shell 10 is divided into the superposed first sub- compartment and the second sub- compartment positioned at lower part, That is defining a sub- compartment in heated shell 12, another sub- compartment, heated shell 12 are defined in the shell 13 that freezes Positioned at the top of refrigeration shell 13.Wherein, heating module 20 is located at interior between the first son, and refrigeration module 30 is located at the second sub- compartment It is interior.Heating module 20 can also be located at interior between the second son, and refrigeration module 30 is located at interior between the first son.

Refrigeration module 30 and heating module 20 are located between different sons indoor, refrigeration module 30 and heating mould can be prevented It is interfered with each other between block 20.It can not only prevent the heat in heating module 20 from conducting to refrigeration module 30, cause the energy Waste, and refrigeration module 30 and heating module 20 work independently, and can promote the work of refrigeration module 30 and heating module 20 Efficiency.

As shown in Fig. 3, Fig. 4 and Fig. 6, shell 10 has upper and lower spaced first partition 111,121 and of second partition Third partition 131, first partition 111 can be located on point water hull body 11, and second partition 121 can be located in heated shell 12, Third partition 131 is located on refrigeration shell 13.The first connecting plate 122 is equipped between first partition 111 and second partition 121, the One connecting plate 122 is connected with second partition 121 and cooperatively forms heated shell 12 with second partition 121.Second partition 121 and Between three partitions 131 be equipped with the second connecting plate 132, the second connecting plate 132 be connected with second partition 121 and with second partition 121 Cooperatively form refrigeration shell 13.

Draining water route 14 is respectively formed on one of them sub- shell.That is, draining water route 14 can be located at refrigeration shell In 13, draining water route 14 can also be located in refrigeration shell 13, and draining water route 14 can be located in point water hull body 11,.

Draining 14 a part of water route is formed on one of them sub- shell, and the another part for being discharged water route is formed in another On sub- shell.Specifically, draining water route 14 can also a part be located at refrigeration shell 13 in, a part be located at heating shell 10 Interior, remaining part can be located in point water hull body 11.

It is possible thereby to be connected to refrigeration module 30 and heating module 20 by convenient for draining water route 14, and can will drain The input end in water route 14 is located at the position of neighbouring refrigeration module 30 and heating module 20, and then is refrigeration module 30 and heating module It is convenient that 20 installation provides, and is conducive to the connection airtightness for promoting refrigeration module 30 and heating module 20.

By the way that first partition 111, second partition 121 and third partition 131 are arranged on the housing 10, water process can be filled Each parts space for setting 100 opens arrangement, interferes with each other effect between refrigeration module 30 and heating module 20 so as to eliminate. First connecting plate 122 or the second connecting plate 132 are set between adjacent separator, can use connecting plate close the first sub- compartment and Second sub- compartment.It is possible thereby to eliminate influence of the external environment to refrigeration module 30 and heating module, it is conducive to extend refrigeration mould The service life of block 30 and heating module.

As shown in figure 3, in the present embodiment, shell 10 further include: third connecting plate 112, third connecting plate 112 is around the One partition 111 is arranged and upwardly extends along the vertical direction, and third connecting plate 112 and first partition 111 cooperate structure to set out upper surface Open point of water chamber.

It is arranged using third connecting plate 112 around a point water chamber, the indoor environment of point water cavity can be promoted, prevented in air Dust enter the quality for dividing water chamber to influence water flow, and the aesthetic measure of the outer surface of water treatment facilities 100 can be promoted.

In the present embodiment, draining water route 14 includes the sub- water route of multistage, and the sub- water route of multistage is successively interconnected to form from beginning to end One complete hot water drainage channel 141 or cold water drainage channel 142.

Specifically, draining water route 14 includes: that the first draining water route 141 and second drains water route 142 in the present embodiment, The sub- water route that first draining water route 141 can be sequentially connected end to end in turn by several forms, if the second draining water route 142 can also have The dry sub- water route being sequentially connected end to end in turn composition.Wherein, the aperture in sub- water route can be identical, can not also be identical.

The input end in the first draining water route 141 is connect with the discharge outlet of heating module 20, going out in the first draining water route 141 Hot water is discharged outward in mouth end.The input end in the second draining water route 142 is connect with the discharge outlet of heating module 20, the second draining water route Cold water is discharged outward in 142 outlet end.

It can be heating module 20 and refrigeration module 30 by the first draining water route 141 of setting and the second draining water route 142 It is convenient that draining provides, and guarantees that the water flow in refrigeration module 30 and heating module 20 can discharge completely in time, prevents sewage from gathering 100 normal use of water treatment facilities is influenced in refrigeration module 30 or heating module 20.

Sub- water route in shell 10, a part extend along the vertical direction, and another part is horizontally extending, and be connected sub- water Angle between road can be 90 °.It is possible thereby to reduce the difficulty of the production technology in each sub- water route, and water drain can be shortened The total length on road 14.

As shown in fig. 7, according to one embodiment of present invention, the first draining water route 141 includes: the first vertical extended segment 1411, first level extended segment 1412 and the second vertical extended segment 1413, the entrance and heating mould of the first vertical extended segment 1411 The discharge outlet of block 20 connects, and the entrance of first level extended segment 1412 is connect with the outlet of the first vertical extended segment 1411, and second The entrance of vertical extended segment 1413 is connect with the outlet of first level extended segment 1412.

That is, the first draining water pipe for being extended along the vertical direction by two of water route 141 and one prolong in the horizontal direction The water pipe composition stretched, one of them water pipe upper end extended along the vertical direction are connected to the discharge outlet of heating module 20, lower end connection The upper end of one end of horizontal-extending water pipe, another water pipe extended along the vertical direction is connected to the another of horizontal-extending water pipe End, the lower end of another water pipe extended along the vertical direction is for draining.

Each pipeline section in the first draining water route 141 of above structure, producting process difficulty is lower, can shorten the first water drain The length on road 141 can not only reduce the production cost of water treatment facilities 100, moreover it is possible to it is provided conveniently to heat the assembly of component, Furthermore, it is possible to which the draining for heating module 20 provides conveniently, and it can prevent the sewage in heating module 20 from gathering.

Further, as shown in fig. 7, first level extended segment 1412 includes: the interconnected first sub- horizontal extension section 14121 and the second sub- horizontal extension section 14122, the first sub- horizontal extension section 14121 and the second sub- horizontal extension section 14122 are in one Clamp angle.That is, first level extended segment 1412 is constituted by two sections, and is mutually inclined between two sections, it is not straight in same On line.

The first level extended segment 1412 of above structure can shorten discharge outlet and the first draining water route of heating module 20 The distance between 141 input end, the connection between heating module 20 and the first draining water route 141 provide convenience, and Be conducive to promote the airtightness between heating module 20 and the first draining water route 141.

As shown in figure 8, in the present embodiment, the second draining water route 142 includes: the vertical extended segment 1421 of third, the second water Flat extended segment 1422 and the 4th vertical extended segment 1423, the entrance of the vertical extended segment 1421 of third and the discharge outlet of refrigeration module 30 Connection, the entrance of the second horizontal extension section 1422 are connect with the outlet of the first vertical extended segment 1411, the 4th vertical extended segment 1423 entrance is connect with the outlet of the second horizontal extension section 1422.

That is, the second draining water pipe for being extended along the vertical direction by two of water route 142 and one prolong in the horizontal direction The water pipe composition stretched, the discharge outlet of the upper end connection refrigeration module 30 of one of them water pipe extended along the vertical direction, lower end connects Lead to one end of horizontally extending water pipe.The upper end of another water pipe extended along the vertical direction is connected to extending level direction The other end of the water pipe of extension, the waste water in refrigeration module 30 are discharged from the lower end of the vertical water pipe.

Second draining water route 142 of above structure, each pipeline section producting process difficulty is lower, can shorten the second draining water route 142 length can not only reduce the production cost of water treatment facilities 100, moreover it is possible to it is provided conveniently to heat the assembly of component, and And it can be provided for the draining of heating module 20 conveniently, and can prevent the sewage in heating module 20 from gathering.

As shown in figure 8, in the present embodiment, the second horizontal extension section 1422 includes: that third level interconnected is prolonged Stretch section 14221 and the 4th sub- horizontal extension section 14222, the sub- horizontal extension section 14221 of third and the 4th sub- horizontal extension section 14222 It is in a certain angle.That is, the second horizontal extension section 1422 is constituted by two sections, and the sub- horizontal extension section 14221 of third and It is mutually inclined, is not arranged on the same straight line between four sub- horizontal extension sections 14222.

Second horizontal extension section 1422 of above structure can shorten discharge outlet and the second draining water route of refrigeration module 30 The distance between 142 input end, the connection between refrigeration module 30 and the second draining water route 142 provide convenience, and Be conducive to promote the airtightness between refrigeration module 30 and the second draining water route 142.

Specifically, the water route Fen Shui includes at least first group of sub- water route Fen Shui and second group of son divides water water in the present embodiment Road, the first component water water route include multiple successively end to end sub- water routes Fen Shui, and the first component water water route is connected to input end Hot water intake tunnel is formed between first point of water outlet end, the water flow in water supply device enters along first group of sub- water route Fen Shui Heating module 20.Similarly, the first component water water route includes multiple successively end to end sub- water routes Fen Shui, the second component water water Road is connected to formation cold water intake tunnel between input end and second point of water outlet end, and the water flow in water supply device is along second group The sub- water route Fen Shui enters refrigeration module 30.

By first group of sub- water route Fen Shui of setting and second group of sub- water route Fen Shui, it can not only guarantee refrigeration module 30 and system The normal water supply of thermal modules 20, moreover it is possible to prevent the water flow between refrigeration module 30 and heating module 20 from mixing and string water occurs, favorably In the working performance for promoting refrigeration module 30 and heating module 20.

In the present embodiment, the aperture of hot water drainage channel 141 or cold water drainage channel 142 can be gradually increased, hot water The aperture of drainage channel 141 or cold water drainage channel 142 can be gradually reduced, hot water drainage channel 141 or cold water drainage channel 142 aperture can also a part be gradually increased another part and be gradually reduced.

Specifically, the internal diameter of each pipeline section in the first draining water route 141 and the second draining water route 142, it can be along water route The direction of central axis is gradually increased, and can be gradually reduced, and first can also be gradually increased and then is gradually reduced.

The water route internal diameter of different interior diameters is set, can be the company on water drain road 14 and refrigeration module 30 or heating module 20 It is convenient to connect offer, and can be provided for the connection between adjacent water route conveniently.

Wherein, the aperture of hot water drainage channel 141 or cold water drainage channel 142 is 5-20 millimeters, that is to say, that first row The interior diameter of each pipeline section is 5-20 millimeters in water water route 141 and the second draining water route 142.First vertical extended segment 1411, first Horizontal extension section 1412, the second vertical extended segment 1413, the vertical extended segment 1421 of third, the second horizontal extension section 1422 and second The internal diameter of vertical extended segment 1413 is 5-20 millimeters.It not only can satisfy the water supply requirement of water treatment facilities 100, moreover it is possible to maximum journey Degree reduces the occupied space in the water route Fen Shui.

Shell 10 is prepared by polypropylene material and drains water route 14 and formed by core pulling technique, polypropylene material preparation 10 structure of shell it is simple, the difficulty of manufacture craft is lower, and easy to process, can reduce the production cost of shell 10.And The water route Fen Shui that the shell 10 that polypropylene material is prepared is made by core pulling technique, the vias inner walls light in the water route Fen Shui Sliding, scale is not easy to precipitate, and water quality is avoided to pollute, and improves 100 quality of water supply of water treatment facilities, and core pulling technique makes The water route Fen Shui can promote the quality in the water route Fen Shui, the smooth arrangement of the internal perisporium in the water route Fen Shui can reduce water flow in Fen Shui Resistance in water route in flow process.

Water treatment facilities 100 other are constituted and operation belongs to those of ordinary skill in the art and understands and be easy It obtains, is no longer repeated herein.

In the description of the present invention, it is to be understood that, the orientation or positional relationship of the instructions such as term " on ", "lower" is base In orientation or positional relationship shown in the drawings, it is merely for convenience of description of the present invention and simplification of the description, rather than indication or suggestion Signified device or element must have a particular orientation, be constructed and operated in a specific orientation, therefore should not be understood as to this The limitation of invention.

In the present invention unless specifically defined or limited otherwise, fisrt feature second feature "upper" or "lower" It may include that the first and second features directly contact, also may include that the first and second features are not direct contacts but pass through it Between other characterisation contact.Moreover, fisrt feature includes the first spy above the second feature " above ", " above " and " above " Sign is right above second feature and oblique upper, or is merely representative of first feature horizontal height higher than second feature.Fisrt feature exists Second feature " under ", " lower section " and " following " include fisrt feature right above second feature and oblique upper, or be merely representative of First feature horizontal height is less than second feature.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " example ", " specifically show The description of example " or " some examples " etc. means specific features, structure, material or spy described in conjunction with this embodiment or example Point is included at least one embodiment or example of the invention.In the present specification, schematic expression of the above terms are not Centainly refer to identical embodiment or example.Moreover, particular features, structures, materials, or characteristics described can be any One or more embodiment or examples in can be combined in any suitable manner.

Although the embodiments of the present invention has been shown and described above, it is to be understood that above-described embodiment is example Property, it is not considered as limiting the invention, those skilled in the art are not departing from the principle of the present invention and objective In the case where can make changes, modifications, alterations, and variations to the above described embodiments within the scope of the invention.

Claims (12)

1. a kind of shell for water treatment facilities, which is characterized in that integrally fusion is formed with draining water route, the row to the shell Water water route has an input end and one outlet end, and the input end is configured to hot water inlet end, and the outlet end is by structure It is set as hot water outlet end, the hot water inlet end and the hot water outlet end, which are interconnected, forms hot water drainage channel；And/or institute State input end and be configured to cooling water inlet end, the outlet end is configured to cooling water outlet end, the cooling water inlet end with it is described Cooling water outlet end is interconnected and forms cold water drainage channel.

2. the shell according to claim 1 for water treatment facilities, which is characterized in that the hot water drainage channel or institute The aperture for stating cold water drainage channel is gradually increased.

3. the shell according to claim 1 for water treatment facilities, which is characterized in that the hot water drainage channel or institute The aperture for stating cold water drainage channel is gradually reduced.

4. the shell according to claim 1 for water treatment facilities, which is characterized in that the hot water drainage channel or institute The aperture a part for stating cold water drainage channel is gradually increased, and another part is gradually reduced.

5. the shell according to claim 1 for water treatment facilities, which is characterized in that the water outlet water route includes multistage Sub- water route, every section of sub- water route head and the tail are interconnected to form a complete hot water drainage channel or cold water drainage channel.

6. the shell according to claim 5 for water treatment facilities, which is characterized in that the aperture in sub- water route described in multistage It is identical.

7. the shell according to claim 6 for water treatment facilities, which is characterized in that the aperture in sub- water route described in multistage It is different.

8. the shell according to claim 5 for water treatment facilities, which is characterized in that the part sub- water route is along vertical Direction extends, and the part sub- water route is horizontally extending.

9. the shell according to claim 5 for water treatment facilities, which is characterized in that adjacent two sections of sub- water routes Angle is 90 °.

10. the shell according to claim 1 for water treatment facilities, which is characterized in that the hot water drainage channel or The aperture of the cold water drainage channel is 5-20 millimeters.

11. the shell according to claim 1 for water treatment facilities, which is characterized in that the shell is by polypropylene material Material is prepared.

12. being used for the shell of water treatment facilities according to right 1, which is characterized in that the water outlet water route passes through core pulling work Skill is formed.