阅读说明：本技术 饮水机 (Drinking machine ) 是由 胡如国 赵丽丽 于 2020-06-05 设计创作，主要内容包括：本发明公开了一种饮水机,所述出水部件具有第一端部和第二端部,所述第一端部具有出水部,所述第二端部与所述机壳转动连接,所述出水部件相对所述机壳转动时,所述第一端部在所述机壳的顶部的竖直方向远离或者靠近所述机壳的顶部,所述饮水机具有限位部,所述饮水机在使用时,所述限位部与所述出水部件相抵接或靠接。本饮水机角度调整更方便,更利于用户使用。(The invention discloses a water dispenser, wherein a water outlet component is provided with a first end part and a second end part, the first end part is provided with a water outlet part, the second end part is rotatably connected with a machine shell, when the water outlet component rotates relative to the machine shell, the first end part is far away from or close to the top of the machine shell in the vertical direction of the top of the machine shell, the water dispenser is provided with a limiting part, and when the water dispenser is used, the limiting part is abutted or connected with the water outlet component. The angle adjustment of the water dispenser is more convenient and is more beneficial to users.)

1. A drinking machine comprises a machine shell, a water outlet component and a heating component arranged in the machine shell, and is characterized in that,

the water outlet component is provided with a first end part and a second end part, the first end part is provided with a water outlet part, the second end part is rotatably connected with the shell, when the water outlet component rotates relative to the shell, the first end part is far away from or close to the top of the shell in the vertical direction of the top of the shell, the water dispenser is provided with a limiting part, and when the water dispenser is used, the limiting part is abutted or abutted to the water outlet component.

2. The water dispenser of claim 1, wherein the range of the rotation angle (α) of the water outlet component relative to the housing is as follows: 0-150 degrees, the water dispenser is provided with a rotating matching part, the water outlet component is provided with a rotating shaft, the rotating shaft is positioned at the second end part, the rotating shaft part extends into the rotating matching part and is limited with the rotating matching part, and the water outlet component rotates relative to the rotating matching part; the spacing portion has the locating pin, the running fit portion has first recess, at least part of locating pin is located first recess, the running fit portion has the second recess, the pivot is spacing in the second recess, it has a plurality of constant head tanks to go out the water part, the constant head tank be located the second end and with the running fit portion sets up relatively, the locating pin is inserted and is located one in a plurality of constant head tanks, the constant head tank uses the pivot to set up as central circumference.

3. The water dispenser as claimed in claim 2, wherein the top of the positioning pin is in the form of an arc, the positioning groove is in the form of an arc groove, the limiting part is provided with a spring part, the rotation matching part is provided with a blocking part, one end of the spring part abuts against the positioning pin, the other end of the spring part abuts against the blocking part, and the positioning pin can move relative to the rotation matching.

4. The water dispenser of claim 1, wherein the range of the rotation angle (α) of the water outlet component relative to the housing is as follows: 0-150 degrees, the water dispenser is provided with a rotating matching part, the water outlet component is provided with a rotating shaft, the rotating shaft is positioned at the second end part, the rotating shaft part extends into the rotating matching part and is limited with the rotating matching part, and the water outlet component rotates relative to the rotating matching part; the pivot has the external gear, spacing portion form in the running fit portion, spacing portion in order to set up in the form of running fit portion internal gear, the pivot stretches into spacing portion, and with spacing portion gear connection.

5. The water dispenser of claim 1 wherein the water outlet member has an extended wall extending from the second end;

the water dispenser is provided with a micro switch, the end part of the extending wall is adjacent to the micro switch,

when the water outlet component rotates to a certain angle, the end part of the extending wall is abutted against the micro switch, the micro switch is triggered to be opened, and the circuit of the water dispenser is communicated;

when the water outlet component does not rotate or the rotation angle is not enough to trigger the microswitch, the microswitch is disconnected, and the circuit of the water dispenser is not connected.

6. The water dispenser of claim 1 wherein the housing has a bottom wall portion and a cover portion, the heating assembly has one or more heating tubes, and the angle between the length of the heating tube and the bottom wall portion is in the range of 0-50 °; the heating pipe has an inner diameter smaller than 10mm and is provided with a base material and a nano film formed on the surface of the base material.

7. The water dispenser of claim 1 wherein the outlet member has a recess with a sloped wall that is angled with respect to the housing surface of the outlet member, the outlet opening in the sloped wall, the water dispenser having a connecting conduit that connects the outlet of the heating element with the outlet opening.

8. The water dispenser of claim 1 wherein the housing has a length, a height, and a width, the length of the housing being greater than the height of the housing, the width of the housing being greater than the height of the housing; the length of the water outlet part is greater than the height of the machine shell.

9. The water dispenser of claim 1, wherein the range of the rotation angle (α) of the water outlet component relative to the housing is as follows: 0-150 degrees, the water dispenser is provided with a rotating matching part, the water outlet component is provided with a rotating shaft, the rotating shaft is positioned at the second end part, the rotating shaft part extends into the rotating matching part and is limited with the rotating matching part, and the water outlet component rotates relative to the rotating matching part; the water outlet component is positioned on the side part of the machine shell, the second end part of the water outlet component is rotationally connected with the machine shell, and the first end part of the water outlet component rotates along the height direction of the machine shell.

10. The water dispenser of claim 1, wherein the housing has a top, the top of the housing is provided with an embedded groove, the embedded groove is embedded in the height direction of the housing, the second end of the water outlet component is rotatably connected with the housing, and the water outlet component corresponds to the embedded groove.

Technical Field

The invention relates to the technical field of liquid heating, in particular to a water dispenser.

Background

At present, most of water dispensers used by people have large volume and complicated internal structure, so the existing water dispensers are generally installed at a certain position for fixed use. The existing water dispenser is inconvenient to carry or poor in portability, the height of the water dispenser is higher than that of a cup, and the overall height of the water dispenser is higher.

Disclosure of Invention

The invention aims to provide a water dispenser which is small in structure, good in portability and convenient to discharge water.

In order to realize the purpose, the following technical scheme is adopted:

a water dispenser comprises a machine shell, a water outlet component and a heating component arranged in the machine shell, wherein the water outlet component is provided with a first end part and a second end part, the first end part is provided with a water outlet part, the second end part is rotatably connected with the machine shell, when the water outlet component rotates relative to the machine shell, the first end part is far away from or close to the top of the machine shell in the vertical direction of the top of the machine shell, the water dispenser is provided with a limiting part, and when the water dispenser is used, the limiting part is abutted or abutted to the water outlet component.

The range of the rotation angle (alpha) of the water outlet component relative to the shell is as follows: 0-150 degrees, the water dispenser is provided with a rotating matching part, the water outlet component is provided with a rotating shaft, the rotating shaft is positioned at the second end part, the rotating shaft part extends into the rotating matching part and is limited with the rotating matching part, and the water outlet component rotates relative to the rotating matching part; the spacing portion has the locating pin, the running fit portion has first recess, at least part of locating pin is located first recess, the running fit portion has the second recess, the pivot is spacing in the second recess, it has a plurality of constant head tanks to go out the water part, the constant head tank be located the second end and with the running fit portion sets up relatively, the locating pin is inserted and is located one in a plurality of constant head tanks, the constant head tank uses the pivot to set up as central circumference.

The top of the positioning pin is in a circular arc shape, the positioning groove is in a circular arc groove form, the limiting part is provided with a spring part, the rotation matching part is provided with a blocking part, one end of the spring part abuts against the positioning pin, the other end of the spring part abuts against the blocking part, and the positioning pin can move relative to the rotation matching part.

The range of the rotation angle (alpha) of the water outlet component relative to the shell is as follows: 0-150 degrees, the water dispenser is provided with a rotating matching part, the water outlet component is provided with a rotating shaft, the rotating shaft is positioned at the second end part, the rotating shaft part extends into the rotating matching part and is limited with the rotating matching part, and the water outlet component rotates relative to the rotating matching part; the pivot has the external gear, spacing portion form in the running fit portion, spacing portion in order to set up in the form of running fit portion internal gear, the pivot stretches into spacing portion, and with spacing portion gear connection.

The water outlet member having an extension wall extending from the second end;

the water dispenser is provided with a micro switch, the end part of the extending wall is adjacent to the micro switch,

when the water outlet component rotates to a certain angle, the end part of the extending wall is abutted against the micro switch, the micro switch is triggered to be opened, and the circuit of the water dispenser is communicated;

when the water outlet component does not rotate or the rotation angle is not enough to trigger the microswitch, the microswitch is disconnected, and the circuit of the water dispenser is not connected.

The machine shell is provided with a bottom wall part and a cover part, the heating assembly is provided with one or more than two heating pipes, and the angle between the length direction of the heating pipes and the bottom wall part is in the range of 0-50 degrees; the heating pipe has an inner diameter smaller than 10mm and is provided with a base material and a nano film formed on the surface of the base material.

The water outlet component is provided with a notch part, the notch part is provided with an inclined wall, the inclined wall forms a certain angle relative to the surface of the shell of the water outlet component, the water outlet part is arranged on the inclined wall, and the water dispenser is provided with a connecting pipeline which is connected with the outlet of the heating component and the water outlet part.

The housing has a length, a height, and a width, the length of the housing being greater than the height of the housing, the width of the housing being greater than the height of the housing; the length of the water outlet part is greater than the height of the machine shell.

The range of the rotation angle (alpha) of the water outlet component relative to the shell is as follows: 0-150 degrees, the water dispenser is provided with a rotating matching part, the water outlet component is provided with a rotating shaft, the rotating shaft is positioned at the second end part, the rotating shaft part extends into the rotating matching part and is limited with the rotating matching part, and the water outlet component rotates relative to the rotating matching part; the water outlet component is positioned on the side part of the machine shell, the second end part of the water outlet component is rotationally connected with the machine shell, and the first end part of the water outlet component rotates along the height direction of the machine shell.

The casing has the top, the top of casing is provided with inlays establishes the groove, it establishes the groove and is in to inlay the direction of height embedding of casing, go out the second tip of water part with the casing rotates to be connected, go out the water part with it establishes the trench position corresponding to inlay.

The technical scheme of the invention comprises the casing, the water outlet component and the heating component arranged in the casing, wherein the first end part is far away from or close to the top of the casing in the vertical direction of the top of the casing, so that water is conveniently discharged, and in addition, the water outlet component is abutted against the limiting part, so that the angle adjustment is more convenient, and the use of a user is more facilitated.

Drawings

FIG. 1 is a schematic structural view of one embodiment of the present invention when not in use;

FIG. 2 is a schematic diagram of the structure of FIG. 1 in use;

FIG. 3 is a schematic structural view of another embodiment of the present invention in use;

FIG. 4 is a schematic view of the structure of FIG. 3 with the cover portion removed;

FIG. 5 is an enlarged view of portion A of FIG. 4;

FIG. 6 is a schematic structural view of the water outlet member of FIG. 3;

FIG. 7 is a schematic view of a coupling manner of the rotating shaft and the rotation coupling portion;

FIG. 8 is a schematic view of another embodiment of the present invention;

FIG. 9 is a schematic view of still another embodiment of the present invention;

FIG. 10 is a schematic structural view of a further embodiment of the present invention in use;

FIG. 11 is a schematic view of the structure of FIG. 10 in use with a bottle of water;

fig. 12 is a schematic view of the structure shown in fig. 10 in a using state of connecting the water in the bucket.

Detailed Description

Referring to fig. 1-2, fig. 1 illustrates a schematic structural diagram of a water dispenser 100, the water dispenser 100 includes a housing 1, and a PCB board, a heating assembly, a water pump, and a flow meter, which are disposed inside the housing 1, the PCB board is connected to a power line and a control panel 7, the heating assembly has one or more than two heating pipes, and the heating pipes have a substrate and a nano-film formed on the surface of the substrate. The nano-film is electrically connected with the PCB through the silver electrodes and the wires, the control panel 7 is arranged on the upper surface of the shell 1, the control panel 7 is a touch panel, a mechanical knob type or a control panel combined by the mechanical knob type and the electronic type can be selected according to specific requirements, the heating assembly, the water pump and the flowmeter are electrically connected with the PCB, the shell 1 can be flat, and for example, the shell 1 can be a flat hexahedral shell.

The casing 1 has a length L, a height H and a width W, the length L of the casing 1 is greater than the height H of the casing 1, the width W of the casing 1 is greater than the height H of the casing 1, and thus the casing 1 is flat. Casing 1 has diapire portion and lid portion, and the lid portion of casing 1 is provided with inlays establishes groove 10, inlay and establish the groove and be in the direction of height embedding of casing 1 inlays and establishes groove 10 and set up in the middle of casing 1, and control panel 7, PCB board, flowmeter setting are inlaying and are establishing groove 10 one side, and heating element, water pump setting are inlaying and are establishing groove 10 opposite side.

The water dispenser 100 is provided with a water outlet part 9, the water outlet part 9 is provided with a water outlet part 5, the machine shell 1 is provided with a water source interface, the water inlet end of the heating component is communicated with the water source interface, and the water outlet end of the heating component is communicated with the water outlet part; the water outlet part is rotationally connected with the machine shell 1, the position of the water outlet part 9 corresponds to the position of the embedded groove 10, when the water dispenser is not used (as shown in figure 1), the water dispenser can be hexahedral, the volume is small, and the use is convenient.

The bottom of the embedding groove 10 is provided with a water source interface 2, the water source interface 2 is communicated with a water inlet of a water pump through a flowmeter, a water outlet of the water pump is communicated with a water inlet of a heating assembly, a water outlet of the heating assembly is communicated with a water outlet part 5 through a silicone tube, and the silicone tube is arranged inside a water outlet part 9.

The flow meter can be connected with the water outlet of the pump or can be connected with the water inlet of the pump, and the water dispenser can not comprise the flow meter which is mainly used for controlling the flow of the discharged water.

The machine shell 1 is provided with a water inlet part 17, the water inlet part 17 is recessed from the embedded groove 10, one side of the water outlet part 9 facing the embedded groove 10 is provided with the closed surface, and the closed surface covers the water inlet part. When the water dispenser is not used, the water outlet part 9 rotates to be placed in the embedded groove 10 and seals the water inlet part, so that the sanitation of the water inlet part is facilitated, and dust is prevented from entering.

As other embodiments, referring to FIG. 2, the water outlet component 9 may also be a telescopic pipe, the water outlet component 9 includes a bottom rotating section 6, the bottom end of the bottom rotating section 6 is rotatably connected with the casing 1, the upper end of the bottom rotating section 6 is fixedly connected with an intermediate connecting section 3, the upper end of the intermediate connecting section 3 is sleeved with a slidable upper telescopic section 4, the water outlet part 5 is arranged at the top end of the upper telescopic section 4, the water outlet part 5 is slidably or rotatably connected with the top end of the water outlet component 9, the water outlet part 5 can slide outwards by about 2.5 cm or in a rotating manner, or the water outlet part and the top end of the water outlet component 9 are bent by 90 degrees towards the direction of the water receiving cup to make the water outlet of the water outlet part 5 leak out, and then water is received, by the design of the structure, further reduce device space occupancy, when the water receiving cup is higher, with upper portion flexible section 4 upwards pull out can, the commonality is stronger.

In order to make the water outlet part 9 extend out in a rotating manner, a groove 8 is formed in one end, away from the water outlet part 9, of the embedding groove 10, which is connected with the machine shell in a rotating manner, so that fingers can be buckled at the bottom of the water outlet part 9 to lift the water outlet part.

One side that is close to water outlet part 9 and casing rotation and is connected in casing 1 is equipped with the power cord and places the chamber, and the power cord is placed the chamber open end and is stored 11 shutoff of chamber cover through the detachable power cord, makes things convenient for withdrawing of power cord, when not using, puts into the chamber with the power cord in, makes casing 1 outward appearance more pleasing to the eye.

Referring to fig. 3-6, fig. 3 shows a schematic structural diagram of a water dispenser 200, the water dispenser 200 includes a housing 1, and a PCB board, a heating assembly and a water pump which are arranged inside the housing 1, the heating assembly has one or more than two heating pipes, and the heating pipes have a substrate and a nano-film formed on the surface of the substrate. The length direction of heating pipe with the angle between the bottom wall portion is at 0-60 within range, and heating element can be relative bottom wall portion parallel arrangement or be 60 interior angle promptly, so, heating element can keep flat at bottom wall portion 13, perhaps puts in bottom wall portion with slight inclination to one side, and the vertical structure of placing of relative heating pipe has reduced the height that the heating pipe was placed, and is structural shorter, and casing 1 is convenient for make flat structure, easily carries.

Especially, when the heating pipe 152 is placed at an angle of 0-15 degrees with the bottom wall, the inner cavity of the heating pipe 152 is provided with a channel, the inner cavity of the heating pipe 152 is communicated with the water pump 16, the inner cavity of the heating pipe 152 is communicated with the water outlet pipe, and air of cold water in the heating pipe is difficult to directly leave from the pipe orifice, so that the inner diameter of the heating pipe 152 is designed to be smaller than 10 mm. Thus, the flowing speed of the flowing water through the heating pipe 152 is fast, and after the cooling water in the heating pipe 152 is heated, because the flowing speed of the flowing water is fast and the inner diameter is small, the air in the cooling water is heated and separated out, and can rapidly move along with the fluid in the heating pipe 152 until the air leaves from the outlet end of the heating pipe 152. If more air stays inside the heating tube 152, it may cause local overheating of the heating tube 152, which may affect not only the heating efficiency, but also the service life of the heating tube 152.

The water dispenser comprises a machine shell 1, a water dispenser 200 and a water dispenser, wherein the machine shell 1 is provided with a top, the top of the machine shell 1 is provided with an embedded groove 10, the embedded groove 10 is embedded in the height direction of the machine shell 1, the water dispenser 200 is provided with a water outlet part 9, the water outlet part 9 is rotatably connected relative to the machine shell 1, the water outlet part 9 is matched with the embedded groove 10, the machine shell 1 is provided with length, height and width, the length of the machine shell 1 is greater than the height of the machine shell 1, and the width of the machine shell 1 is greater than the height of the; the length of the water outlet component 9 is larger than the height of the machine shell 1. The length of the water outlet component 9 is larger than the height of the machine shell 1. The water outlet component 9 is rotationally connected with the machine shell 1, when in use, the water outlet component 9 can be rotated out, and the water outlet component 9 is provided with a water outlet part 5; when the water outlet component 9 is stored, the water outlet component can be rotated to the embedding groove 10, and the whole structure is small.

The embedded groove 10 is provided with a water inlet part 17, the water outlet part 9 is provided with a groove 18 matched with the water inlet part 17, and the bottom surface of the groove 18 is a closed surface; taking the length direction of the PCB board as the length direction of the machine shell 1, the water inlet part 17 is positioned in the 1/3-2/3 area of the length of the machine shell 1 in the length direction of the machine shell 1. The water is more favorably concentrated at the middle position of the machine shell 1, and the stability of the machine shell 1 is maintained.

The casing 1 is provided with a power socket 20, the power socket 20 is located at a side portion of the casing 1, the power socket 20 protrudes into the casing 1, and the protruding position of the power socket 20 is located in a space between the PCB and the bottom wall portion.

The water outlet member 9 has a first end 91 and a second end 92, the first end 91 has the water outlet portion 5, the second end 92 is rotatably connected to the housing 1, and the first end 91 is far away from or close to the top of the housing 1 in the vertical direction of the top of the housing when the water outlet member 9 rotates relative to the housing. So, conveniently when using, go out the water position through rotating the water outlet part adjustment, convenience of customers uses.

The water dispenser 200 has a rotation matching portion 26, the water outlet member 9 has a rotation shaft 27, the rotation shaft 27 is located at the second end portion 92, the rotation shaft 27 partially extends into the rotation matching portion 26 and is limited with the rotation matching portion 26, and the water outlet member 9 rotates relative to the rotation matching portion 26.

The water dispenser 200 has a limiting portion 28, the limiting portion 28 is abutted or abutted with the water outlet component 9, and when the water dispenser is used, the water outlet component 9 can form an obtuse angle with the machine shell 1. The water outlet component 9 rotates between 0 and 150 degrees relative to the machine shell 1.

The water dispenser 200 has a water outlet pipe, one end of the water outlet pipe is communicated with the heating pipe 152, the other end of the water outlet pipe is communicated with the water outlet part 5, the inner diameter of the water outlet pipe is defined as D1, the inner diameter of the heating pipe 152 is defined as D2, and D1 is (0.8-1.2) × D2. Therefore, the fluid leaving from the heating pipe 152 after being heated can easily enter the water outlet pipe, and the internal diameters of the fluid and the water outlet pipe are in the above range, so that the flowing state of the fluid is relatively stable, and the heating efficiency is high.

The water outlet member 9 is rotatable relative to the housing 1, when the heater is used, the horizontal projection of the water outlet portion 5 to the bottom wall portion 13 can fall outside the bottom wall portion 13, and the horizontal projection of the water outlet portion 5 and the second end portion 92 to the bottom wall portion 13 does not overlap.

The heating assembly 15 has a connection hose 153, the connection hose 153 connects the ends of the adjacent heating pipes 152, and the inner diameter of the connection hose 153 is equal to the inner diameter of the heating pipes 152; thus, when the flowing water in the heating pipe 152 is heated, the fluid in the heating pipe 152 is heated more uniformly because the inner diameters of the connecting hose 153 and the heating pipe 152 are the same, so that the outlet water temperature is approximately the same, the heating efficiency is high, and no dead angle exists in heating.

The water dispenser 200 further has a pump connection pipe, the pump connection pipe connects the outlet of the water pump 16 and the inlet of the heating assembly 15, the pump connection pipe is bent, and the inner diameter of the pump connection pipe is equal to the inner diameter of the connection hose 153.

The inner diameters are equal but not limited to be completely equal, and in this context, the error is also considered to be equal within a range of 20%, for example, the inner diameter of the connection hose 153 is A, the inner diameter of the heating pipe 152 is B, and A/B or B/A is in a range of 0.8-1.2.

It should be noted that the inner diameter sampling point herein does not include a connection point between two components, and considering that one component is sleeved outside the other component when connecting, the inner diameter sampling point does not include a connection point between a connection hose and a heating pipe, and a connection point between a water outlet pipe and a heating pipe, for example.

The first end portion 91 is not limited to the outside of the distal end of the water outlet member 9, and may be an area of the first end portion 91 in the range 1/3 in the longitudinal direction of the water outlet member 9.

More specifically, the limiting portion 28 has a positioning pin 281, the rotation fitting portion 26 has a first groove 261, at least a portion of the positioning pin 281 is located in the first groove 261, the rotation fitting portion 26 has a second groove 262, the rotating shaft 27 is limited in the second groove 262, the water outlet member 9 has a plurality of positioning grooves 29, the positioning grooves 29 are located at the second end portion 92 and are arranged opposite to the rotation fitting portion 26, the positioning pin 281 is inserted in one of the plurality of positioning grooves 29, and the positioning grooves 29 are arranged around the rotating shaft.

When the water outlet component 9 needs to rotate, the set position of the water outlet component 9 can be adjusted through the limiting arrangement of the limiting part and the rotation matching part, and the water outlet component can be conveniently adjusted according to the size of a water cup when water is poured.

The top of the positioning pin 281 is in the form of an arc, the positioning groove 29 is in the form of an arc groove, the limiting portion 28 has a spring element 282, the rotation matching portion 26 has a blocking portion, one end of the spring element abuts against the positioning pin, the other end of the spring element abuts against the blocking portion, and the positioning pin can move relative to the rotation matching.

The water outlet member 9 has an extended wall 93, the extended wall 93 extends from the second end 92;

the water dispenser 200 has a micro switch 30, the end of the protruding wall 93 is adjacent to the micro switch 30,

when the water outlet component 9 rotates to a certain angle, the end part of the extending wall 93 abuts against the micro switch 30, the micro switch 30 is triggered to be opened, and the circuit of the water dispenser is communicated;

when the water outlet component 9 does not rotate or the rotation angle is not enough to trigger the microswitch, the microswitch is disconnected, and the circuit of the water dispenser is not connected.

Through the touch control of the microswitch, when the rotating position of the water outlet component 9 is not in place, the water pump and the heating component can not work, the misoperation of the water dispenser is prevented, and the safety performance is improved.

Referring to fig. 6, the water outlet member 9 has a recess 94, the water outlet portion 5 opens in the recess 94, and the water dispenser has a connecting pipe connecting the outlet of the heating element and the water outlet portion. The notch 94 has an inclined wall 941, and the inclined wall 941 forms a certain angle with respect to the surface of the housing of the water outlet member 9, so that the water outlet member 5 is disposed on the inclined wall 941, and when the water outlet member 9 rotates in place and needs to discharge water, the water outlet member 5 disposed on the inclined wall 941 is more convenient for discharging water, and is convenient for a user to collect water. Meanwhile, when a user needs to brew tea, the inclined wall 941 is arranged, so that the water outlet has a certain angle relative to the cup, and the tea brewing is facilitated.

Of course, in order to further improve the convenience, the water outlet part can also rotate, so that the angle adjustment is convenient.

Alternatively, referring to fig. 7, the second end 92 of the water outlet member 9 has a rotating shaft 27, the rotating shaft 27 has an external gear, and the rotating shaft 27 partially extends into the rotation matching portion 26 and is limited by the rotation matching portion 26, so that the water outlet member 9 rotates relative to the rotation matching portion 26; the limiting part 28 is formed on the rotation matching part 26, the limiting part 28 is arranged in a gear form in the rotation matching part 26, and the rotating shaft 27 extends into the limiting part 28 and is in gear connection with the limiting part 28.

Referring to fig. 8, the water outlet member 9 is located at the side portion 11 of the housing 1, the second end portion 92 of the water outlet member 9 is rotatably connected to the housing 1, and the first end portion 91 of the water outlet member 9 rotates along the height direction of the housing 1.

When the water dispenser is not used, the water outlet member 9 has a facing side 95 facing the housing 1 and a back side 96 facing away from the housing 1, and the facing side is a rotating surface, and the first end 91 rotates in the height direction of the housing 1.

Referring to fig. 9, the water outlet member 9 is located at a side portion of the housing 1, a second end portion 92 of the water outlet member 9 is rotatably connected to the housing 1, and a first end portion 91 of the water outlet member 9 rotates along a height direction of the housing 1.

When the water dispenser is not in use, the water outlet part 9 has a facing side 95 facing the housing 1 and a back side 96 facing away from the housing 1, and the facing side 95 rotates relative to the housing 1.

Besides, the water dispenser can also have a combined rotation function, for example, the water dispenser can rotate by taking the side facing as a rotation surface, and can also rotate relative to the machine shell 1 by the side facing, for example, a spherical structure is arranged at the second end part for rotation.

The following description will be made of a specific application of the structure shown in fig. 10, taking the structure shown in fig. 10 as an example.

Referring to fig. 10, the structure of fig. 10 is substantially similar to that of fig. 1, and fig. 10 shows that the outlet part 5 and the outlet member 9 are arranged in an L shape, and the outlet part 5 of the outlet member 9 is rotated out by rotating, so that the structure is adopted to increase the distance of the outlet part 5 extending out of the outlet member 9, and adapt to a cup with a large diameter.

Referring to fig. 11, water source interface 2 is the mineral water bottle interface, directly connect the mineral water bottle on water source interface 2 during the use, the commonality is very strong, people can heat through purchasing the mineral water, need not carry water when going on business or fulfilling, alleviate the weight of burden, it is simple and convenient to use, refer to fig. 12, water source interface 2 also can be through straw connection bottled water, inside the bottled water is directly inserted through the straw, make things convenient for the house to use, can use at any time, collect at any time.

When in use, rotatory water outlet part 9, inlay water outlet part 9 from casing 1 and establish the groove 10 rotatory and come out, according to the water receiving cup of co-altitude, water outlet part 9 can be adjusted with casing 1's angle, after lifting up, can be 90 degrees to 150 degrees, prevent water splash to the outside simultaneously, and avoid the bad experience of liquid along water outlet part 9 landing, connect the water source and communicate with water source interface 2, then start heating element through control panel 7, the water pump, send water into heating element through the water pump, then liquid flows out from water outlet part 5 after heating element heats, because this device is the platykurtic, keep flat when using, it is very stable to use, can not overturn, because this device volume is less, it is very portable.

It should be noted that: although the present invention has been described in detail with reference to the above embodiments, those skilled in the art will appreciate that various combinations, modifications and equivalents of the present invention can be made by those skilled in the art, and all technical solutions and modifications thereof without departing from the spirit and scope of the present invention are encompassed by the claims of the present invention.