CN208551315U - Divide water module and water dispenser - Google Patents

Abstract

The utility model discloses one kind and divides water module and water dispenser, wherein, described point of water module is used for water dispenser, the water dispenser includes water treating module, the water treating module is located at the lower section for dividing water module, described that water module is divided to include: a point water hull body, described to divide water hull body to have to divide water cavity, the bottom of described point of water cavity offers inlet opening, and room temperature water outlet and/or processing water water outlet are offered on the lateral wall for dividing water hull body；The lower part for dividing water hull body is provided with water outlet flow path, water treating module described in the water outlet fluid communication and the processing water water outlet, and/or, inlet opening described in the water outlet fluid communication and the room temperature water outlet.Technical solutions of the utility model make the compact-sized of water dispenser.

Description

Divide water module and water dispenser

Technical field

The utility model relates to water dispenser technical field, in particular to one kind divides water module and water dispenser.

Background technique

With the development of economy, the improvement of people's living standards, requirement of the people to water dispenser are higher and higher.Existing drink Water dispenser, the water route between internal cut water point, heating part or refrigerating part, is made of scattered water pipe, these pipes Road complicated arrangement in the shell of water dispenser.So that the structure of water dispenser is lengthy and jumbled, influence each other between each water pipe, it is unfavorable In the work of water dispenser.

Utility model content

The main purpose of the utility model is to provide one kind and divides water module, it is intended to which the compactedness for improving water dispenser structure mentions The job stability of high water dispenser.

To achieve the above object, the utility model proposes divide water module, be used for water dispenser, the water dispenser includes at water Manage module, the water treating module is located at the lower section for dividing water module, described to divide the water module to include:

Divide water hull body, described to divide water hull body with water cavity is divided, the bottom for dividing water cavity offers inlet opening, described to divide water Room temperature water outlet and/or processing water water outlet are offered on the lateral wall of shell；

The lower part for dividing water hull body is provided with water outlet flow path, water treating module and institute described in the water outlet fluid communication Processing water water outlet is stated, and/or,

Inlet opening described in the water outlet fluid communication and the room temperature water outlet.

Preferably, the water outlet flow path is located at the lower section for dividing water cavity.

Preferably, the water outlet flow path is combined by apopore road forms, and the apopore road, which is formed in, described divides water hull body The water inlet of inside, the apopore road is connected to the inlet opening and/or water treating module so that from the inlet opening and/ Or the water that water treating module flows into is flowed out through the apopore road from the processing water water outlet and/or the room temperature water outlet.

Preferably, the apopore road by it is described divide on water hull body carry out core pulling or aperture and is formed.

Preferably, the water treating module includes heating module, and the heating module has heating channel；

The processing water water outlet includes hot water outlet；

The apopore road includes hot water outlet hole road, and the hot water outlet hole road is connected to the heating channel and the heat Water water outlet.

Preferably, the hot water outlet hole road includes along the radial section radially extended for dividing water hull body, and/or along institute State the axial direction part that the short transverse of point water hull body extends.

Preferably, the water treating module includes refrigeration module, and the refrigeration module has refrigeration circuit；

The processing water water outlet includes cold water water outlet；

The apopore road includes cold water apopore road, and cold water apopore road is connected to the refrigeration circuit and described cold Water water outlet.

Preferably, cold water apopore road includes along the traversing section radially extended for dividing water hull body, and/or along institute State the longitudinal sections that the short transverse of point water hull body extends.

Preferably, the processing water water outlet includes cold water water outlet and/or hot water outlet；

The apopore road includes cold water apopore road, hot water outlet hole road, and the connection inlet opening and it is described often One or more of room temperature apopore road of warm water outlet；

The room temperature water outlet, hot water outlet and cooling water outlet are circumferentially arranged at the same layer for dividing water hull body； The traversing section on cold water apopore road, the radial section on hot water outlet hole road and room temperature apopore road are located at described point The same layer of water hull body.

Preferably, described that water module is divided to have point water flow road, described point of water flow routing tapping hole road combines to be formed, and described point Water enclosure interior is divided described in being formed in water hole road, and the water inlet on the tapping hole road is connected to the inlet opening, so that described in The water that inlet opening flows into is shunted along the tapping hole road.

Preferably, the tapping hole road by it is described divide on water hull body carry out core pulling and or aperture formed.

Preferably, the tapping hole road includes dividing water hull body radially-arranged radial component along described；

The apopore road of the water outlet flow path includes along the lateral part of the shell cross direction profiles；

The radial component and the lateral part are located at the same layer for dividing water hull body.

Preferably, the water outlet flow path includes:

It is discharged the tank circuit, the water outlet tank circuit is opened on the shell；

Outlet pipeline, the outlet pipeline are arranged along the water outlet tank circuit, and are installed in the water outlet tank circuit；

The water inlet of the outlet pipeline is connected to the inlet opening and/or water treating module, so that from the inlet opening And/or water treating module flow into water through the outlet pipeline, from the processing water water outlet and/or the room temperature water outlet Outflow.

Preferably, the processing water water outlet includes cold water water outlet and/or hot water outlet；

The water outlet tank circuit includes cold water the water outlet tank circuit, hot water effluent's tank circuit, and the connection inlet opening and it is described often One or more of room temperature water outlet tank circuit of warm water outlet；

The room temperature water outlet, hot water outlet and cooling water outlet are circumferentially arranged at the same layer for dividing water hull body； The traversing section of the cold water water outlet tank circuit, the radial section of hot water effluent's tank circuit and the room temperature water outlet tank circuit are located at described point The same layer of water hull body.

Preferably, described to divide water hull body cylindrical setting, the inside for dividing water hull body is arranged in the water outlet flow path.

The utility model further provides for a kind of water dispenser, including divides water module, and the water dispenser includes water treating module, The water treating module is located at the lower section for dividing water module, described to divide the water module to include:

Divide water hull body, described to divide water hull body with water cavity is divided, the bottom for dividing water cavity offers inlet opening, described to divide water Room temperature water outlet and/or processing water water outlet are offered on the lateral wall of shell；

The lower part for dividing water hull body is provided with water outlet flow path, water treating module and institute described in the water outlet fluid communication Processing water water outlet is stated, and/or,

Inlet opening described in the water outlet fluid communication and the room temperature water outlet.

In technical solutions of the utility model, since water outlet flow path is located on the side wall and/or bottom wall of point water cavity, make score water The positional relationship between pipeline structure, connection relationship in module are perfectly clear so that water outlet flow path hot water effluent's flow path and Cold water is discharged between flow path there is no intersecting, and avoids the occurrence of influencing each other between each pipeline, divides water mould to effectively improve The stability in use of block effectively raises the stability in use of water dispenser；It is arranged on shell by the way that flow path will be discharged, so that Divide the structure of water module more compact, is improved the stability of score water module；By the way that water module will be divided to be separately provided, make Score water module can be adapted to multiple water treatment module, such as heating module, refrigeration module, so that water module is divided to use Flexibility is significantly improved；Meanwhile user can carry out assembled water dispenser according to their own needs, so that busier satisfaction is used for Actual demand.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor Under, the structure that can also be shown according to these attached drawings obtains other attached drawings.

Fig. 1 is the structural schematic diagram of one embodiment of the utility model water dispenser；

Fig. 2 is the structural schematic diagram for dividing one embodiment of water module of the utility model water dispenser；

Fig. 3 is the structural schematic diagram of another angle of Fig. 2；

Fig. 4 is the overlooking structure diagram of Fig. 2；

Fig. 5 is the schematic diagram of internal structure that Fig. 2 is looked up；

Fig. 6 is the structural schematic diagram for dividing another embodiment of water module of the utility model water dispenser；

Fig. 7 is the structural schematic diagram of one embodiment of heating module of the utility model water dispenser；

Fig. 8 is the structural schematic diagram of another angle of Fig. 7；

Fig. 9 is the schematic diagram of internal structure that Fig. 7 is looked up；

Figure 10 is the structural schematic diagram of one embodiment of heating module of the utility model water dispenser；

Figure 11 is the schematic diagram of internal structure that Figure 10 is looked up；

Figure 12 is the structural schematic diagram of one embodiment of heating module of the utility model water dispenser；

Figure 13 is the structural schematic diagram of another embodiment of the utility model water dispenser.

Drawing reference numeral explanation:

The embodiments will be further described with reference to the accompanying drawings for the realization, functional characteristics and advantage of the utility model aim.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describing, it is clear that described embodiment is only a part of the embodiment of the utility model, rather than all Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are not making creative work premise Under every other embodiment obtained, fall within the protection scope of the utility model.

It is to be appreciated that the directional instruction (such as up, down, left, right, before and after ...) of institute in the utility model embodiment It is only used for explaining in relative positional relationship, the motion conditions etc. under a certain particular pose (as shown in the picture) between each component, such as When the fruit particular pose changes, then directionality instruction also correspondingly changes correspondingly.

In addition, the description for being related to " first ", " second " etc. in the present invention is used for description purposes only, and cannot understand For its relative importance of indication or suggestion or implicitly indicate the quantity of indicated technical characteristic.Define as a result, " first ", The feature of " second " can explicitly or implicitly include at least one of the features.In addition, the technical side between each embodiment Case can be combined with each other, but must be based on can be realized by those of ordinary skill in the art, when the combination of technical solution Conflicting or cannot achieve when occur will be understood that the combination of this technical solution is not present, also not in the requires of the utility model Protection scope within.

The utility model mainly proposes a kind of water dispenser, and the water dispenser by water for being heated, being freezed or other places Reason.The water dispenser may include one or more of a point water module 100, heating module 200 and refrigeration module 300, the i.e. drink Water dispenser can be heated and/or be freezed to water.The water dispenser has the function of a point water, effluent functions, heating function, refrigeration function Dirt eliminating function, transitional water function can, be cleaned (when water dispenser includes simultaneously a point water module 100, heating module 200 and refrigeration module When 300, water needs to set in the module flowed through from when water module 100 being divided to enter another module after flowing through a module Water flow road was set, for example, dividing the water in water module 100, was needed behind the mistake water flow road on heating module 200, refrigeration is flowed into Module 300 is freezed；For another example refrigeration module 300 freeze after water, need through mistake water flow road, return to point water module 100 into Row water outlet etc.) etc., above-mentioned function can configure according to actual needs is dividing water module 100, heating module 200 or refrigeration module On one or more of 300.It cites a plain example and is illustrated, divide water function by dividing water module 100 to realize, heat function It can be realized by heating module 200, refrigerating function is realized by refrigeration module 300, and effluent functions and cleaning dirt eliminating function then can be with It is arranged on dividing water module 100, heating module 200 or refrigeration module 300 according to different situations.That is, multiple functions can be with It is combined according to actual needs with multiple modules, to realize many different executable embodiments.It avoids writing It is left in journey, makes unified description herein, all features that can be used for other embodiments in present example can be with It is incorporated into other embodiments.

One of important inventive point of the application is, (divides major function to water function, effluent functions, heating function, refrigeration Function, cleaning dirt eliminating function, transitional water function) itself possessed pipeline, or the pipeline between each function is connected, fitting is solid Determine to dividing on the shell of water module 100, heating module 200 or system energy module, so that pipeline and the shell of module are closely solid It is scheduled on together, i.e., is integrated in pipeline in the structure of each module itself, while sufficiently having saved space, so that each modular structure It is uniform between compact, each pipeline, so that the work of each module avoids being influenced by pipeline is lengthy and jumbled, so that each module work Work is stablized；

The another important inventive point of the application is, divides water hull body 110, heating module 200 to heat divide water module 100 On the side wall of one or more of the refrigeration shell 310 of shell 210 and refrigeration module 300, the line passed through for conducting wire is offered Slot, wire casing can be provided with the inside of shell, can also be provided with a point water hull body 110, heated shell 210 and/or refrigeration shell On 310 lateral wall；By the way that wire casing is integrated on shell, when being especially integrated on the lateral wall of shell, so that conducting wire It arranges very clear, regular, the installation, removal, replacement of conducting wire very operated quickly and conveniently, passes through the regular rule arranged to wire casing It draws, so that arrangement of the conducting wire on shell or water dispenser is very regular, avoids the occurrence of conducting wire entanglement and cause showing for safety accident As simultaneously as wire casing and flow path are mutually indepedent, conducting wire is no longer influenced by the threat of water；By the setting of wire casing, so that each module Structure it is more compact, the structure of each module is more orderly, and the utilization rate of space structure is further improved；

Another important inventive point of the application is that, by water dispenser according to its function, modularization (divides water module 100, heating Module 200 and refrigeration module 300) so that each functional module can individualism, and realize its function, it is important that can With can also be with for example, divide water module 100 can individually and the combination of heating module 200 with other function module any combination Refrigeration module 300 individually combines, so set, the combined flexibility of water dispenser can be significantly increased, allows user's root It according to the demand of oneself, is arbitrarily combined, greatly improves the satisfaction of the individual demand of client；Simultaneously as module Change, when water dispenser some module when something goes wrong, do not need that whole water diversion machine is repaired or replaced, only need to for spy Fixed functional module is repaired or is replaced, so that the maintenance, repair of water dispenser and replacement are more convenient, is avoided The waste for causing the intact funtion part of water dispenser, is adequately and reasonably utilized resource.

Below by the specific structure of main description water heater.

Referring to figs. 1 to Figure 13, the module that water dispenser may include and the function having clearly are taught above, under Face will be first directed to respectively divides water module 100, heating module 200 and refrigeration module 300 to be described in detail, then will describe respectively Point between water module 100 and heating module 200, divide between water module 100 and refrigeration module 300, heating module 200 and refrigeration Connection relationship and positional relationship between module 300.

Divide water module 100, dividing water module 100 includes dividing water hull body 110, divides water hull body 110 to have and divides water cavity 120, divides water The bottom of chamber 120 has the inlet opening 121 of entire water dispenser water circuit system.The shape of point water hull body 110 can have very much, with For column, the shape of cross section can be triangle, polygon, circle, ellipse etc., not do particular determination herein, with For rounded setting, the circle at this can have recess or protrusion due to actual demand certainly.Described point of water hull body 110 With water cavity 120 is divided, the bottom for dividing water cavity 120 offers inlet opening 121；In the side wall for dividing water cavity 120 and/or Bottom is provided with a point water flow road 130, described that water flow road 130 is divided to be connected to the inlet opening 121.Described point of water flow road 130 is by dividing The combination of water hole road 140 is formed, the tapping hole road 140 be formed in it is described divide inside water hull body 110, the tapping hole road 140 Water inlet is connected to the inlet opening 121, so as to be divided from the water that the inlet opening 121 flows into along the tapping hole road 140 Stream.

Divide water module 100 to have and divide water flow road 130, point water flow road 130 is arranged on dividing water hull body 110, is arranged in other words On the side wall and/or bottom wall for dividing water cavity 120.By will be for a point water flow road 130 be located at the bottom of point water cavity 120, by that will divide Water flow road 130 is located at the bottom of point water cavity 120, and the water level in score water flow road 130 is made to be lower than the water level divided in water cavity 120, from And make the water in score water flow road 130, it can be flowed under the action of flow of water difference, to increase the mobility of water.Divide water flow road 130 It is the cold water water inlet flow path that refrigeration module 300 supplies water including the hot water water inlet flow path to supply water for heating module 200, and directly It is one or more in the normal-temperature water flow path of normal-temperature water out.Hot water water inlet flow path, cold water water inlet flow path and normal-temperature water flow path enter The mouth of a river is connected to inlet opening 121.

The setting on point water flow road 130, independent of the presence of heating module 200 and refrigeration module 300, but heating module 200 and refrigeration module 300 in the presence of, it is inevitable have divide water flow road 130.By taking hot water intakes flow path as an example, when water dispenser does not wrap When including heating module 200, a point water flow road 130 may include hot water water inlet flow path, to improve the adaptability for dividing water module 100, I.e. this divides water module 100 to can be adapted for a plurality of water dispensers；When water dispenser includes heating module 200, a point water flow road 130 is then answered When including hot water water inlet flow path, to provide water for heating module 200.

Wherein, point fitting of water flow road 130 is arranged on dividing water hull body 110, and the side wall of point water cavity 120 is arranged in other words And/or the mode of bottom has very much, introduces two kinds below by citing.

The first, a point water flow road 130 is directly provided in point water hull body 110, can by forms such as core pulling, drillings, As long as the mode that can form Kong Lu on the ontology for dividing water hull body 110 is ok, so that water passes through from Kong Luzhong, with to greatest extent Regular point of water flow road 130 and divide the relationship between water hull body 110.It is worth noting that the flow path that Kong Luwei is formed with holes, i.e., Water is to flow in hole to reach preset position.

In order to distinguish the Kong Lu of other modules, Kong Luwei tapping hole road 140 corresponding with water flow road 130 is divided, tapping hole road 140 include mutually independent hot water inlet hole road 142 and cold water inlet hole road 141, and normal-temperature water apopore road 183 both can be used as The a part on tapping hole road 140 can also be used as a part on apopore road 180.Wherein, the cold water inlet hole road 141, Hot water inlet hole road 142 and room temperature apopore road 180 extend from the inlet opening 121 to different direction.To ensure each Kong Lu Between it is non-interference, meanwhile, also reserve enough spaces for following bottoming hole road 240 and/or refrigeration hole road 340.

Hot water inlet hole road 142 extends to heating module 200 from inlet opening 121, by water from inlet opening 121 transport to Heating module 200.Hot water inlet hole road 142 includes along the radial section radially extended for dividing water hull body 110, and/or along institute The axial direction part that the short transverse of point water hull body 110 extends is stated, so that hot water inlet hole road 142 can extend to a point water hull body 110 positions arbitrarily needed.It is worth noting that the radial section on hot water inlet hole road 142 and the quantity of axial direction part, Ke Yigen It is configured according to actual demand, to meet the needs of hole road extension.Radial section and the mode of axial direction part arrangement have very much, name One example illustrates the arrangement mode of radial section and axial direction part:

The middle position of 120 bottom of point water cavity is arranged in inlet opening 121, and one end of radial section is connected to inlet opening 121, The other end is extended in a radial direction to the edge for dividing water hull body 110, one end and radial section of axial direction part far from inlet opening 121 one End connection, the other end along dividing the short transverse of water hull body 110 to extend to a point bottom for water hull body 110, with hot-water module plus Hot flowpath 230 is connected to.

Cold water inlet hole road 141 extends to refrigeration module 300 from inlet opening 121, by water from inlet opening 121 transport to Refrigeration module 300.Cold water inlet hole road 141 includes along the traversing section radially extended for dividing water hull body 110, and/or along institute The vertical section that the short transverse of point water hull body 110 extends is stated, so that cold water inlet hole road 141 can extend to a point water hull body 110 position arbitrarily needed.It, can be with it is worth noting that the traversing section on cold water inlet hole road 141 and the quantity of vertical section It is configured according to actual needs, to meet the needs of hole road extension.Traversing section and the mode of vertical section arrangement have very much, below It gives one example to illustrate the arrangement mode of traversing section and vertical section:

The middle position of 120 bottom of point water cavity is arranged in inlet opening 121, and one end of traversing section is connected to inlet opening 121, The other end is extended in a radial direction to the edge for dividing water hull body 110, one end and traversing section of vertical section far from inlet opening 121 one End connection, the other end is along dividing the short transverse of water hull body 110 to extend to a point bottom for water hull body 110, with the system with cold water module Cold flow road 330 is connected to, or crosses water fluid communication with cold water.

In some embodiments, in order to further improve the utilization rate in space, make the structure of score water hull body 110 more Step up to gather, the traversing section on the radial section on hot water inlet hole road 142 and cold water inlet hole road 141, which is located at, divides the same of water hull body 110 Layer.Certainly, in some embodiments, room temperature apopore road 180 is also located at the radial section on hot water inlet hole road 142 and divides water hull body 110 same layer.

Second, a point water flow road 130 is provided in point water hull body 110, forms bypass channel road in water hull body 110 dividing 150, generation type can open up for injection molding or following process, as long as the tank circuit can be formed on the ontology for dividing water hull body 110 Mode is ok.Point water flow road 130 further includes water-division pipeline 155, and the water-division pipeline 155 is set along the bypass channel road 150 It sets, and is installed in the bypass channel road 150, the water inlet of the water-division pipeline 155 is connected to the inlet opening 121, so that The water flowed into from the inlet opening 121 is shunted along the water-division pipeline 155.Water-division pipeline 155 is made of water pipe, Ke Yiwei Hose, or hard water pipe.So that water passes through from distributive pipe, with maximum regular water-division pipeline 155 and Fen Shui Relationship between shell 110.It is worth noting that bypass channel road 150 is the flow path extended to form by groove, the i.e. flowing of water Direction is consistent with the flow direction on bypass channel road 150, to reach preset position.Described point of water flow road 130 includes: bypass channel road 150, the bypass channel road 150 is opened on the shell；Water-division pipeline 155, the water-division pipeline 155 is along the bypass channel Road 150 is arranged, and is installed in the bypass channel road 150, and the water inlet of the water-division pipeline 155 and the inlet opening 121 connect It is logical, so as to be shunted from the water that the inlet opening 121 flows into along the water-division pipeline 155.

In order to distinguish the tank circuit of other modules, the tank circuit corresponding with water flow road 130 is divided is bypass channel road 150, bypass channel road 150 include the mutually independent hot water water inlet tank circuit 152 and cold water is intake the tank circuit 151, and the normal-temperature water water outlet tank circuit both can be used as point The a part on sink road 150 can also be used as a part of the water outlet tank circuit.Wherein, the cold water water inlet tank circuit 151, hot water into Sink road 152 and room temperature are discharged the tank circuit and extend from the inlet opening 121 to different direction.To ensure not do mutually between each tank circuit It relates to, meanwhile, also enough spaces are reserved for the following heating tank circuit and/or the refrigeration tank circuit.

The hot water water inlet tank circuit 152, extends to heating module 200 from inlet opening 121, and the guidance of water-division pipeline 155 is extremely added Thermal modules 200.The hot water water inlet tank circuit 152 includes along the radial section radially extended for dividing water hull body 110, and/or along described The axial direction part for dividing the short transverse of water hull body 110 to extend, so that the hot water water inlet tank circuit 152 can extend to a point water hull body 110 The position arbitrarily needed.It is worth noting that the radial section of the hot water water inlet tank circuit 152 and the quantity of axial direction part, it can basis Actual demand is configured, to meet the needs of tank circuit extension.Radial section and the mode of axial direction part arrangement have very much, name one A example illustrates the arrangement mode of radial section and axial direction part:

The middle position of 120 bottom of point water cavity is arranged in inlet opening 121, and one end of radial section is corresponding with inlet opening 121 to be set It sets, the other end is extended in a radial direction to the edge for dividing water hull body 110, and one end of axial direction part and radial section are far from inlet opening 121 One end connection, the other end is along dividing the short transverse of water hull body 110 to extend to a point bottom for water hull body 110, to hot water mould The heating channel 230 of block.

The cold water water inlet tank circuit 151, extends to refrigeration module 300 from inlet opening 121, by the guidance of water-division pipeline 155 to system Cold module 300.The cold water water inlet tank circuit 151 includes along the traversing section radially extended for dividing water hull body 110, and/or along described The vertical section for dividing the short transverse of water hull body 110 to extend, so that the cold water water inlet tank circuit 151 can extend to a point water hull body 110 The arbitrarily position that needs.It is worth noting that the traversing section of the cold water water inlet tank circuit 151 and the quantity of vertical section, Ke Yigen It is configured according to actual demand, to meet the needs of tank circuit extension.Traversing section and the mode of vertical section arrangement have very much, name One example illustrates the arrangement mode of traversing section and vertical section:

One end of traversing section corresponds to the setting of inlet opening 121, and the other end is extended in a radial direction to the side for dividing water hull body 110 One end of edge, vertical section is connected to traversing section far from one end of inlet opening 121, and the other end is along the short transverse for dividing water hull body 110 A point bottom for water hull body 110 is extended to, is correspondingly arranged with the refrigeration circuit 330 with cold water module, or crosses water flow road with cold water It is correspondingly arranged.

In some embodiments, in order to further improve the utilization rate in space, make the structure of score water hull body 110 more Step up to gather, hot water water inlet the tank circuit 152 radial section and cold water water inlet the tank circuit 151 traversing section be located at divide the same of water hull body 110 Layer.Certainly, in some embodiments, the room temperature water outlet tank circuit is also located at the radial section of the hot water water inlet tank circuit 152 and divides water hull body 110 Same layer.

Water dispenser has water outlet flow path 170, by the hot water of heating module 200, the cold water of refrigeration module 300 and normal-temperature water Water dispenser is discharged.The position that water outlet flow path 170 can be set has very much, such as divides water module 100, heating module 200 or refrigeration Module 300, to be arranged for dividing in water module 100.

Divide water module 100 that there is water outlet flow path 170, water outlet flow path 170 is arranged on dividing water hull body 110, is arranged in other words On the side wall and/or bottom wall for dividing water cavity 120.For it will be discharged flow path 170 and be located at the bottom of point water cavity 120, by that will go out Water flow road 170 is located at the bottom of point water cavity 120, so that the water level in water outlet flow path 170 is lower than the water level divided in water cavity 120, from And make the water being discharged in flow path 170, it can be flowed under the action of flow of water difference, to increase the mobility of water.It is discharged flow path 170 Including being discharged flow path 170 for cold water to be discharged to the cold water of water dispenser for hot water effluent's flow path 170 of hot water discharge water heater, with And directly go out normal-temperature water normal-temperature water flow path in it is one or more.Hot water effluent's flow path 170, cold water water outlet flow path 170 and often The water inlet of warm water water outlet flow path 170 is connected to inlet opening 121.

The water dispenser includes water treating module, and the water treating module is located at the lower section for dividing water module 100, described Point water module 100 includes: a point water hull body 110, described to divide water hull body 110 to have to divide water cavity 120, the bottom for dividing water cavity 120 Inlet opening 121 is offered, room temperature water outlet 113 and/or processing water water outlet are offered on the lateral wall for dividing water hull body 110 Mouthful；The lower part for dividing water hull body 110 is provided with water outlet flow path 170, the water outlet flow path 170 is connected to the water treating module With the processing water water outlet, and/or, the water outlet flow path 170 is connected to the inlet opening 121 and the room temperature water outlet 113. The water outlet flow path 170 is formed by the combination of apopore road 180, and the apopore road 180 is formed in described divide in water hull body 110 Portion, the water inlet on the apopore road 180 are connected to the inlet opening 121 and/or water treating module, so that from the inlet opening 121 and/or water treating module flow into water through the apopore road 180, go out from the processing water water outlet and/or the room temperature It flows out at the mouth of a river 113.The water treating module includes heating module 200, and the heating module 200 has heating channel 230；It is described Handling water water outlet includes hot water outlet 112；The apopore road 180 includes hot water outlet hole road 182, the hot water effluent Hole road 182 is connected to the heating channel 230 and the hot water outlet 112.The water treating module includes refrigeration module 300, The refrigeration module 300 has refrigeration circuit 330；The processing water water outlet includes cold water water outlet 111；The apopore road 180 include cold water apopore road 181, and cold water apopore road 181 is connected to the refrigeration circuit 330 and the cold water water outlet 111。

It is discharged the setting of flow path 170, independent of the presence of heating module 200 and refrigeration module 300, but heating module 200 and refrigeration module 300 in the presence of, it is inevitable that there is water outlet flow path 170.By taking hot water effluent's flow path 170 as an example, when water dispenser not When including heating module 200, water outlet flow path 170 may include hot water effluent's flow path 170, divide the suitable of water module 100 to improve this Ying Xing, i.e., this divide water module 100 to can be adapted for a plurality of water dispensers；When water dispenser includes heating module 200, it is discharged flow path 170 should include hot water effluent's flow path 170, and water dispenser is discharged in the hot water that heating module 200 is heated.

Wherein, the fitting of water outlet flow path 170 is arranged on dividing water hull body 110, and side wall and/or the bottom of point water cavity 120 is arranged in The mode in portion has very much, introduces two kinds below by citing.

The first, will water outlet flow path 170 be directly provided in point water hull body 110, can by forms such as core pulling, drillings, As long as the mode that can form Kong Lu on the ontology for dividing water hull body 110 is ok, so that water passes through from Kong Luzhong, with to greatest extent Regular water outlet flow path 170 and divide the relationship between water hull body 110.It is worth noting that the flow path that Kong Luwei is formed with holes, i.e., Water is to flow in hole to reach preset position.

In order to distinguish the Kong Lu of other modules, with the water outlet corresponding Kong Luwei apopore of flow path 170 road 180, apopore road 180 include mutually independent hot water outlet hole road 182 and cold water apopore road 181, and normal-temperature water apopore road 183 both can be used as The a part on apopore road 180 can also be used as a part on tapping hole road 140.Wherein, cold water apopore road 181, Hot water outlet hole road 182 and room temperature apopore road 180 extend from the inlet opening 121 to different direction.To ensure each Kong Lu Between it is non-interference, meanwhile, also reserve enough spaces for following bottoming hole road 240 and/or refrigeration hole road 340.

Hot water outlet hole road 182 extends to hot water outlet 112 from heating module 200, by hot water from heating module To hot water outlet 112, hot water outlet 112 is provided on point lateral wall of water hull body 110 for 200 transports.Hot water outlet hole road 182 include prolonging along the radial section radially extended for dividing water hull body 110, and/or along the short transverse for dividing water hull body 110 The axial direction part stretched, so that hot water outlet hole road 182 can extend to the position that point water hull body 110 arbitrarily needs.It is worth saying Bright, the radial section on hot water outlet hole road 182 and the quantity of axial direction part can be configured according to actual needs, to meet The demand that hole road extends.Radial section and the mode of axial direction part arrangement have very much, are given one example below to illustrate radial section and axis To the arrangement mode of section:

Hot water outlet hole road 182 includes radial section and axial direction part, and the bottom-up extension of axial direction part, lower end corresponds to heated mould The position of the water outlet of block 200 is arranged, and one end of radial section is connected to axial direction part, and another section is connected to hot water outlet 112.Diameter It is connected to one end of section with hot water outlet 112, the other end is extended in a radial direction to the edge for dividing water hull body 110, axial direction part One end be connected to radial section far from one end of inlet opening 121, the other end extends to point along dividing the short transverse of water hull body 110 The bottom of water hull body 110, to be connected to the heating channel 230 of hot-water module.

Cold water apopore road 181 extends to cold water water outlet 111 from refrigeration module 300, by water from refrigeration module 300 To cold water water outlet 111, cold water water outlet 111 is provided on point lateral wall of water hull body 110 for transport.Cold water apopore road 181 Including extending along the traversing section radially extended for dividing water hull body 110, and/or along the short transverse for dividing water hull body 110 Vertical section so that cold water apopore road 181 can extend to the arbitrarily position that needs of point water hull body 110.It is worth saying Bright, the traversing section on cold water apopore road 181 and the quantity of vertical section can be configured according to actual needs, to meet The demand that hole road extends.Traversing section and the mode of vertical section arrangement have very much, are given one example below to illustrate traversing section and erect To the arrangement mode of section:

One end of traversing section is connected to cold water water outlet 111, and the other end is extended in a radial direction to the side for dividing water hull body 110 One end of edge, vertical section is connected to traversing section far from one end of inlet opening 121, and the other end is along the short transverse for dividing water hull body 110 A point bottom for water hull body 110 is extended to, to be connected to the refrigeration circuit 330 of cold water module, or with cold water crosses water fluid communication. In the present embodiment, traversing section includes the first lateral subsegment and the second lateral subsegment, and the first lateral subsegment and the second lateral subsegment are equal Along being arranged radially for water hull body 110 is divided, the two is connected to close to the one end at middle part, and certainly, this feature also can be applied to other realities It applies in example.

In some embodiments, in order to further improve the utilization rate in space, make the structure of score water hull body 110 more Step up to gather, the traversing section on the radial section on hot water outlet hole road 182 and cold water apopore road 181, which is located at, divides the same of water hull body 110 Layer.Certainly, in some embodiments, room temperature apopore road 180 is also located at the radial section on hot water outlet hole road 182 and divides water hull body 110 same layer.It is worth noting that the radial section on hot water outlet hole road 182, the traversing section on cold water apopore road 181, room temperature Apopore road 180, hot water carry out one or more of radial section and the traversing section on cold water inlet hole road 141 of Kong Lu and are located at Divide the same layer of water hull body 110.It is worth noting that the cross of the radial section on hot water outlet hole road 182, cold water apopore road 181 Extending direction to section, room temperature apopore road 180 is identical, in order to process.

Second, water outlet flow path 170 is provided in point water hull body 110, forms the water outlet tank circuit dividing in water hull body 110, Generation type can open up for injection molding or following process, as long as the side of the tank circuit can be formed on the ontology for dividing water hull body 110 Formula is ok.Being discharged flow path 170 further includes outlet pipeline, and the outlet pipeline is arranged along the water outlet tank circuit, and is installed on institute State in the water outlet tank circuit, the water inlet of the outlet pipeline is connected to the inlet opening 121 so that from the heating module 200 or The water that refrigeration module 300 enters flows out water dispenser along the outlet pipeline.Outlet pipeline is made of water pipe, can be hose, can also Think hard water pipe.So that water passes through from outlet pipe, with maximum regular outlet pipeline and divide between water hull body 110 Relationship.It is worth noting that water outlet the tank circuit be the flow path extended to form by groove, i.e., the flow direction of water be discharged the tank circuit stream Dynamic direction is consistent, to reach preset position.

In order to distinguish the tank circuit of other modules, the tank circuit corresponding with water outlet flow path 170 is the water outlet tank circuit, and the water outlet tank circuit includes The mutually independent hot water water inlet tank circuit 152 and cold water are discharged the tank circuit, and the normal-temperature water water outlet tank circuit both can be used as the one of the water outlet tank circuit Part can also be used as a part on bypass channel road 150.Wherein, the cold water water outlet tank circuit, hot water effluent's tank circuit and room temperature go out Sink road extends from the inlet opening 121 to different direction.It is non-interference between each tank circuit to ensure, meanwhile, it is also following The heating tank circuit and/or refrigeration the tank circuit reserve enough spaces.

Hot water effluent's tank circuit extends to hot water outlet 112 from heating module 200, by outlet pipeline from heating module 200 guide to hot water outlet 112.Hot water effluent's tank circuit include along the radial section radially extended for dividing water hull body 110, And/or the axial direction part extended along the short transverse for dividing water hull body 110, so that hot water effluent's tank circuit can extend to Fen Shui The position that shell 110 arbitrarily needs.It, can be with it is worth noting that the radial section of hot water effluent's tank circuit and the quantity of axial direction part It is configured according to actual needs, to meet the needs of tank circuit extension.Radial section and the mode of axial direction part arrangement have very much, below It gives one example to illustrate the arrangement mode of radial section and axial direction part:

One end of radial section is correspondingly arranged with hot water outlet 112, and the other end is extended in a radial direction to dividing water hull body 110 Edge, one end of axial direction part is connected to radial section far from one end of inlet opening 121, and the other end is along the height for dividing water hull body 110 Direction extends to a point bottom for water hull body 110, to correspond to the heating channel 230 of hot-water module.

Cold water is discharged the tank circuit, extends to cold water water outlet 111 from refrigeration module 300, by outlet pipeline from refrigeration module 300 guide to cold water water outlet 111.Cold water water outlet the tank circuit include along the traversing section radially extended for dividing water hull body 110, And/or the vertical section extended along the short transverse for dividing water hull body 110, so that the cold water water outlet tank circuit can extend to Fen Shui The position of shell 110 arbitrarily needed.It is worth noting that the traversing section of the cold water water outlet tank circuit and the quantity of vertical section, it can To be configured according to actual needs, to meet the needs of tank circuit extension.Traversing section and the mode of vertical section arrangement have very much, under It gives one example to illustrate the arrangement mode of traversing section and vertical section in face:

One end of traversing section corresponds to the setting of cold water water outlet 111, and the other end is extended in a radial direction to dividing water hull body 110 The one end at edge, vertical section is connected to traversing section far from one end of cold water water outlet 111, and the other end is along the height for dividing water hull body 110 Degree direction extend to a point bottom for water hull body 110, be correspondingly arranged with the refrigeration circuit 330 with cold water module, or with cold water mistake Water flow road is correspondingly arranged.In the present embodiment, traversing section includes the first lateral subsegment and the second lateral subsegment, the first lateral subsegment and Second lateral subsegment is along being arranged radially for water hull body 110 is divided, and the two is connected to close to the one end at middle part, and certainly, this feature can also To be applied in other embodiments.

In some embodiments, in order to further improve the utilization rate in space, make the structure of score water hull body 110 more Step up to gather, the traversing section of radial section and cold water the water outlet tank circuit of hot water effluent's tank circuit is located at the same layer for dividing water hull body 110.When So, in some embodiments, the room temperature water outlet tank circuit, which is also located at the radial section of hot water effluent's tank circuit, divides the same of water hull body 110 Layer.

In the present embodiment, since a point water flow road 130 is located on the side wall and/or bottom wall of point water cavity 120, make score water mould The positional relationship between pipeline structure, connection relationship on block 100 are perfectly clear, and make the hot water feed water flow on score water flow road 130 There is no intersecting between road and cold water water inlet flow path, influencing each other between each pipeline is avoided the occurrence of, is divided to effectively improve The stability in use of water module 100 effectively raises the stability in use of water dispenser；By the way that the setting of water flow road 130 will be divided to exist On shell, keep the structure of score water module 100 more compact, is improved the stability of score water module 100；

Since water outlet flow path 170 is located on the side wall and/or bottom wall of point water cavity 120, make the pipe in score water module 100 Positional relationship, connection relationship between line structure are perfectly clear, so that the hot water effluent's flow path 170 and cold water of water outlet flow path 170 It is discharged between flow path 170 there is no intersecting, avoids the occurrence of influencing each other between each pipeline, divide water module to effectively improve 100 stability in use effectively raises the stability in use of water dispenser；It is arranged on shell by the way that flow path 170 will be discharged, Keep the structure of score water module 100 more compact, is improved the stability of score water module 100；

By the way that water module 100 will be divided to be separately provided, so that score water module 100 is adapted to multiple water treatment module, such as add Thermal modules 200, refrigeration module 300 etc., so that the flexibility for dividing water module 100 to use significantly is improved；Meanwhile it using Family can carry out assembled water dispenser according to their own needs, so that busier meet the actual demand being used for.

Heating module 200, heating module 200 include heated shell 210, and heated shell 210 has heating chamber 220, heating Heating device 260 is provided in chamber 220.The shape of heated shell 210 can have very much, by taking column as an example, the shape of cross section Shape can be triangle, polygon, circle, ellipse etc., not do particular determination herein, by taking rounded setting as an example, certainly should The circle at place can have recess or protrusion due to actual demand.The form of heating device 260 can have very much, such as hot tank Deng.

Heating module 200 has heating channel 230, and heating channel 230 is arranged in heated shell 210, is arranged in other words On the side wall and/or bottom wall of heating chamber 220.Heating module 200 is to be arranged for dividing below water module 100, by that will add Hot flowpath 230 is located at point lower section on water flow road 130, so that the water level in heating channel 230 is lower than the water divided in water flow road 130 Position, so that the water in heating channel 230, can flow under the action of flow of water difference, to increase the mobility of water.Heating stream Road 230 includes flow path that the heating that the water in hot water water inlet flow path is delivered to heating device 260 is intake, by heating device 260 Hot water is guided out hot water effluent's flow path 170 of heating module 200, can be by being connected to realization with hot water effluent's flow path 170.Add The water inlet of heat water inlet flow path and heating water outlet flow path 170 is connected to a point water flow road 130.

The heating module 200 includes: heated shell 210, and the heated shell 210 is installed with supplying/heating system 260 Heating chamber 220；Heating channel 230 is provided on the side wall or bottom wall of the heating chamber 220；The heating channel 230 connects The water inlet in water flowing source and the heating device 260, and/or the water outlet and the water dispenser of the connection heating device 260 Hot water outlet 112.The heating channel 230 is formed by the combination of bottoming hole road 240, and the bottoming hole road 240 is formed in institute It states in the side wall or bottom wall of heated shell 210；The water inlet on the bottoming hole road 240 is connected to water source, so that water adds along described The water inlet portion on hot hole road 240 flows into heating device 260, and/or, the water part along the bottoming hole road 240 flow to hot water Water outlet 112.The bottoming hole road 240 includes heating 121 tunnel of inlet opening；121 tunnel of heating inlet opening includes adding along described The radial section of hot shell 210 radially extended, and/or the axial direction part of the short transverse extension along the heated shell 210.Institute It states axial direction part to be set in the side wall of the heated shell 210, and one end is connected to water source, the other end and the radial section One end connection；The radial section is set to the bottom of the heated shell 210, and the other end of the radial section extends to described add The bottom of hot chamber 220, to be connected to the water inlet of heating device 260.

Wherein, the fitting of heating channel 230 is arranged in heated shell 210, and the side wall of heating chamber 220 is arranged in other words And/or the mode of bottom has very much, introduces two kinds below by citing.

The first, heating channel 230 is directly provided in heated shell 210, can by forms such as core pulling, drillings, As long as the mode that can form Kong Lu on the ontology of heated shell 210 is ok, so that water passes through from Kong Luzhong, with to greatest extent Regular heating channel 230 and heated shell 210 between relationship.It is worth noting that Kong Lu is the flow path by hole formation, I.e. water is to flow in hole to reach preset position.

In order to distinguish the Kong Lu of other modules, Kong Luwei bottoming hole road 240 corresponding with heating channel 230, bottoming hole road 240 include mutually independent 121 road of heating inlet opening and heating apopore road 242.

121 tunnel of inlet opening is heated, extends to heating module from a point water flow road 130 (in particular hot water inlet hole road 142) 200, by water from divide the transport of water flow road 130 to heating module 200.Heating 121 tunnel of inlet opening includes along the heated shell 210 The radial section radially extended, and/or along the heated shell 210 short transverse extend axial direction part so that heat into 121 tunnel of water hole can extend to the position that heated shell 210 arbitrarily needs.It is worth noting that heating 121 tunnel of inlet opening The quantity of radial section and axial direction part can be configured according to actual needs, to meet the needs of hole road extension.Radial section and axis The mode arranged to section has very much, is given one example below to illustrate the arrangement mode of radial section and axial direction part:

The water inlet setting of heating device 260 in 220 bottom of heating chamber, one end of radial section and heating device 260 into Mouth of a river connection, the other end are extended in a radial direction to the edge of heated shell 210, and one end of axial direction part and radial section are far from water inlet The one end in hole 121 is connected to, and the other end extends to the top of heated shell 210 along the short transverse of heated shell 210, with divide water Module 100 divides water flow road 130 to be connected to.

Heat apopore road 242, extended to from heating module 200 and be discharged the corresponding position of flow path 170, by hot water from Into the transport of heating device 260 extremely water outlet flow path 170.Heating apopore road 242 includes radially extending along the heated shell 210 Traversing section, and/or along the heated shell 210 short transverse extend vertical section so that heating apopore road 242 can To extend to the position of heated shell 210 arbitrarily needed.It is worth noting that heating apopore road 242 radial section and The quantity of axial direction part can be configured according to actual needs, to meet the needs of hole road extension.Radial section and axial direction part arrangement Mode have very much, given one example below to illustrate the arrangement mode of radial section and axial direction part:

The water outlet of heating device 260 is arranged on 220 bottom of heating chamber or side wall, and one end of radial section and heating fill 260 water outlet connection is set, the other end is extended in a radial direction to the edge of heated shell 210, one end of axial direction part and radial direction Section is connected to far from one end of water outlet, and the other end extends to the top of heated shell 210 along the short transverse of heated shell 210, To be connected to water outlet flow path 170.

In some embodiments, in order to further improve the utilization rate in space, so that the structure of heated shell 210 is more Step up to gather, the radial section of the radial section and heating apopore road 242 that heat 121 tunnel of inlet opening is located at the same of heated shell 210 Layer.

It is worth noting that the heated shell 210 has heating chamber 220, the top of the heating chamber 220 is set in opening It sets, heating device 260 is set in the heating chamber 220, and the water inlet and/or water outlet of heating device 260 are set to described The top of heating device 260；The heating channel 230 includes connection 260 water inlet of heating device and the hot water for dividing water flow road 130 Water inlet pipe, and/or, connection 260 water outlet of heating device and the hot water outlet pipe 270 for being discharged flow path 170.Work as heating device When the top of heating device 260 is arranged in 260 inlet opening 121 or water outlet, it is only necessary to use hot water inlet pipe or hot water effluent Pipe 270 is directly connected to heating device 260 and divides water flow road 130 and water outlet flow path 170.

Second, heating channel 230 is provided in heated shell 210, forms the heating tank circuit in heated shell 210, Generation type can open up for injection molding or following process, as long as the side of the tank circuit can be formed on the ontology of heated shell 210 Formula is ok.Heating channel 230 further includes heating pipeline, heating tank circuit setting described in the heating tube curb, and is installed on institute It states in the heating tank circuit, it can be hose, or hard water pipe that heating tube, which routes water pipe composition,.So that water is from distributive pipe By with the relationship to greatest extent between regular heating pipeline and heated shell 210.It is worth noting that the heating tank circuit is The flow path extended to form by groove, the i.e. flow direction of water are consistent with the heating extending direction of the tank circuit, to reach preset position.

In order to distinguish the tank circuit of other modules, the tank circuit corresponding with heating channel 230 is the heating tank circuit, and the heating tank circuit includes The mutually independent hot water water inlet tank circuit 152 and the heating water outlet tank circuit.Wherein, the heating water outlet tank circuit and heating intake the tank circuit certainly Heating device 260 extends to different direction.

The heating water inlet tank circuit, from a point water flow road 130, (in particular hot water inlet hole road 142 or the tank circuit) extends to heating Module 200, by water from divide the transport of water flow road 130 to heating module 200.The heating water inlet tank circuit includes along the heated shell 210 radial section radially extended, and/or the axial direction part of the short transverse extension along the heated shell 210, so that plus The heat water inlet tank circuit can extend to the position that heated shell 210 arbitrarily needs.It is worth noting that the heating water inlet tank circuit The quantity of radial section and axial direction part can be configured according to actual needs, to meet the needs of tank circuit extension.Radial section and axis The mode arranged to section has very much, is given one example below to illustrate the arrangement mode of radial section and axial direction part:

The water inlet setting of heating device 260 in 220 bottom of heating chamber, one end of radial section and heating device 260 into Mouth of a river connection, the other end are extended in a radial direction to the edge of heated shell 210, and one end of axial direction part and radial section are far from water inlet The one end in hole 121 is connected to, and the other end extends to the top of heated shell 210 along the short transverse of heated shell 210, with divide water Module 100 divides water flow road 130 to be connected to.

The heating water outlet tank circuit, extends to from heating module 200 and is discharged the corresponding position of flow path 170, by hot water from into The transport of heating device 260 extremely water outlet flow path 170.The heating water outlet tank circuit includes the cross radially extended along the heated shell 210 To section, and/or the vertical section of the short transverse extension along the heated shell 210, so that the heating water outlet tank circuit can extend To the position of heated shell 210 arbitrarily needed.It is worth noting that the traversing section of the heating water outlet tank circuit and the number of vertical section Amount, can be configured according to actual needs, to meet the needs of tank circuit extension.Traversing section and the mode of vertical section arrangement have very It is more, it is given one example below to illustrate the arrangement mode of traversing section and vertical section:

The water outlet of heating device 260 is arranged on 220 bottom of heating chamber or side wall, and one end of radial section and heating fill 260 water outlet connection is set, the other end is extended in a radial direction to the edge of heated shell 210, one end of axial direction part and radial direction Section is connected to far from one end of water outlet, and the other end extends to the top of heated shell 210 along the short transverse of heated shell 210, To be connected to water outlet flow path 170.

In some embodiments, in order to further improve the utilization rate in space, so that the structure of heated shell 210 is more Step up to gather, the radial section of the heating water inlet tank circuit and the radial section for heating the water outlet tank circuit are located at the same layer of heated shell 210.

When water dispenser while including a point water module 100, heating module 200 and refrigeration module 300, and divides water module 100, adds When thermal modules 200 and refrigeration module 300 are set gradually from top to bottom, cold water is provided on heating module 200 and crosses water flow road；When When water module 100, refrigeration module 300 and heating module 200 being divided to set gradually from top to bottom, heat is provided on refrigeration module 300 Water crosses water flow road.In the following, for cold water to be arranged on heating module 200 and crosses water flow road.

There is heating module 200 cold water to cross water flow road, and cold water is crossed water flow road and is arranged in heated shell 210, sets in other words It sets on the side wall and/or bottom wall of heating chamber 220.Cold water crosses water flow road, and the room temperature water transport for that will divide in water module 100 is extremely Refrigeration module 300, then by the cold water in refrigeration module 300, it is delivered to the module with cold water water outlet 111.Heating module 200 To be arranged for dividing below water module 100, it is located at point lower section on water flow road 130 by the way that cold water is crossed water flow road, so that cold water The water level in water flow road is crossed lower than the water level in point water flow road 130, so that cold water crosses the water in water flow road, it can be in the flow of water It is flowed under the action of difference, to increase the mobility of water.It includes that the water in cold water water inlet flow path is delivered to system that cold water, which crosses water flow road, Water flow road is crossed into cold water in the refrigeration circuit 330 of cold module 300, and the cold water in refrigeration circuit 330 is guided to water flow out The cold water that goes out in road 170 crosses water flow road.

Wherein, cold water is crossed the fitting of water flow road and is arranged in heated shell 210, and the side wall of heating chamber 220 is arranged in other words And/or the mode of bottom has very much, introduces two kinds below by citing.

The first, crosses water flow road for cold water and is directly provided in heated shell 210, can by forms such as core pulling, drillings, As long as the mode that can form Kong Lu on the ontology of heated shell 210 is ok, so that water passes through from Kong Luzhong, with to greatest extent Regular cold water cross the relationship between water flow road and heated shell 210.It is worth noting that Kong Lu is the stream by hole formation Road, i.e. water are to flow in hole to reach preset position.

The cold water crosses water flow routing cold water water hole road and combines to be formed, and cold water water hole road is formed in the heating In the side wall and/or bottom wall of shell 210；The water inlet on cold water water hole road is connected to water source, so that water is by described cold The water inlet portion on water water hole road flows into refrigeration module 300, and/or, it is flow to by the water part on cold water water hole road Cold water water outlet 111.

In order to distinguish the Kong Lu of other modules, the corresponding Kong Luwei cold water water hole road in water flow road, cold water mistake are crossed with cold water Water hole road includes mutually independent into cold water water hole road 251 and out cold water water hole road 252.

Into cold water water hole road 251, from a point water flow road 130, (specifically can be cold water inlet hole road 141) extends to system Cold module 300, by water from divide the transport of water flow road 130 to refrigeration module 300.It include adding along described into cold water water hole road 251 The radial section of hot shell 210 radially extended, and/or the axial direction part of the short transverse extension along the heated shell 210, so that The position that heated shell 210 arbitrarily needs can be extended to by obtaining into cold water water hole road 251.It is worth noting that into cold water The radial section on water hole road 251 and the quantity of axial direction part, can be configured according to actual needs, to meet the need of hole road extension It asks.Radial section and the mode of axial direction part arrangement have very much, are given one example below to illustrate the arrangement side of radial section and axial direction part Formula:

One end of radial section is connected to the water inlet of refrigeration module 300, and the other end is extended in a radial direction to heated shell The one end at 210 edge, axial direction part is connected to radial section far from one end of inlet opening 121, height of the other end along heated shell 210 Degree direction extends to the top of heated shell 210, to be connected to a point water flow road 130 for water module 100 is divided.

Cold water water hole road 252 out, it is right with water outlet flow path 170 to extend to from the position of corresponding 300 water outlet of refrigeration module The position answered transports cold water to water outlet flow path 170 from into refrigeration module 300.

Cold water water hole road 252 includes the traversing section radially extended along the heated shell 210 out, and/or along described The vertical section that the short transverse of heated shell 210 extends, so as to show that cold water water hole road 252 can extend to heated shell 210 position arbitrarily needed.It is worth noting that the quantity of the radial section and axial direction part on cold water water hole road 252 out, it can To be configured according to actual needs, to meet the needs of hole road extension.Radial section and the mode of axial direction part arrangement have very much, under It gives one example to illustrate the arrangement mode of radial section and axial direction part in face:

The water outlet (refrigeration water outlet 322) of refrigerating plant 370 is arranged on bottom or the side wall of refrigerating chamber 320, diameter It being connected to one end of section with the water outlet of refrigeration module 300, the other end is extended in a radial direction to the edge of heated shell 210, One end of axial direction part is connected to radial section far from one end of water outlet, and the other end is extended to along the short transverse of heated shell 210 The top of heated shell 210, to be connected to water outlet flow path 170.

In some embodiments, in order to further improve the utilization rate in space, so that the structure of heated shell 210 is more Step up to gather, into cold water water hole road 251 radial section and out the radial section on cold water water hole road 252 is located at heated shell 210 Same layer.

It is worth noting that refrigeration shell 310 has refrigerating chamber 320, the top of the refrigerating chamber 320 is arranged in open, Refrigerating plant 370 is set in the refrigerating chamber 320, the water inlet (refrigeration water inlet 321) of refrigerating plant 370 and/or water outlet Mouth (refrigeration water outlet 322) is set to the top of the refrigerating plant 370；At this point, into cold water water hole road 251 and out cold water Water hole road 252 is intended to extend to the bottom of heated shell 210, the top of corresponding refrigerating chamber 320, with direct and refrigerating plant 370 inlet and outlet are corresponding.

Second, cold water is crossed into water flow road and is provided in heated shell 210, forms water-carrying groove road in heated shell 210, Generation type can open up for injection molding or following process, as long as the side of the tank circuit can be formed on the ontology of heated shell 210 Formula is ok.It further includes that cold water crosses water lines that cold water, which crosses water flow road, and the cold water is crossed water lines and is arranged along the water-carrying groove road, and It is installed in the water-carrying groove road, cold water is crossed water lines and is made of water pipe, can be hose, or hard water pipe.So that Water passes through from distributive pipe, crosses the relationship between water lines and heated shell 210 with maximum regular cold water.It is worth explanation , water-carrying groove road is the flow path extended to form by groove, i.e. the flow direction of water is consistent with the extending direction on water-carrying groove road, with Reach preset position.

In order to distinguish the tank circuit of other modules, crossing the corresponding tank circuit in water flow road with cold water is water-carrying groove road, water-carrying groove road packet Include mutually independent into cold water water-carrying groove road and out cold water water-carrying groove road.It includes: cold water water-carrying groove road that the cold water, which crosses water flow road, Cold water water-carrying groove road is opened on the shell；Cold water crosses water lines, and the cold water crosses water lines and crosses water along the cold water Tank circuit setting, and be installed in cold water water-carrying groove road, the water inlet that the cold water crosses water lines is connected to water source, so that water Refrigeration module 300 is flowed by the water inlet portion that the cold water crosses water lines, and/or, going out for water lines is crossed by the cold water Water section flow to cold water water outlet 111.Cold water water-carrying groove road includes into cold water water-carrying groove road and/or out cold water water-carrying groove Road；It is described into cold water water-carrying groove road include the radial section radially extended along the heated shell 210, and along the heated shell The axial direction part that 210 short transverse extends；The axial direction part is set on the side wall of the heated shell 210, one end and institute State one end connection of radial section；The radial section is set to the bottom of the heated shell 210, and the other end of the radial section prolongs The top of the refrigerating chamber 320 of the refrigeration module 300 is extended to, to correspond to the water inlet setting of refrigeration module 300；And/or it is described Cold water water-carrying groove road includes the traversing section radially extended along the heated shell 210 out, and along the heated shell 210 The vertical section that short transverse extends；The vertical section is set on the side wall of the heated shell 210, one end and the transverse direction One end connection of section；The traversing section is set to the bottom of the heated shell 210, and the other end of the traversing section extends to The top of the refrigerating chamber 320 of the refrigeration module 300, to correspond to the water outlet setting of refrigeration module 300.

Into cold water water-carrying groove road, from a point water flow road 130, (in particular cold water inlet hole road 141 or the tank circuit) extends to system Cold module 300, by water from divide the transport of water flow road 130 to refrigeration module 300.It include along the heating shell into cold water water-carrying groove road The radial section of body 210 radially extended, and/or the axial direction part of the short transverse extension along the heated shell 210, so that The position that heated shell 210 arbitrarily needs can be extended into cold water water-carrying groove road.It is worth noting that crossing water into cold water The radial section of the tank circuit and the quantity of axial direction part, can be configured according to actual needs, to meet the needs of tank circuit extension.It is radial Section and the mode of axial direction part arrangement have very much, are given one example below to illustrate the arrangement mode of radial section and axial direction part:

One end of radial section and the water inlet of refrigeration module 300 are correspondingly arranged, and the other end is extended in a radial direction to heating The one end at the edge of shell 210, axial direction part is connected to radial section far from one end of inlet opening 121, and the other end is along heated shell 210 Short transverse extend to the top of heated shell 210, to be correspondingly arranged with a point water flow road 130 for water module 100 is divided.

Cold water water-carrying groove road out extends to corresponding with water outlet flow path 170 from the position of corresponding 300 water outlet of refrigeration module Position, by cold water from into refrigeration module 300 transport to water outlet flow path 170.

Cold water water-carrying groove road includes the traversing section radially extended along the heated shell 210 out, and/or along the heating The vertical section that the short transverse of shell 210 extends, so as to show that cold water water-carrying groove road can extend to any of heated shell 210 The position needed.It is worth noting that the quantity of the traversing section on cold water water-carrying groove road and vertical section out, it can be according to practical need It asks and is configured, to meet the needs of tank circuit extension.Traversing section and the mode of vertical section arrangement have very much, give one example below To illustrate the arrangement mode of traversing section and vertical section:

The water outlet of refrigerating plant 370 is arranged on bottom or the side wall of refrigerating chamber 320, one end of radial section and refrigeration The water outlet of module 300 is connected to, and the other end is extended in a radial direction to the edge of heated shell 210, one end of axial direction part and diameter It is connected to section far from one end of water outlet, the other end extends to the top of heated shell 210 along the short transverse of heated shell 210 Portion, to be connected to water outlet flow path 170.

In some embodiments, in order to further improve the utilization rate in space, so that the structure of heated shell 210 is more Step up to gather, into cold water water-carrying groove road radial section and out the radial section on cold water water-carrying groove road is located at the same layer of heated shell 210.

Refrigeration module 300, refrigeration module 300 include refrigeration shell 310, and refrigeration shell 310 has refrigerating chamber 320, refrigeration Refrigerating plant 370 is provided in chamber 320.The shape of refrigeration shell 310 can have very much, by taking column as an example, the shape of cross section Shape can be triangle, polygon, circle, ellipse etc., not do particular determination herein, by taking rounded setting as an example, certainly should The circle at place can have recess or protrusion due to actual demand.The form of refrigerating plant 370 can have very much, such as electronics Curling stone etc..

Refrigeration module 300 has refrigeration circuit 330, and the setting of refrigeration circuit 330 is arranged in other words on refrigeration shell 310 On the side wall and/or bottom wall of refrigerating chamber 320.Refrigeration module 300 is to be arranged in point water module 100 or refrigeration module 300 For lower section, by the way that refrigeration circuit 330 is located at point lower section on water flow road 130, so that the water level in refrigeration circuit 330 is lower than Divide the water level in water flow road 130, so that the water in refrigeration circuit 330, can flow under the action of flow of water difference, to increase The mobility of water.Refrigeration circuit 330 includes the refrigeration feed water flow that the water in hot water water inlet flow path is delivered to refrigerating plant 370 The hot water of refrigerating plant 370 is guided out hot water effluent's flow path 170 of refrigeration module 300 by road, can be by flowing with hot water effluent The connection of road 170 is realized.The water inlet of refrigeration water inlet flow path and refrigeration water outlet flow path 170 is connected to a point water flow road 130.

Wherein, the side wall of refrigerating chamber 320 is arranged on refrigeration shell 310 in the fitting of refrigeration circuit 330 setting in other words And/or the mode of bottom has very much, introduces two kinds below by citing.

The first, by refrigeration circuit 330 directly be provided with refrigeration shell 310 in, can by forms such as core pulling, drillings, As long as the mode that can form Kong Lu on the ontology of refrigeration shell 310 is ok, so that water passes through from Kong Luzhong, with to greatest extent Regular refrigeration circuit 330 and refrigeration shell 310 between relationship.It is worth noting that Kong Lu is the flow path by hole formation, I.e. water is to flow in hole to reach preset position.

In order to distinguish the Kong Lu of other modules, Kong Luwei refrigeration corresponding with refrigeration circuit 330 hole road 340, freeze Kong Lu 340 include mutually independent refrigeration inlet opening road 341 and refrigeration apopore road 342.

Refrigeration inlet opening road 341, prolongs from a point water flow road 130 (in particular hot water inlet hole road 142) or heating channel 230 Extend to refrigeration module 300, by water from divide the transport of water flow road 130 to refrigeration module 300.Refrigeration inlet opening road 341 includes along institute The radial section of refrigeration shell 310 radially extended, and/or the axial direction part of the short transverse extension along the refrigeration shell 310 are stated, So that refrigeration inlet opening road 341 can extend to the position that refrigeration shell 310 arbitrarily needs.It is worth noting that refrigeration The radial section on inlet opening road 341 and the quantity of axial direction part, can be configured according to actual needs, to meet the need of hole road extension It asks.Radial section and the mode of axial direction part arrangement have very much, are given one example below to illustrate the arrangement side of radial section and axial direction part Formula:

The water inlet setting of refrigerating plant 370 in 320 bottom of refrigerating chamber, one end of radial section and refrigerating plant 370 into Mouth of a river connection, the other end are extended in a radial direction to the edge of refrigeration shell 310, and one end of axial direction part and radial section are far from water inlet The one end in hole 121 is connected to, and the other end extends to the top of refrigeration shell 310 along the short transverse of refrigeration shell 310, with divide water Module 100 divides water flow road 130 to be connected to.

Freeze apopore road 342, extended to from refrigeration module 300 and be discharged the corresponding position of flow path 170, by hot water from The transport of system device for cooling 370 extremely water outlet flow path 170.Refrigeration apopore road 342 includes radially extending along the refrigeration shell 310 Traversing section, and/or along it is described refrigeration shell 310 short transverse extend vertical section so that refrigeration apopore road 342 can To extend to the position of refrigeration shell 310 arbitrarily needed.It is worth noting that refrigeration apopore road 342 radial section and The quantity of axial direction part can be configured according to actual needs, to meet the needs of hole road extension.Radial section and axial direction part arrangement Mode have very much, given one example below to illustrate the arrangement mode of radial section and axial direction part:

The water outlet of refrigerating plant 370 is arranged on 320 bottom of refrigerating chamber or side wall, and one end of radial section and refrigeration fill 370 water outlet connection is set, the other end is extended in a radial direction to the edge of refrigeration shell 310, one end of axial direction part and radial direction Section is connected to far from one end of water outlet, and the other end extends to the top of refrigeration shell 310 along the short transverse of refrigeration shell 310, To be connected to water outlet flow path 170.

In some embodiments, in order to further improve the utilization rate in space, so that the structure for the shell 310 that freezes is more Step up to gather, the radial section on inlet opening road 341 of freezing and the radial section on refrigeration apopore road 342 are located at the same of refrigeration shell 310 Layer.

It is worth noting that the refrigeration shell 310 has refrigerating chamber 320, the top of the refrigerating chamber 320 is set in opening It sets, refrigerating plant 370 is set in the refrigerating chamber 320, and the water inlet and/or water outlet of refrigerating plant 370 are set to described The top of refrigerating plant 370；The refrigeration circuit 330 includes connection 370 water inlet of refrigerating plant and the cold water for dividing water flow road 130 Water inlet pipe 285, and/or, connection 370 water outlet of refrigerating plant and the cold water outlet pipe 290 for being discharged flow path 170.I.e. when refrigeration fills Set 370 inlet opening 121 or when the top of refrigerating plant 370 is arranged in water outlet, it is only necessary to use cold water inlet 285 or cold The directly connection refrigerating plant 370 of water outlet pipe 290 is with point water flow road 130 alternatively, being directly connected to refrigerating plant 370 and water outlet flow path 170.

Second, refrigeration circuit 330 is provided in refrigeration shell 310, forms the refrigeration tank circuit in refrigeration shell 310, Generation type can open up for injection molding or following process, as long as the side of the tank circuit can be formed on the ontology of refrigeration shell 310 Formula is ok.Refrigeration circuit 330 further includes refrigeration pipeline, and the refrigeration pipeline is arranged along the refrigeration tank circuit, and is installed on institute It states in the refrigeration tank circuit, refrigeration pipeline is made of water pipe, can be hose, or hard water pipe.So that water is from distributive pipe By with the relationship between maximum regular refrigeration pipeline and refrigeration shell 310.It is worth noting that the refrigeration tank circuit is The flow path extended to form by groove, the i.e. flow direction of water are consistent with the refrigeration extending direction of the tank circuit, to reach preset position.

In order to distinguish the tank circuit of other modules, the tank circuit corresponding with refrigeration circuit 330 is the refrigeration tank circuit, and the refrigeration tank circuit includes The mutually independent hot water water inlet tank circuit 152 and the refrigeration water outlet tank circuit.Wherein, the refrigeration water outlet tank circuit and refrigeration intake the tank circuit certainly Refrigerating plant 370 extends to different direction.

The refrigeration water inlet tank circuit, from a point water flow road 130, (in particular hot water inlet hole road 142 or the tank circuit) extends to refrigeration Module 300, by water from divide the transport of water flow road 130 to refrigeration module 300.The refrigeration water inlet tank circuit includes along the refrigeration shell 310 radial section radially extended, and/or the axial direction part of the short transverse extension along the refrigeration shell 310, so that system The cold water inlet tank circuit can extend to the position that refrigeration shell 310 arbitrarily needs.It is worth noting that the refrigeration water inlet tank circuit The quantity of radial section and axial direction part can be configured according to actual needs, to meet the needs of tank circuit extension.Radial section and axis The mode arranged to section has very much, is given one example below to illustrate the arrangement mode of radial section and axial direction part:

The water inlet setting of refrigerating plant 370 in 320 bottom of refrigerating chamber, one end of radial section and refrigerating plant 370 into Mouth of a river connection, the other end are extended in a radial direction to the edge of refrigeration shell 310, and one end of axial direction part and radial section are far from water inlet The one end in hole 121 is connected to, and the other end extends to the top of refrigeration shell 310 along the short transverse of refrigeration shell 310, with divide water Module 100 divides water flow road 130 to be connected to.

The refrigeration water outlet tank circuit, extends to from refrigeration module 300 and is discharged the corresponding position of flow path 170, by hot water from into The transport of refrigerating plant 370 extremely water outlet flow path 170.The refrigeration water outlet tank circuit includes the cross radially extended along the refrigeration shell 310 To section, and/or the vertical section of the short transverse extension along the refrigeration shell 310, so that the refrigeration water outlet tank circuit can extend To the position of refrigeration shell 310 arbitrarily needed.It is worth noting that the traversing section of the refrigeration water outlet tank circuit and the number of vertical section Amount, can be configured according to actual needs, to meet the needs of tank circuit extension.Traversing section and the mode of vertical section arrangement have very It is more, it is given one example below to illustrate the arrangement mode of traversing section and vertical section:

The water outlet of refrigerating plant 370 is arranged on 320 bottom of refrigerating chamber or side wall, and one end of radial section and refrigeration fill 370 water outlet connection is set, the other end is extended in a radial direction to the edge of refrigeration shell 310, one end of axial direction part and radial direction Section is connected to far from one end of water outlet, and the other end extends to the top of refrigeration shell 310 along the short transverse of refrigeration shell 310, To be connected to water outlet flow path 170.

In some embodiments, in order to further improve the utilization rate in space, so that the structure for the shell 310 that freezes is more Step up to gather, the radial section that the radial section and refrigeration of the refrigeration water inlet tank circuit are discharged the tank circuit is located at the same layer of refrigeration shell 310.

Water dispenser further includes blowdown flow path, blowdown flow path can be set on dividing water module 100, on heating module 200 or On person's refrigeration module 300, it is illustrated for being arranged on refrigeration module 300 below.

Refrigeration module 300 has blowdown flow path, and the setting of blowdown flow path is arranged in freezes in other words on refrigeration shell 310 On the side wall and/or bottom wall of chamber 320.Refrigeration module 300 for the lower section of point water module 100 or heating module is set, By the way that blowdown flow path is located at point lower section on water flow road 130, so that the water level in blowdown flow path is lower than the water divided in water flow road 130 Position, so that the water in blowdown flow path, can flow under the action of flow of water difference, to increase the mobility of water.Blowdown flow path Including being arranged by the hot water blowdown flow path of the water discharge in heating channel 230, and by the cold water of the water discharge in refrigeration circuit 330 Dirty flow path.

Wherein, blowdown flow path fitting setting refrigeration shell 310 on, be arranged in other words refrigerating chamber 320 side wall and/ Or the mode of bottom has very much, introduces two kinds below by citing.

The first, by blowdown flow path directly be provided with refrigeration shell 310 in, can by forms such as core pulling, drillings, as long as The mode that Kong Lu can be formed on the ontology of refrigeration shell 310 is ok, so that water passes through from Kong Luzhong, to advise to greatest extent Relationship between entire row dirt flow path and refrigeration shell 310.It is worth noting that Kong Lu is the flow path by hole formation, i.e. water is Flowing is in hole to reach preset position.

In order to distinguish the Kong Lu of other modules, Kong Luwei mudhole road 360 corresponding with blowdown flow path, mudhole road 360 Including mutually independent hot water mudhole road 361 and cold water mudhole road 362.

Hot water mudhole road 361 extends to hot water from heating channel 230 (can be specifically heating 121 tunnel of inlet opening) Sewage is discharged sewage draining exit 312 from heating module 200.Wherein, heating device sewage draining exit 280 and hot water mudhole road 361 Connection.

Hot water mudhole road 361 includes the radial section radially extended along the refrigeration shell 310, and/or along the system The axial direction part that the short transverse of cooled case 310 extends is appointed so that hot water mudhole road 361 can extend to refrigeration shell 310 The position that meaning needs.It is worth noting that the radial section on hot water mudhole road 361 and the quantity of axial direction part, it can be according to reality Border demand is configured, to meet the needs of hole road extension.Radial section and the mode of axial direction part arrangement have very much, name one Example illustrates the arrangement mode of radial section and axial direction part:

Axial direction part is set in the side wall of the refrigeration shell 310, and the sewage draining exit of one end supplying/heating system 260 connects Logical, the other end is connected to one end of the radial section；The radial section is set to the bottom of the refrigeration shell 310, the diameter Hot water sewage draining exit 312 is extended to the other end of section, the hot water sewage draining exit 312 is located at the outer surface of the refrigeration shell 310.

Cold water mudhole road 362 extends to cold water sewage draining exit 311 from refrigeration module 300, by the sewage in cold tank from system It is discharged in cold module 300.Wherein, refrigerating plant sewage draining exit 371 is connected to cold water mudhole road 362.

Cold water mudhole road 362 includes the traversing section radially extended along the refrigeration shell 310, and/or along the system The vertical section that the short transverse of cooled case 310 extends, so that cold water mudhole road 362 can extend to refrigeration shell 310 The position arbitrarily needed.It is worth noting that the traversing section on cold water mudhole road 362 and the quantity of vertical section, it can basis Actual demand is configured, to meet the needs of hole road extension.Traversing section and the mode of vertical section arrangement have very much, name one A example illustrates the arrangement mode of traversing section and vertical section:

One end of the vertical section is connected to the sewage draining exit of refrigerating plant 370, and one end of the other end and the traversing section connects It is logical；The traversing section is set to the bottom of the refrigeration shell 310, and the other end of the traversing section extends to cold water sewage draining exit 311, the cold water sewage draining exit 311 is located at the outer surface of the refrigeration shell 310.

In some embodiments, in order to further improve the utilization rate in space, so that the structure for the shell 310 that freezes is more Step up to gather, the radial section on hot water mudhole road 361 and the traversing section on cold water mudhole road 362 are located at the same of refrigeration shell 310 Layer.

Second, blowdown flow path is provided in refrigeration shell 310, forms the blowdown tank circuit in refrigeration shell 310, formed Mode can open up for injection molding or following process, as long as the mode of the tank circuit can be formed all on the ontology of refrigeration shell 310 It can be with.Blowdown flow path further includes blowoff line, and the blowoff line is arranged along the blowdown tank circuit, and is installed on the dirt discharge groove In road, blowoff line is made of water pipe, can be hose, or hard water pipe.So that water passes through from distributive pipe, with most Relationship between the regular blowoff line and refrigeration shell 310 of limits.It is worth noting that the blowdown tank circuit is to be extended by groove The flow path of formation, the i.e. flow direction of water are consistent with the extending direction of the blowdown tank circuit, to reach preset position.

The blowdown tank circuit includes the hot water blowdown tank circuit and the cold water blowdown tank circuit.Wherein, the extending direction of hot water dirt discharge groove and heat The extending direction on water mudhole road 361 is consistent.The hot water blowdown tank circuit and the difference on hot water mudhole road 361 be, hot water blowdown The tank circuit is for carrying sewage pipe, and hot water mudhole road 361 is then for directly transporting water.Similarly, the extension side of cold water dirt discharge groove To consistent with the extending direction on cold water mudhole road 362.The cold water blowdown tank circuit and the difference on cold water mudhole road 362 are, cold The water blowdown tank circuit is for carrying sewage pipe, and cold water mudhole road 362 is then for directly transporting water.

Several frequently seen water dispenser splicing state is described below, water dispenser includes dividing water module 100 and heating module 200.

According to above embodiment, divide water flow road 130, heating channel 230 and water outlet flow path 170 can the road You Kong shape At can also be combined and be formed by the tank circuit and water pipe, since the extending direction and positional relationship of the tank circuit are suitable with hole road, below with hole For road, illustrate that water dispenser includes dividing water flow road 130, heating channel 230 and water outlet when dividing water module 100 and heating module 200 Connection relationship between flow path 170.

Tapping hole road 140 includes hot water inlet hole road 142 and cold water inlet hole road 141, and apopore road 180 includes hot water Apopore road 182, cold water apopore road 181 and normal-temperature water apopore road 183, bottoming hole road 240 include heating inlet opening 121 Road and heating apopore road 242.

Normal-temperature water from inlet opening 121 enter hot water inlet hole road 142, behind hot water inlet hole road 142 enter heat into 121 tunnel of water hole enters heating device 260 after heating 121 tunnel of inlet opening；Normal-temperature water by heating device 260 heating after, from It heats apopore road 242 and flows out heated shell 210, enter hot water outlet hole road 182, then flowed out from hot water outlet 112；

Normal-temperature water enters normal-temperature water apopore road 183 from inlet opening 121, from normal-temperature water behind normal-temperature water apopore road 183 Water outlet 113 flows out.

Certainly, in some embodiments, when the water inlet of heating device 260 (heating water inlet 221) and/or water outlet When the top of heating device 260 is arranged in (heating water outlet 222), 121 road of inlet opening and/or heating apopore road are heated 242, can by heating water inlet pipe and/or heating outlet pipe replace, i.e., heating water inlet pipe connection heating device 260 water inlet and Hot water inlet hole road 142, the water outlet of heating outlet pipe connection heating device 260 and hot water outlet hole road 182.

Water dispenser includes dividing water module 100 and refrigeration module 300.

According to above embodiment, divide water flow road 130, refrigeration circuit 330 and water outlet flow path 170 can the road You Kong shape At can also be combined and be formed by the tank circuit and water pipe, since the extending direction and positional relationship of the tank circuit are suitable with hole road, below with hole For road, illustrate that water dispenser includes dividing water flow road 130, refrigeration circuit 330 and water outlet when dividing water module 100 and refrigeration module 300 Connection relationship between flow path 170.

Tapping hole road 140 includes hot water inlet hole road 142 and cold water inlet hole road 141, and apopore road 180 includes hot water Apopore road 182, cold water apopore road 181 and normal-temperature water apopore road 183, refrigeration hole road 340 include refrigeration inlet opening road 341 and refrigeration apopore road 342.

Normal-temperature water from inlet opening 121 enter cold water inlet hole road 141, behind cold water inlet hole road 141 enter freeze into Water hole road 341 enters refrigerating plant 370 behind inlet opening road 341 of freezing；Normal-temperature water by refrigerating plant 370 refrigeration after, from Freeze the outflow of apopore road 342 refrigeration shell 310, enters cold water apopore road 181, then flows out from cold water water outlet 111；

Normal-temperature water enters normal-temperature water apopore road 183 from inlet opening 121, from normal-temperature water behind normal-temperature water apopore road 183 Water outlet 113 flows out.

Certainly, in some embodiments, when the water inlet and/or water outlet of refrigerating plant 370 are arranged in refrigerating plant 370 Top when, freeze 121 road of inlet opening and/or refrigeration apopore road 180, can by refrigeration water inlet pipe and/or refrigeration outlet pipe Instead of i.e. 121 tunnel of water inlet and hot water inlet hole of refrigeration water inlet pipe connection refrigerating plant 370, refrigeration outlet pipe connection is freezed The water outlet of device 370 and hot water outlet hole road 180.

Water dispenser includes dividing water module 100, heating module 200 and refrigeration module 300.

According to above embodiment, divide water flow road 130, refrigeration circuit 330 and water outlet flow path 170 can the road You Kong shape At can also be combined and be formed by the tank circuit and water pipe, since the extending direction and positional relationship of the tank circuit are suitable with hole road, below with hole For road, illustrate that water dispenser includes dividing water flow road 130, refrigeration circuit 330 and water outlet when dividing water module 100 and refrigeration module 300 Connection relationship between flow path 170.

Tapping hole road 140 includes 121 tunnel of 121 road of hot water inlet hole and cold water inlet hole, and apopore road 180 includes hot water Apopore road 180, cold water apopore road 180 and normal-temperature water apopore road 180, refrigeration hole road 340 include refrigeration inlet opening 121 Road and refrigeration apopore road 180, water hole road includes cold water water hole road or hot water water hole road 350.At this time according to heated mould The positional relationship of block 200 and refrigeration module 300 works as heating to determine using cold water water hole road or hot water water hole road 350 Module 200 at the top of refrigeration module 300 needs that cold water water hole road is arranged on heating module 200；Work as refrigeration module 300 at the top of heating module 200, needs that hot water water hole road 350 is arranged on refrigeration module 300.Below with heated mould For block 200 is arranged on refrigeration module 300, it is illustrated.

Normal-temperature water from inlet opening 121 enter 121 tunnel of hot water inlet hole, behind 121 tunnel of hot water inlet hole enter heat into 121 tunnel of water hole enters heating device 260 after heating 121 tunnel of inlet opening；Normal-temperature water by heating device 260 heating after, from It heats apopore road 180 and flows out heated shell 210, enter hot water outlet hole road 180, then flowed out from hot water outlet 112；

Normal-temperature water enters 121 tunnel of cold water inlet hole from inlet opening 121, enters behind 121 tunnel of cold water inlet hole into cold water Water hole road 251 enters back into refrigeration 121 tunnel of inlet opening, refrigerating plant 370 is entered behind 121 tunnel of inlet opening of freezing；Often Warm water, from refrigeration apopore road 180 outflow refrigeration shell 310, is flowed into out cold water and crosses water after the refrigeration of refrigerating plant 370 Hole road 252 enters back into cold water apopore road 180, then flows out from cold water water outlet 111；

Normal-temperature water enters normal-temperature water apopore road 180 from inlet opening 121, from normal-temperature water behind normal-temperature water apopore road 180 Water outlet 113 flows out.

About mudhole road 360, can be set on dividing water module 100, heating module 200 or refrigeration module 300, with For being arranged on refrigeration module 300.Mudhole road 360 includes hot water mudhole road 360 and cold water mudhole road 360.Hot water Mudhole road 360 is connected to the water inlet that 260 bottom of heating device is arranged in, sewage to be discharged and is heated in blowdown mode Device 260；Cold water mudhole road 360 is connected to the sewage draining exit of 370 bottom of refrigerating plant, in blowdown mode, sewage to be arranged Refrigerating plant 370 out.

In addition, in order to further increase the compactedness for improving water dispenser structure, for each module of further reasonable utilization Space, open up wire casing on dividing water hull body 110, heated shell 210 and refrigeration shell 310, the conducting wire of water dispenser installed In wire casing, so that the wire arrangements of water dispenser are clean and tidy, regular, avoid breaking down since electric wire is mixed and disorderly.

A kind of water treating module is used for water dispenser, and the water dispenser has electric-controlled plate, power interface, and connects automatically controlled The conducting wire of plate and power interface, the water treating module include: shell, and the conducting wire tank circuit is offered on the lateral wall of the shell 160, so that conducting wire is installed on wherein；The water treating module is to divide water module 100, heating module 200 or refrigeration module 300.The conducting wire tank circuit 160 has the vertical section extended along body height direction, and the circumferential direction along shell circumferentially extending Section.There is Kong Lu, the Kong Lu extends in the shell, to guide water flow water to flow in shell on the shell.For The Kong Luyu conducting wire tank circuit 160 for conveying water is mutually indepedent, so that being independent of each other therebetween, while increasing the steady of the two work It is qualitative.By the way that the conducting wire tank circuit 160 to be integrated on shell, so that the structure of shell is more compact, the space benefit of shell is improved With rate.

In water dispenser, in order to facilitate user's control water dispenser, the control panel of water dispenser, display panel and electric-controlled plate are equal Positioned at the front side of water dispenser, and the power interface of water dispenser power supply, for beauty and facilitate connection power supply, is then arranged in water dispenser Rear side.In order to connect electric-controlled plate and power interface, the conducting wire tank circuit 160 includes that the first vertical section, circumferential sections and second are vertical Section, wherein the first vertical section is correspondingly arranged with electric-controlled plate, and the second vertical section is then correspondingly arranged with power interface, and circumferential sections then connect Connect the first vertical section and the second vertical section.

Since water dispenser is several by dividing water module 100, heating module 200 and the combined form of refrigeration module 300 to have, so that The position of first vertical section, the second vertical section and circumferential sections can give some instances be illustrated below there are many form.

Water dispenser includes: a point water module 100, described that water module 100 is divided to include dividing water hull body 110, described to divide water hull body 110 Lateral wall on offer watershed line slot 161；Heating module 200 and/or refrigeration module 300, the heating module 200 include Heated shell 210, the lateral wall of the heated shell 210 offer heating wire casing 162；The refrigeration module 300 includes refrigeration The lateral wall of shell 310, the refrigeration shell 310 offers refrigeration wire casing 163；Electric-controlled plate, for controlling the work of water dispenser Make, the electric-controlled plate is set to the front side for dividing water hull body 110, heated shell 210 or the shell 310 that freezes；Power interface is used In access external power supply, the power interface is set to water hull body 110, heated shell 210 or the refrigeration shell 310 of dividing Rear side；Conducting wire between the circuit board and the power interface passes through watershed line slot 161, heating wire casing 162 and refrigeration wire casing One or more in 163 is fixed.

When water dispenser includes dividing water module 100 and heating module 200:

The heated shell 210 is set to the lower section for dividing water hull body 110, and divides water hull body 110 detachable with described Connection；The electric-controlled plate is set to the front side for dividing water hull body 110, and the power interface is set to the heated shell 210 Rear side；The watershed line slot 161 includes the first vertical section that edge divides 110 short transverse of water hull body to extend, and/or along institute State the first circumferential sections that point water hull body 110 circumferentially extends；The heating wire casing 162 includes along the 210 height side of heated shell To the second vertical section of setting, and/or along the second circumferential sections of the heated shell 210 circumferentially extending；Conducting wire successively passes through One vertical section, the first circumferential sections and/or the second circumferential sections and the second vertical section are connect with power interface.

When water dispenser includes dividing water module 100 and refrigeration module 300:

The refrigeration shell 310 is set to the lower section for dividing water hull body 110, and divides water hull body 110 detachable with described Connection；The electric-controlled plate is set to the front side for dividing water hull body 110, and the power interface is set to the refrigeration shell 310 Rear side；The watershed line slot 161 includes the first vertical section that edge divides 110 short transverse of water hull body to extend, and/or along described The first circumferential sections for dividing water hull body 110 to circumferentially extend；The refrigeration wire casing 163 includes along 310 short transverse of refrigeration shell The second vertical section being arranged, and/or the second circumferential sections circumferentially extended along the refrigeration shell 310；Conducting wire successively passes through first Vertical section, the first circumferential sections and/or the second circumferential sections and the second vertical section are connect with power interface.

When water dispenser includes dividing water module 100, heating module 200 and refrigeration module 300:

The heated shell 210 is set to the lower section for dividing water hull body 110, and divides water hull body 110 detachable with described Connection；The refrigeration shell 310 is set to the lower section of the heated shell 210, and detachably connects with the heated shell 210 It connects；The electric-controlled plate is set to the front side for dividing water hull body 110, and the power interface is set to the refrigeration shell 310 Rear side；The watershed line slot 161 includes the first vertical section that edge divides 110 short transverse of water hull body to extend, and/or divides water along described The first circumferential sections that shell 110 circumferentially extends；The heating wire casing 162 includes being arranged along 210 short transverse of heated shell Third vertical section and/or the second circumferential sections for being circumferentially arranged along the heated shell 210；The refrigeration wire casing 163 includes edge Second vertical section of refrigeration 310 short transverse of the shell setting；Conducting wire successively pass through the first vertical section, the first circumferential sections and/ Or second circumferential sections, third vertical section and the second vertical section are connect with power interface.

In order to keep the arrangement of the conducting wire tank circuit 160 and conducting wire more succinct, regular, first vertical section is located at described automatically controlled The underface of plate, second vertical section are located at the surface of the power interface.By being arranged the first vertical section automatically controlled The underface of plate avoids conducting wire from bending in interface so that the conducting wire of circuit board is arranged in the first vertical section along straight line, thus Be conducive to improve the connective stability for the conducting wire connecting with electric-controlled plate.

By the way that the second vertical section to be arranged in the surface of power interface, so that the conducting wire connecting with power interface is in power supply Nearby straight line is arranged in the second vertical section interface, and conducting wire is avoided to bend in interface, to be conducive to raising and power interface The connective stability of the conducting wire of connection.

It is described that setting hot water outlet 112, cold water on water hull body 110 is divided to go out in order to further increase the safety of conducting wire One or more of the mouth of a river 111 and room temperature water outlet 113；The electric-controlled plate is set to the hot water outlet 112, cold water goes out The mouth of a river 111 or the top of room temperature water outlet 113.By the way that electric-controlled plate to be arranged in the top of water outlet, avoid water droplet to electric-controlled plate On, to eliminate safe hidden trouble.

The above is only the preferred embodiment of the present invention, and therefore it does not limit the scope of the patent of the utility model, Under all utility models in the utility model are conceived, equivalent structure made based on the specification and figures of the utility model Transformation, or directly/be used in other related technical areas indirectly and be included in the scope of patent protection of the utility model.

Claims (16)

1. one kind divides water module, which is characterized in that be used for water dispenser, the water dispenser includes water treating module, the water process Module is located at the lower section for dividing water module, described to divide the water module to include:

Divide water hull body, described to divide water hull body with water cavity is divided, the bottom for dividing water cavity offers inlet opening, described to divide water hull body Lateral wall on offer room temperature water outlet and/or processing water water outlet；

The lower part for dividing water hull body is provided with water outlet flow path, water treating module and the place described in the water outlet fluid communication Water water outlet is managed, and/or,

Inlet opening described in the water outlet fluid communication and the room temperature water outlet.

2. dividing water module as described in claim 1, which is characterized in that the water outlet flow path is located at the lower section for dividing water cavity.

3. dividing water module as described in claim 1, which is characterized in that the water outlet flow path is combined by apopore road to be formed, institute It states apopore road and is formed in and described divide water enclosure interior, the water inlet and the inlet opening and/or water process on the apopore road Module connection, so as to go out from the water of the inlet opening and/or water treating module inflow through the apopore road from the processing water The mouth of a river and/or room temperature water outlet outflow.

4. dividing water module as claimed in claim 3, which is characterized in that the apopore road described by dividing water hull body enterprising Row core pulling or aperture and formed.

5. dividing water module as claimed in claim 3, which is characterized in that the water treating module includes heating module, described to add Thermal modules have heating channel；

The processing water water outlet includes hot water outlet；

The apopore road includes hot water outlet hole road, and the hot water outlet hole road is connected to the heating channel and the hot water goes out The mouth of a river.

6. dividing water module as claimed in claim 5, which is characterized in that the hot water outlet hole road includes dividing water hull body along described The radial section radially extended, and/or the axial direction part that the short transverse of dividing water hull body along described extends.

7. dividing water module as claimed in claim 3, which is characterized in that the water treating module includes refrigeration module, the system Cold module has refrigeration circuit；

The processing water water outlet includes cold water water outlet；

The apopore road includes cold water apopore road, and cold water apopore road is connected to the refrigeration circuit and the cold water goes out The mouth of a river.

8. dividing water module as claimed in claim 7, which is characterized in that cold water apopore road includes dividing water hull body along described The traversing section radially extended, and/or longitudinal sections that the short transverse of dividing water hull body along described extends.

9. dividing water module as claimed in claim 3, which is characterized in that the processing water water outlet include cold water water outlet with/ Or hot water outlet；

The apopore road includes cold water apopore road, hot water outlet hole road, and the connection inlet opening and the room temperature go out One or more of the room temperature apopore road at the mouth of a river；

The room temperature water outlet, hot water outlet and cooling water outlet are circumferentially arranged at the same layer for dividing water hull body；It is described Water hull is divided described in being located in the traversing section on cold water apopore road, the radial section on hot water outlet hole road and room temperature apopore road The same layer of body.

10. dividing water module as in one of claimed in any of claims 1 to 9, which is characterized in that described to divide water module to have to divide water Flow path, described point of water flow routing tapping hole road combine to be formed, the tapping hole road be formed in it is described divide water enclosure interior, described point The water inlet on water hole road is connected to the inlet opening, so as to be divided from the water that the inlet opening flows into along the tapping hole road Stream.

11. dividing water module as claimed in claim 10, which is characterized in that the tapping hole road described by dividing on water hull body Carry out core pulling and or aperture formed.

12. dividing water module as claimed in claim 11, which is characterized in that the tapping hole road includes dividing water hull body diameter along described To the radial component of distribution；

The apopore road of the water outlet flow path includes along the lateral part of the shell cross direction profiles；

The radial component and the lateral part are located at the same layer for dividing water hull body.

13. dividing water module as described in claim 1, which is characterized in that the water outlet flow path includes:

It is discharged the tank circuit, the water outlet tank circuit is opened on the shell；

Outlet pipeline, the outlet pipeline are arranged along the water outlet tank circuit, and are installed in the water outlet tank circuit；

The water inlet of the outlet pipeline is connected to the inlet opening and/or water treating module so that from the inlet opening and/or The water that water treating module flows into is flowed out through the outlet pipeline from the processing water water outlet and/or the room temperature water outlet.

14. dividing water module as claimed in claim 13, which is characterized in that the processing water water outlet includes cold water water outlet And/or hot water outlet；

The water outlet tank circuit includes cold water the water outlet tank circuit, hot water effluent's tank circuit, and the connection inlet opening and the room temperature go out One or more of the room temperature water outlet tank circuit at the mouth of a river；

The room temperature water outlet, hot water outlet and cooling water outlet are circumferentially arranged at the same layer for dividing water hull body；It is described The traversing section of the cold water water outlet tank circuit, the radial section of hot water effluent's tank circuit and the room temperature water outlet tank circuit divide water hull described in being located at The same layer of body.

15. dividing water module as described in claim 1, which is characterized in that described to divide water hull body cylindrical setting, the water outlet The inside for dividing water hull body is arranged in flow path.

16. a kind of water dispenser, which is characterized in that including dividing water module as described in any one of claim 1 to 15.