CN208071341U - Shell for water treatment facilities - Google Patents

Abstract

The utility model discloses a kind of shells for water treatment facilities, integrally fusion is formed with water outlet water route to the shell, there are one input end and one outlet ends for water outlet water route tool, 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 is interconnected with the hot water outlet end and forms hot water effluent channel；And/or the input end is configured to cooling water inlet end, the outlet end is configured to cooling water outlet end, and the cooling water inlet end is interconnected with the cooling water outlet end and forms cold water exhalant canal.According to the shell for water treatment facilities of the utility model embodiment, it can not only ensure normally to be discharged for refrigeration module and heating module, it can also prevent from occurring between refrigeration module and heating module the normal use of string water influence water treatment facilities, and the connection seal for being conveniently conducive to be promoted between refrigeration module and heating module and water outlet water route can be provided for the assembly of refrigeration module and heating module.

Description

Shell for water treatment facilities

Technical field

The utility model is related to purifier technical fields, and in particular to a kind of shell for water treatment facilities.

Background technology

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 efficiency of assembling of net drink equipment.

Utility model content

The utility model is intended to solve one of above-mentioned technical problem at least to a certain extent.

For this purpose, the utility model proposes a kind of shell for water treatment facilities, the shell is easy to assembly, is conducive to simplify The water route of water treatment facilities is designed, and can promote the efficiency of assembling of water treatment facilities.

According to the shell for water treatment facilities of the utility model embodiment, integrally fusion is formed with water outlet to the shell Water route, for water outlet water route tool there are one input end and one outlet end, the input end is configured to hot water inlet end, it is described go out Mouthful end is configured to hot water outlet end, and the hot water inlet end is interconnected with the hot water outlet end, and to form hot water effluent logical Road；And/or the input end is configured to cooling water inlet end, the outlet end is configured to cooling water outlet end, the cold water into Mouthful end is interconnected with the cooling water outlet end and forms cold water exhalant canal, and the water outlet water route includes the sub- water route of multistage, every section The sub- water route head and the tail are interconnected to form a complete hot water effluent channel or cold water exhalant canal.

According to the shell for water treatment facilities of the utility model embodiment, can not only ensure as refrigeration module and system Thermal modules are normally discharged, moreover it is possible to prevent from occurring between refrigeration module and heating module normal the making of string water influence water treatment facilities With, and can be provided for the assembly of refrigeration module and heating module conveniently, be conducive to be promoted refrigeration module and heating module with The connection seal being discharged between water route.

The aperture of one embodiment according to the present utility model, the hot water effluent channel or the cold water exhalant canal by It is cumulative big.

The aperture of one embodiment according to the present utility model, the hot water effluent channel or the cold water exhalant canal by It is decrescence small.

The aperture one of one embodiment according to the present utility model, the hot water effluent channel or the cold water exhalant canal Part gradually increases, and another part is gradually reduced.

The aperture of one embodiment according to the present utility model, sub- water route described in multistage is identical.

The aperture of one embodiment according to the present utility model, sub- water route described in multistage is different.

One embodiment according to the present utility model, the part sub- water route vertically extend, the part sub- water Road is horizontally extending.

The angle of one embodiment according to the present utility model, adjacent two sections of sub- water routes is 90 °.

The aperture of one embodiment according to the present utility model, the hot water effluent channel or the cold water exhalant canal is 5-20 millimeters.

One embodiment according to the present utility model, the shell are moulding.

One embodiment according to the present utility model, the water outlet water route are formed by core pulling technique.

The additional aspect and advantage of the utility model will be set forth in part in the description, partly will be from following description In become apparent, or recognized by the practice of the utility model.

Description of the drawings

The above-mentioned and/or additional aspect and advantage of the utility model will in the description from combination following accompanying drawings to embodiment Become apparent and is readily appreciated that, wherein：

Fig. 1 is the structural schematic diagram according to the water treatment facilities of the utility model embodiment；

Fig. 2 is the structural schematic diagram for dividing water hull body according to the utility model embodiment；

Fig. 3 is the sectional view of structure in the horizontal direction in Fig. 2；

Fig. 4 is the structural schematic diagram according to the heated shell of the utility model embodiment；

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

Fig. 6 is the sectional view of structure vertically in Fig. 4；

Fig. 7 is the structural schematic diagram according to the refrigeration shell of the utility model embodiment.

Reference numeral：

100：Water treatment facilities；

10：Shell；11：Divide water hull body；111：First partition；112：Third connecting plate；

12：Heated shell；121：Second partition；122：First connecting plate；

13：Freeze shell；131：Third partition board；132：Second connecting plate；

14：It is discharged water route；141：First water outlet water route (hot water effluent channel)；1411：First segment；

1412：Second segment；142：Second water outlet water route (cold water exhalant canal)；1421：Third section；

1422：4th section；1423：5th section；1424：6th section；1425：7th section；

20：Heating module；

30：Refrigeration module.

Specific implementation mode

The embodiments of the present invention are described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning Same or similar element or element with the same or similar functions are indicated to same or similar label eventually.Below by ginseng The embodiment for examining attached drawing description is exemplary, it is intended to for explaining the utility model, and should not be understood as to the utility model Limitation.

Referring to Fig. 1 to Fig. 7 descriptions according to the shell 10 for water treatment facilities 100 of the utility model embodiment.

Water treatment facilities 100 includes：Shell 10 and include at least a function module, may include a refrigeration module 30, it may include a heating module 20, can also include a refrigeration module 30 and a heating module 20.Shell 10 wraps It includes：Shell 10 and waterway structure define compartment in shell 10, and function module is located at indoor.It can be not only function 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 routes Fen Shui and water outlet water route 14, is discharged water 14 one fusion of road is formed on shell 10, that is to say, that several waterway channels, multiple waterway channels are defined in shell 10 It is interconnected and forms water outlet water route 14.

Specifically, shell 10 is constituted at least two sub- shells 10, may include：Divide water hull body 11 and heated shell 12, may include：Divide water hull body 11 and refrigeration shell 13, can also include：Divide water hull body 11, heated shell 12 and refrigeration shell 13.Water outlet water route 14 can be located in one of them each sub- shell 10, can also be located in multiple sub- shells 10, when each sub- shell 10 when being sequentially connected, and the water outlet water route 14 in multiple sub- shells 10 is interconnected composition waterway structure.

Dividing water hull body 11, heated shell 12 and refrigeration shell 13 that can vertically be arranged in order can also be along level side To being arranged in order, and each sub- shell 10 can be integrally formed, and 10 structural strength of integrally formed shell is big, and stability is high, makes With lasting a long time.Sub- shell 10 seperated can also be molded, and seperated molding shell 10 can be refrigeration module 30 and heating module It is convenient that 20 installation and maintenance provides, and can reduce the production difficulty of shell 10.

Wherein, for water outlet water route 14 tool there are one input end and one outlet end, 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 is interconnected with hot water outlet end and forms hot water Exhalant canal 141, the hot water in heating module 20 flow out for users to use by hot water effluent channel 141.

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 exhalant canal 142 between cooling water inlet end and cooling water outlet end.Cold water in refrigeration module 30 is logical Subcooled water exhalant canal 142 flows out for users to use.

It can also includes hot water effluent channel 141 and the cold water exhalant canal 142 in above structure simultaneously to be discharged water route 14, Flow in refrigeration module 30 and heating module 20 is by being discharged the outflow of water route 14 for users to use.

As a result, according to the shell of the utility model embodiment 10, by limiting water outlet water route 14, Ke Yiwei in shell 10 It is convenient that water route connection between the 100 each component in inside of water treatment facilities provides, for example, it is refrigeration module that can simplify net drink equipment 30 or heating module 20 water outlet water route 14, and can be refrigeration module 30 or heating module 20 installation with connect provider Just.Furthermore molding water outlet water route 14 is merged with 10 one of shell, it is simple in structure, facilitate installation, improves water treatment facilities 100 efficiency of assembling, and the stability and intensity in water outlet water route 14 can be promoted, it prevents water outlet water route 14 from damaging, extends The service life of water treatment facilities 100.

Furthermore inlet end and an outlet end is set on water outlet water route 14, and independent communication is limited in water outlet water route 14 The hot water effluent channel 141 of heating module 20 and the cold water exhalant canal 142 of independent communication refrigeration module 30, can not only ensure 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 In the connection seal for promoting refrigeration module 30 and heating module 20 and being discharged between water route 14.

As shown in Figure 1, according to the water treatment facilities 100 of the utility model embodiment, function module includes：Refrigeration module 30 It is connected to heating module 20 with the hot water intake tunnel of heating module 20, the water routes Fen Shui, and is supplied water to heating module 20.The water routes 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 is discharged water route 14 to be discharged, heating module 20 is processed that water is discharged by hot water effluent water route 14, drinks for user.

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

As shown in Figure 1, 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 are defined in the shell 13 that freezes 12 are located at the top of refrigeration shell 13.Wherein, heating module 20 be located at first son it is indoor, refrigeration module 30 is located between the second son It is indoor.Heating module 20 can also be located at second son it is indoor, refrigeration module 30 be located at first son it is indoor.

It is indoor that refrigeration module 30 and heating module 20 are located at different sons, 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 Figure 1, Figure 2, shown in Fig. 4 and Fig. 7, shell 10 has upper and lower spaced first partition 111, second partition 121 and third partition board 131, first partition 111 can be located on point water hull body 11, second partition 121 can be located at heated shell On 12, third partition board 131 is located on refrigeration shell 13.The first connecting plate is equipped between first partition 111 and second partition 121 122, the first connecting plate 122 is connected with second partition 121 and cooperatively forms heated shell 12 with second partition 121.Second partition The second connecting plate 132 is equipped between 121 and third partition board 131, the second connecting plate 132 is connected with second partition 121 and with second Partition board 121 cooperatively forms refrigeration shell 13.

Water outlet water route 14 can be located in refrigeration shell 13, and water outlet water route 14 can also be located in heating shell 10, water outlet Water route 14 can also be located in point water hull body 11.Water outlet water route 14 can also a part be located at heating shell 10 in, a part is set In heating shell 10, remaining part setting is dividing in water hull body 11.It is possible thereby to be connected to refrigeration module for water outlet water route 14 30 and heating module 20 by convenient, and the input end that be discharged water route 14 can be located to neighbouring refrigeration module 30 and heating The position of module 20, and then provided conveniently for the installation of refrigeration module 30 and heating module 20, be conducive to promote refrigeration module 30 With the connection seal of heating module 20.

By the way that first partition 111, second partition 121 and third partition board 131 are arranged on the housing 10, water process can be filled Each parts space for setting 100 opens arrangement, and effect is interfered with each other 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 utilize 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 30, it is conducive to extend refrigeration The service life of module 30 and heating module 30.

As shown in Fig. 2, in the present embodiment, shell 10 further includes：Third connecting plate 112, third connecting plate 112 is around the One partition board 111 is arranged and vertically upwardly extends, and third connecting plate 112 coordinates structure to set out upper surface with first partition 111 Open point of water chamber.

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

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

Specifically, in the present embodiment, water outlet water route 14 includes：First water outlet water route 141 and second is discharged water route 142, The sub- water route that first water outlet water route 141 can be sequentially connected end to end in turn by several forms, if the second water outlet 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 water outlet water route 141 is connect with the water outlet of heating module 20, going out in the first water outlet water route 141 Hot water is discharged outward for users to use in mouth end.The input end in the second water outlet water route 142 is connect with the water outlet of heating module 20, the Cold water is discharged outward for users to use in the outlet end in two water outlet water routes 142.

It is discharged water route 142 by the first water outlet of setting water route 141 and second, can be heating module 20 and refrigeration module 30 It is convenient that water outlet provides, and ensures that the flow in refrigeration module 30 and heating module 20 is spaced apart outflow successively, prevents hot water and cold water Mixed influence effluent quality, and can be that user's water passes through conveniently.

Sub- water route in shell 10, a part vertically extend, and another part is horizontally extending, adjacent 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 outlet water can be shortened The total length on road 14.

As shown in figure 3, one embodiment according to the present utility model, the first water outlet water route 141 include：1411 He of first segment Second segment 1412, first segment 1411 are connected with second segment 1412, and first segment 1411 is formed in first partition 111 and along vertical side To upwardly extending, first segment 1411 is connect with the water outlet of heating module 20 or refrigeration module 30, second segment 1412 along first every The radial direction of plate 111 extends outwardly.

In general, first segment 1411 and second segment 1412 can be located in first partition 111, first segment 1411 is along perpendicular For histogram to extension, the water outlet of heating module 20 is located at the top of refrigeration module 30, the lower end connection refrigeration mould of first segment 1411 The water outlet of block 30.The upper end of one end connection first segment 1411 of second segment 1412, the other end of second segment 1412 along first every Plate 111 extends radially outwardly, and the angle between first segment 1411 and second segment 1412 is 90 °.

Not only the hot water in heating module 20 can smoothly be exported for users to use as a result, moreover it is possible to shorten the first water outlet The length in water route 141, and it can be the first water outlet water route 141 and heating module 20 that first segment 1411, which vertically extends, It is convenient that connection provides, and is conducive to promote the connection seal between the first water outlet water route 141 and heating module 20.Second segment 1412 Along extending radially outwardly for first partition 111, it can fetch water and be provided conveniently for user.

Wherein, the aperture of first segment 1411 is more than second segment 1412, and the aperture of first segment 1411 is larger, can be first segment It is convenient that 1411 connection heating modules 20 provide.Further, the aperture of first segment 1411 gradually increases, that is to say, that first segment 1411 aperture gradually increases along the axis direction of first segment 1411, and first segment 1411 is facilitated to be connected to heating module 20, Er Qieke To prevent that flow leakage occurs between heating module 20 and first segment 1411.

As shown in Fig. 3, Fig. 4 and Fig. 6, one embodiment according to the present utility model, the second water outlet water route 142 includes：The Three section 1421, the 4th section 1422, the 5th section 1423, the 6th section 1424 and the 7th section 1425, third section 1421, the 4th section 1422, 5th section 1423, the 6th section 1424 and the 7th section 1425 joins end to end to form the second water outlet water route 142 successively.Second water outlet water route 142 input end is located in third section 1421, and the input end in third section 1421 is connect with the water outlet of refrigeration module 30, third Section 1421 and the 4th section 1422 be both formed on second partition 121, the 6th section 1424 and the 7th section 1425 is formed in first partition On 111, the 5th section of 1423 part is formed on the second connecting plate 132, and another part is formed in first partition 111, wherein 4th section 1422, the 6th section 1424 and the 7th section 1425 radial direction along shell 10 extends, and third section 1421 and five sections are along perpendicular Histogram is to upwardly extending.

Second water outlet water route 142 of above structure, it is ensured that the flow in refrigeration module 30 smoothly flows out, and eliminates External water pipe, simplifies the assembly technology of refrigeration module 30.Integrally fusion is formed in shell 10 in each section of water route, is improved The strength and stability in each section of water route, and improve the seal between adjacent sub- water route.

Wherein, the folder between the angle between third section 1421 and the 4th section 1422, the 4th section 1422 and the 5th section 1423 At least one of angle, the 5th section of 1423 angle between the 6th section 1424 and the 6th section 1424 and the 7th section 1425 are 90 °, It can all be 90 °.It is arranged vertically between adjacent sectional, it is simple in structure, facilitate arrangement, and the production of shell 10 can be reduced The difficulty of technique.

Wherein, connector is equipped between the 5th section of 1423 part and another part, connector one end is embedded in the 5th section 1423 part, the other end of connector is embedded in the 5th section 1423 another part.

When the first connecting plate 122 is connected with the second connecting plate 132, between the 5th section of 1423 part and another part It is tightly connected by connector.It is possible thereby to extend, the 5th section of 1423 development length in the vertical direction, ensure that flow can be with Successfully flowed out from refrigeration module 30.And the difficulty of the production technology of shell 10 can be reduced, it is production and the dress of shell 10 With providing a convenient.

Wherein, sealed connecting component is substantially in the rubber parts of dumbbell shaped, and sealed connecting component includes：Interconnecting piece and two insertions Portion, two embedded divisions are connected to the both ends of interconnecting piece, and are equipped with through-hole on two embedded divisions, and connection two is defined in interconnecting piece The mistake water flow passage of a through-hole.When first connecting plate 122 is connected with first partition 111, one of embedded division stretches into the 5th section In 1423 top half, another embedded division accordingly stretches into the 5th section 1423 of lower half portion.The periphery wall of embedded division Internal perisporium with the 5th section 1423 seals cooperation, crosses upper semisection and lower semisection that water flow passage is connected to the 5th section 1423.

The sealed connecting component of above structure, it is simple in structure, it is easy to make, can not only promote the 5th section 1423 of upper semisection With the connection seal of lower semisection, and the connective stability between the first connecting plate 122 and first partition 111 can be promoted.

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

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

The water route internal diameter of different interior diameters is set, can be the company in water outlet water route 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, hot water effluent channel 141 or the aperture of cold water exhalant canal 142 are 5-20 millimeters, that is to say, that first goes out The interior diameter that water water route 141 and second is discharged each pipeline section in water route 142 is 5-20 millimeters.First vertical extended segment, first level Extended segment, the second vertical extended segment, the vertical extended segment of third, the second horizontal extension section and the second vertical extended segment internal diameter be 5-20 millimeters.The water supply requirement of water treatment facilities 100 can not only be met, moreover it is possible to which the occupancy for utmostly reducing the water routes Fen Shui is empty Between.

Shell 10 is moulding, such as is formed by material preparations such as PP, PC, PE, POM, and water outlet water route 14 passes through core pulling work Skill is formed, and shell 10 prepared by polypropylene material is simple in structure, and the difficulty of manufacture craft is relatively low, and easy to process, can drop The production cost of low shell 10.And the Fen Shuishui that the shell 10 that is prepared of polypropylene material is made by core pulling technique The vias inner walls on road, the water routes Fen Shui are smooth, and incrustation scale is not easy to precipitate, and water quality is avoided to pollute, and improve the confession of water treatment facilities 100 Water quality, and the water routes Fen Shui of core pulling technique making can promote the quality in the water routes Fen Shui, and the internal perisporium in the water routes Fen Shui is smooth Arrangement, can reduce resistance of the flow in the water routes Fen Shui 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 should be understood that the orientation of the instructions such as term "upper", "lower", "inner", "outside" Or position relationship is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of description the utility model and simplification is retouched It states, does not indicate or imply the indicated device or element must have a particular orientation, with specific azimuth configuration and operation, Therefore it should not be understood as limiting the present invention.

In the present invention unless specifically defined or limited otherwise, fisrt feature the "upper" of second feature or it "lower" may include that the first and second features are in direct contact, and can also not be to be in direct contact but lead to including the first and second features Cross the other characterisation contact between them.Moreover, fisrt feature second feature " on ", " top " and " above " include the One feature is right over second feature and oblique upper, or is merely representative of fisrt feature level height and is higher than second feature.First is special Sign second feature " under ", " lower section " and " below " include fisrt feature right over second feature and oblique upper, or only Indicate that fisrt feature level 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 contained at least one embodiment or example of the utility model.In the present specification, to the schematic table of above-mentioned term It states and may not refer to the same embodiment or example.Moreover, particular features, structures, materials, or characteristics described can be It can be combined in any suitable manner in any one or more embodiments or example.

Although the embodiments of the present invention have been shown and described above, it is to be understood that above-described embodiment is Illustratively, it should not be understood as limiting the present invention, those skilled in the art are not departing from the utility model Principle and objective in the case of above-described embodiment can be changed in the scope of the utility model, change, replace and Modification.

Claims (11)

1. a kind of shell for water treatment facilities, which is characterized in that integrally fusion is formed with water outlet water route to the shell, this goes out Water water route tool is there are one 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 is interconnected with the hot water outlet end and forms hot water effluent 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 exhalant canal, and the water outlet water route includes the sub- water route of multistage, every section of sub- water route Head and the tail are interconnected to form a complete hot water effluent channel or cold water exhalant canal.

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

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

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

5. the shell according to claim 1 for water treatment facilities, which is characterized in that the aperture in sub- water route described in multistage It is identical.

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 different.

7. the shell according to claim 1 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.

8. the shell according to claim 1 for water treatment facilities, which is characterized in that adjacent two sections of sub- water routes Angle is 90 °.

9. the shell according to claim 1 for water treatment facilities, which is characterized in that hot water effluent channel or institute The aperture for stating cold water exhalant canal is 5-20 millimeters.

10. the shell according to claim 1 for water treatment facilities, which is characterized in that the shell is moulding.

11. the shell according to claim 1 for water treatment facilities, which is characterized in that the water outlet water route passes through pumping Core technique is formed.