CN214712064U

CN214712064U - Liquid heating container and milk mixing device capable of rapidly cooling

Info

Publication number: CN214712064U
Application number: CN202120908956.7U
Authority: CN
Inventors: 邓财科; 汪盼
Original assignee: Guangdong Baby Bear Products Co ltd; Bear Electrical Appliance Co Ltd
Current assignee: Guangdong Baby Bear Products Co ltd; Bear Electrical Appliance Co Ltd
Priority date: 2021-04-28
Filing date: 2021-04-28
Publication date: 2021-11-16
Anticipated expiration: 2031-04-28

Abstract

The utility model discloses a liquid heating container and milk mixing device for providing rapid cooling, the liquid heating container comprises a kettle body with a heating cavity, a kettle cover with an air inlet, and an air supply device arranged in the kettle cover, wherein the air supply device comprises a spiral air supply component for supplying air to the inner part of the heating cavity and a driving device in driving connection with the spiral air supply component; the spiral air supply assembly comprises an air impeller provided with an outer gear ring, a fan gear in driving connection with the driving device and a gear ring coaxially arranged with the fan gear, the gear ring is arranged on the inner side surface of the kettle cover, and the air impeller is connected with the fan gear and the inner teeth of the gear ring in a meshed mode through the outer gear ring. The spiral air supply assembly carries out the spiral air supply to the heating intracavity, and the increase coverage utilizes the air current that the spiral air current drove the heating intracavity to flow, takes away the heat of the high temperature liquid of heating intracavity, makes the liquid rapid cooling of heating intracavity, shortens cooling time greatly, improves cooling effect.

Description

Liquid heating container and milk mixing device capable of rapidly cooling

Technical Field

The utility model belongs to the technical field of little household electrical appliances technique and specifically relates to a liquid heating container and transfer breast pump that provide rapid cooling.

Background

In daily life, people generally use a milk adjusting device in order to conveniently make milk for babies. In the prior art, a milk mixer includes a liquid heating container filled with drinking water and a base for controlling the liquid heating container. Consumers often boil the water in the liquid heating container, and after the water is naturally cooled to the corresponding temperature required by the milk powder brewing, the water in the liquid heating container is added into the feeding bottle for milk powder brewing. However, the existing milk conditioner needs too long time for heating water to boiling and then cooling the water to the desired milk brewing temperature, and the use experience of the milk conditioner is seriously influenced.

Chinese patent application No. CN2018220324632 discloses an electric kettle, which is provided with a fan between an upper kettle cover and a lower kettle cover for supplying air to the inside of the kettle body, wherein the lower kettle cover is provided with an air outlet, but the electric kettle of the design only uses a single fan to discharge air, so that the air discharging efficiency is low, and the cooling effect of the liquid in the kettle is poor.

SUMMERY OF THE UTILITY MODEL

Therefore, the utility model provides a liquid heating container and milk mixing device for rapid cooling, which aims to solve the problem of poor cooling effect of liquid in the kettle in the prior art.

The utility model provides a liquid heating container for providing rapid cooling, which comprises a kettle body with a heating cavity, a kettle cover with an air inlet and an air supply device arranged in the kettle cover, wherein the air supply device comprises a spiral air supply component for supplying air to the inner part of the heating cavity and a driving device in driving connection with the spiral air supply component; the spiral air supply assembly comprises an air impeller provided with an outer gear ring, a fan gear connected with the driving device in a driving mode and a gear ring coaxially arranged with the fan gear, the gear ring is arranged on the inner side face of the pot cover, and the air impeller passes through the outer gear ring and the fan gear and inner teeth of the gear ring are meshed with each other.

In a preferred embodiment, the inner side of the ring gear has a first step; the outer side of the fan gear is provided with a second step; the lower end face of the outer gear ring is in contact with the upper end face of the first step and the upper end face of the second step.

In a preferred embodiment, the gear ring is fixedly arranged on the inner side wall of the kettle cover, and the gear ring and the kettle cover are of an integral structure or a split disassembly and assembly structure.

In a preferred embodiment, the kettle cover further comprises a lower cover arranged below the spiral air supply assembly, and a plurality of air supply outlets are distributed on the lower cover.

In a preferred embodiment, the transmission ratio of the fan gear to the fan wheel is 0.5: 1-2: 1.

In a preferred embodiment, a support is arranged on the lower side surface of the kettle cover, the support comprises a partition plate with an air outlet and an air pipe communicated between the air inlet and the air outlet, and the partition plate and the kettle cover jointly enclose to form a sealed cavity; the spiral air supply assembly is located below the partition plate, and the driving device is located in the sealing cavity.

In a preferred embodiment, the air inlet is arranged on the top end surface of the kettle lid, the air outlet is positioned below the air inlet, and the air pipe is a straight pipe communicated between the air inlet and the air outlet.

In a preferred embodiment, the number of the air outlets is multiple, and the air outlets are distributed on the periphery of the orthographic projection area of the driving device; the number of the air inlets is consistent with that of the air outlets, and each air inlet is communicated with one air outlet in the corresponding position through one air pipe.

In a preferred embodiment, a plurality of the air ducts are distributed around the driving device in the sealed cavity, the air ducts are formed with hollow air ducts, top ends of the air ducts are communicated with the air inlet, and bottom ends of the air ducts are communicated with the air outlet.

The utility model provides a milk adjusting device, which comprises a base, wherein the base is provided with a liquid heating container.

Compared with the prior art, the utility model discloses following beneficial effect has:

the utility model discloses a liquid heating container abandons the single fan air-out mode of prior art's pot lid inner structure, and what innovated by drive arrangement drive fan impeller both do rotation motion under the meshing of fan gear and ring gear, also winds revolution circular motion is made to the axis of rotation of fan gear to carry out the spiral air supply to the heating intracavity, increase coverage utilizes the air current of spiral air current drive heating intracavity to flow, has accelerated the heat exchange rate of heating intracavity liquid and air, thereby takes away the heat of the high temperature liquid of heating intracavity, makes the liquid rapid cooling of heating intracavity, shortens cooling time greatly, improves the cooling effect.

The utility model discloses a milk adjusting device, through adopting foretell liquid heating container, utilize drive arrangement to drive fan wheel and both make rotation motion under the meshing of fan gear and ring gear, also wind revolution circular motion is made to the axis of rotation of fan gear to carry out the spiral air supply to the heating intracavity, increase coverage utilizes the air current that the spiral wind current drove the heating intracavity to flow, has accelerated the heat exchange rate of heating intracavity liquid and air, thereby takes away the heat of the high-temperature liquid of heating intracavity, makes the liquid rapid cooling of heating intracavity, shortens cooling time greatly, improves cooling effect.

Drawings

FIG. 1 is a schematic view of a milk conditioner;

FIG. 2 is a cross-sectional view of the milker;

FIG. 3 is an enlarged schematic view of A in FIG. 2;

FIG. 4 is an exploded view of the components of the milker;

FIG. 5 is a schematic view of the external gear ring of the fan wheel in the milk conditioner engaged with the internal teeth of the fan gear and the gear ring;

FIG. 6 is a partial schematic view of a jug cover in a milker;

FIG. 7 is a schematic view of the structure of the wind impeller in the milker;

FIG. 8 is a schematic view of the structure of a fan gear in the milker;

fig. 9 is a schematic structural view of a stand in the milker.

In the drawings, the reference numerals are respectively as follows:

100-kettle body, 110-kettle mouth, 104-heating device, 200-kettle cover, 200 a-sealing cavity, 201-air inlet, 202-lower cover, 203-air outlet, 211-clapboard, 212-air outlet, 213-air pipe, 214-axle pipe, 215-axle sealing element, 216-spacer bar, 240-sealing ring, 310-driving device, 320-fan gear, 322-second step, 330-gear ring, 331-internal tooth, 332-first step, 340-wind impeller, 341-external gear ring, 342-fan blade, 410-base, 411-water pump, 412-drain pipe, 413-water outlet pipe, 420-drain arm, 421-water outlet.

Detailed Description

To further clarify the technical solutions and effects adopted by the present application to achieve the intended purpose, the following detailed description is given with reference to the accompanying drawings and preferred embodiments according to the present application. In the following description, different "one embodiment" or "an embodiment" refers to not necessarily the same embodiment. Furthermore, the particular features, structures, or characteristics may be combined in any suitable manner in one or more embodiments.

The utility model provides a liquid heating container who provides rapid cooling (be referred to for short "liquid heating container" again), this liquid heating container can the concrete performance be different products (for example transfer the milk ware), the mode that utilizes the forced air cooling comes the cooling to the liquid of high temperature, and come to carry out the spiral air supply to the heating intracavity through the air supply arrangement's of improvement pot lid structure, increase coverage, utilize the air current that the spiral wind current drove the heating intracavity to flow, the heat exchange speed of heating intracavity liquid and air has been accelerated, thereby take away the heat of the high-temperature liquid of heating intracavity, make the liquid rapid cooling of heating intracavity, shorten the cool time greatly, improve the cooling effect.

Specifically, referring to fig. 1 to 9, the liquid heating container of the present invention includes a kettle body 100 having a heating cavity, a kettle lid 200 having an air inlet 201, and an air supply device disposed in the kettle lid 200, wherein the air supply device includes a spiral air supply assembly for supplying air to the interior of the heating cavity, and a driving device 310 drivingly connected to the spiral air supply assembly; the spiral air supply assembly comprises an air impeller 340 provided with an outer gear ring 341, a fan gear 320 in driving connection with the driving device 310 and a gear ring 330 coaxially arranged with the fan gear 320, wherein the gear ring 330 is arranged on the inner side surface of the kettle cover 200, and the air impeller 340 is meshed with the inner teeth of the fan gear 320 and the gear ring 330 through the outer gear ring 341.

The utility model discloses a drive arrangement 310 drives fan wheel 340 both makes rotation motion (be equipped with flabellum 342 in the fan wheel 340, works as when fan wheel 340 makes rotation motion, fan wheel 340 will produce the wind and flow), also winds revolution circular motion is made to fan gear 320's axis of rotation, through the movement track that changes fan wheel to carrying out the spiral air supply to the heating intracavity, increasing coverage utilizes the air current that the spiral wind flows and drives the heating intracavity to flow, has accelerateed the heat exchange rate of heating intracavity liquid and air, thereby takes away the heat of the high temperature liquid of heating intracavity, makes the liquid rapid cooling of heating intracavity, shortens cooling time greatly, improves the cooling effect.

In an actual use scene, when the liquid heating container is used as a milk mixing device of infant products, drinking water in a heating cavity is boiled and sterilized, the driving device 310 drives the fan gear 320 to rotate, the fan impeller 340 is driven to rotate under the meshing action of the fan gear 320 and the gear ring 330 and also to revolve around the rotating shaft of the fan gear 320, so that spiral air supply is performed to the heating cavity, the drinking water in the heating cavity can be rapidly cooled to the temperature required by milk powder brewing, and a user does not need to wait for a long time.

In a preferred embodiment, shown in connection with FIG. 3, the inner side of the ring gear 330 has a first step 332; the outer side of the fan gear 320 is provided with a second step 322; the lower end surface of the outer ring gear 341 contacts the upper end surface of the first step 332 and the upper end surface of the second step 322. In this embodiment, the wind impeller 340 is supported and supported by the upper end surface of the first step 332 and the upper end surface of the second step 322 on the inner side of the gear ring 330, so that the wind impeller 340 is prevented from falling under the action of gravity, and the wind impeller 340 can be meshed and connected with the fan gear 320 and the internal teeth 331 of the gear ring 330 through the external gear ring 341, thereby ensuring that the wind impeller 340 can normally operate.

In a preferred embodiment, the ring gear 330 is fixedly arranged on the inner side wall of the pot lid 200, the ring gear 330 and the pot lid 200 are of an integrated structure, and the ring gear 330 and the pot lid 200 are of an integrated structure in the embodiment, so that the ring gear 330 can be better fixed on the inner side wall of the pot lid 200, the structural strength is enhanced, the integrated structure can be conveniently machined and formed, the assembly steps can be reduced, and the production efficiency is improved.

In another embodiment, the gear ring 330 is fixedly arranged on the inner side wall of the pot lid 200, the gear ring 330 and the pot lid 200 are in a split disassembly and assembly structure, and the gear ring 330 and the pot lid 200 are detachably arranged through the design of the split disassembly and assembly structure, so that even if the gear ring 330 or the pot lid 200 is damaged in the using process, the damaged parts can be replaced as required, and the maintenance cost is reduced.

In a preferred embodiment, the kettle lid 200 further comprises a lower lid 202 disposed below the spiral air supply assembly, and the lower lid 202 is distributed with a plurality of air supply outlets 203. This embodiment is provided with lower cover 202 through the below at spiral air supply subassembly, prevents that the foreign matter is direct to collide and the damage that arouses with spiral air supply subassembly, protects spiral air supply subassembly, can also avoid arbitrary part in the spiral air supply subassembly to loosen and take off the condition emergence that drops. The lower cover 202 is provided with a plurality of air supply openings 203, the spiral air flow blown out by the spiral air supply assembly can be blown out through the plurality of air supply openings 203, in addition, when high-temperature steam generated by the heating cavity is in contact with the lower cover 202, only part of the high-temperature steam can enter through the plurality of air supply openings 203, and therefore the high-temperature steam is better intercepted outside the pot cover 200.

In a preferred embodiment, the transmission ratio of the fan gear 320 to the fan impeller 340 is 0.5: 1-2: 1. When the transmission ratio of the fan gear 320 to the fan impeller 340 in this embodiment is 0.5:1, the rotation speed of the wind impeller 340 is reduced, and the revolution speed of the wind impeller 340 around the rotation shaft of the fan gear 320 is increased, so that the heat dissipation effect of the spiral air supply assembly is obviously improved; when the transmission ratio of the fan gear 320 to the fan impeller 340 in this embodiment is 2:1, the rotation speed of the fan impeller 340 is increased, and the speed of the fan impeller 340 revolving around the rotation axis of the fan gear 320 is decreased, so that the noise generated by the spiral air supply assembly is reduced.

Preferably, the transmission ratio of the fan gear 320 to the fan impeller 340 is 1:1, and the heat dissipation effect of the spiral air supply assembly under the structure is 2 relative to the transmission ratio: 1, the heat dissipation effect of the spiral air supply assembly is better, and the noise generated by the spiral air supply assembly under the structure is 0.5 relative to the transmission ratio: the spiral air supply assembly of 1 generates low noise.

In a preferred embodiment, a bracket is arranged on the lower side of the kettle cover 200, the bracket comprises a partition 211 with an air outlet 212 and an air pipe 213 communicated between the air inlet 201 and the air outlet 212, and the partition 211 and the kettle cover 200 jointly enclose to form a sealed cavity 200 a; the spiral air supply assembly is located below the partition 211, and the driving device 310 is located in the sealing chamber 200 a.

The sealing cavity 200a is enclosed by the partition plate 211 and the kettle lid 200, so that the driving device 310 in the sealing cavity 200a can isolate high-temperature steam from the outside of the kettle lid 200, thereby ensuring that the driving device 310 cannot be affected by the high-temperature steam to fail, protecting the driving device 310, and improving the service life and the use safety of the driving device 310. And simultaneously, the utility model discloses an tuber pipe 213 intercommunication air intake 201 and air outlet 212, make the tuber pipe 213 can not separate the space in the sealed chamber 200a once more, both ensure that sealed chamber 200a provides sufficient installation space for drive arrangement 310, conveniently install drive arrangement 310 in the sealed chamber 200a, also pass sealed chamber 200a through tuber pipe 213, the partial heat that drive arrangement 310 gived off in the sealing washer 240 can be taken away when letting the cold air that inhales in the tuber pipe 213 flow through tuber pipe 213, be favorable to drive arrangement 310's heat dissipation, drive arrangement 310's operational reliability has been ensured. When the driving device 310 is powered to drive the spiral air supply assembly to work, the spiral air supply assembly located below the partition 211 extracts air at the air inlet 201 through the air outlet 212 and the air duct 213, generates spiral air flow, and blows the spiral air flow to a designated area as required.

In a preferred embodiment, the air inlet 201 is disposed on the top end surface of the pot lid 200, the air outlet 212 is located below the air inlet 201, and the air pipe 213 is a straight pipe communicated between the air inlet 201 and the air outlet 212. The air pipe 213 of this embodiment adopts the straight tube design, is favorable to improving the air inlet smoothness nature between air intake 201 to the air outlet 212 for the wind channel design becomes reasonable, and air intake 201 sets up the top terminal surface at pot lid 200 in addition, and high temperature steam enters into behind the air pipe 213, can discharge via the air intake 201 of pot lid 200 top terminal surface, avoids the damage to human body or object that brings from pot lid 200 side exhaust high temperature steam.

In a preferred embodiment, the partition 211 is provided with a shaft tube 214, a transmission shaft of the driving device 310 is inserted through the shaft tube 214, and a shaft sealing member 215 is arranged between the shaft tube 214 and the transmission shaft; or/and a sealing ring 240 is arranged between the kettle cover 200 and the partition 211. The shaft sealing element 215 is arranged between the shaft tube 214 and the transmission shaft of the embodiment, so that high-temperature steam outside the kettle lid 200 is prevented from entering the sealing cavity 200a through the connection part of the shaft tube 214 and the transmission shaft, the driving device 310 in the sealing cavity 200a is effectively protected, the driving device 310 is prevented from being affected by the high-temperature steam and failing, and the service life and the use safety of the driving device 310 are improved.

Preferably, the shaft sealing element 215 includes a bearing sleeved on the transmission shaft and a bearing sealing ring 240 used in cooperation with the bearing, and the bearing sealing ring 240 are tightly fitted to prevent high-temperature steam in the heating cavity from entering the sealing cavity 200a through the connection between the shaft tube 214 and the transmission shaft.

Further, in this embodiment, the sealing ring 240 is disposed between the pot lid 200 and the partition 211, and the sealing ring 240 is used to prevent high-temperature steam outside the pot lid 200 from entering the sealing cavity 200a, so as to better protect the driving device 310 located in the sealing cavity 200a, ensure that the driving device 310 does not fail due to the influence of the high-temperature steam, and improve the service life and the safety of the driving device 310.

In a preferred embodiment, the number of the air outlets 212 is multiple, and the air outlets 212 are distributed on the periphery of the orthographic projection area of the driving device 310; the number of the air inlets 201 is the same as that of the air outlets 212, and each air inlet 201 is communicated with one air outlet 212 at the corresponding position through one air pipe 213. This embodiment makes it provide more air for the spiral air supply subassembly that is located the baffle 211 below through setting up a plurality of air outlets 212 to supply the air of spiral air supply subassembly top, so that the spiral air supply subassembly lasts the air-out. Moreover, the number of the air inlets 201 is consistent with that of the air outlets 212, so that enough air inlets and enough air outlets are ensured to provide enough air supplement for the spiral air supply assembly, and each air inlet 201 is communicated with the corresponding air outlet 212 through only one air pipe 213, so that the air inlet fluency can be ensured.

Preferentially, the air inlet is located directly over the air outlet, so that the distance from the air inlet to the air outlet is shortened (namely the length of the air pipe is shortened), the suction force to the air outside the pot cover is increased, and meanwhile, the material of the air pipe can be saved.

Preferably, the air inlets 201 are uniformly distributed on the periphery of the orthographic projection area of the driving device 310, so that air outside the pot lid 200 can be uniformly introduced into the air duct 213 through the air inlets 201. It should be noted that, here, the air inlets 201 are uniformly distributed on the periphery of the orthographic projection area of the driving device 310, which means that the air inlets 201 are uniformly distributed on the periphery of the orthographic projection area of the driving device 310 on the top end surface of the pot lid 200 when the air inlets 201 are located on the top end surface of the pot lid 200.

In a preferred embodiment, a plurality of said air ducts 213 are distributed around said drive means within said sealed chamber. The air pipe is provided with a hollow air duct, the top end of the air duct is communicated with the air inlet, and the bottom end of the air pipe is communicated with the air outlet. Through will be a plurality of tuber pipe 213 encircles drive arrangement distributes, lets a plurality of tuber pipe 213 encloses to close and forms the assembly drive arrangement's space, in the manufacturing process of production personnel can in advance with the position of drive arrangement assembly between many tuber pipes for the assembly process becomes the simplification, is favorable to improving production efficiency. Simultaneously, it is a plurality of tuber pipe 213 encircles drive arrangement distributes and makes tuber pipe 213 is close to drive arrangement's lateral surface even butt setting, makes things convenient for drive arrangement 310 to conduct fast to tuber pipe 213 at the heat that the during operation produced, utilizes the flow of the cold air in the tuber pipe 213 to take away the heat, improves drive arrangement 310's heat-sinking capability in order to improve drive arrangement's operational reliability.

Further, the partition 211 is provided with the partition ribs 216 having the same number as the air pipes 213, and the two sides of one air pipe 213 are respectively provided with the partition ribs 216, so that the air pipes 213 are prevented from collapsing, and the structural stability of the partition 211 is enhanced.

In a preferred embodiment, the driving device is a motor or a rotary cylinder.

In a preferred embodiment, the upper end of the kettle body is provided with a spout, so that the air in the heating cavity flows out through the spout, thereby forming an air flow path from the air supply opening to the heating cavity and then flows out from the spout.

The utility model provides a milk adjusting device, which comprises a base 410, wherein the base 410 is provided with the liquid heating container. By adopting the liquid heating container, the driving device 310 in the kettle lid 200 drives the spiral air supply assembly to work, so that the liquid in the heating cavity in the kettle body 100 is cooled by air cooling, and the liquid in the heating cavity is cooled rapidly. And simultaneously, the utility model discloses in the innovation install baffle 211 with drive arrangement 310 and pot lid 200 enclose synthetic sealed chamber 200a jointly, effective isolated high temperature steam that comes from heating intracavity liquid ensures that drive arrangement 310 can not receive high temperature steam's influence and inefficacy, protects drive arrangement 310, improves drive arrangement 310's life and safe in utilization.

Further, the utility model discloses a transfer milk ware can also set up heating device 104 bottom base 410 or the kettle body, and heating device 104 generates heat when getting electricity, heats the liquid of heating intracavity portion and heats and boil. After the liquid is boiled (for example, the drinking water is heated to boiling), the air supply device in the pot lid 200 provides an air cooling way for cooling, so as to take away the heat of the high-temperature liquid in the heating cavity.

Wherein, heating device 104 is for heating set and the heat-generating body of laminating on the dish that generates heat (for example, the heat-generating body is heating tube, heating wire, silica gel electric heat line or electric heat membrane), is in by the laminating heat-generating body on the dish that generates heat heats the dish that generates heat, thereby it is right liquid in the heating chamber heats and boils.

In a preferred embodiment, the milk mixing device further comprises a drainage arm 420 extending upwards from the base 410, one end of the pot lid 200 close to the drainage arm 420 is rotatably connected with the top end of the drainage arm 420, and the pot lid 200 and the pot body 100 are covered by rotating the pot lid 200.

Preferably, the lid 200 is hinged to the top end of the drain arm 420.

In a preferred embodiment, the bottom of the heating cavity is provided with a water outlet; a water pump 411, a water discharge pipe 412 and a water discharge pipe 413 are arranged in the base 410; one end of the drain pipe 412 is communicated with the drain port, and the other end is communicated with the water inlet end of the water pump 411; one end of the water outlet pipe 413 is communicated with the water outlet end of the water pump 411, and the other end of the water outlet pipe is communicated with the water outlet 421 of the water discharging arm 420, so that the liquid in the heating cavity is pumped to the water outlet, and the drinking water in the heating cavity can be taken out without using the spout 110.

The above description is only exemplary of the present application and should not be taken as limiting the present application, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims

1. A liquid heating container for providing rapid cooling comprises a kettle body with a heating cavity, a kettle cover with an air inlet and an air supply device arranged in the kettle cover, and is characterized in that the air supply device comprises a spiral air supply assembly for supplying air to the interior of the heating cavity in a spiral manner and a driving device in driving connection with the spiral air supply assembly; the spiral air supply assembly comprises an air impeller provided with an outer gear ring, a fan gear connected with the driving device in a driving mode and a gear ring coaxially arranged with the fan gear, the gear ring is arranged on the inner side face of the pot cover, and the air impeller passes through the outer gear ring and the fan gear and inner teeth of the gear ring are meshed with each other.

2. A liquid heating vessel as claimed in claim 1 wherein the inner side of said ring gear has a first step; the outer side of the fan gear is provided with a second step; the lower end face of the outer gear ring is in contact with the upper end face of the first step and the upper end face of the second step.

3. The liquid heating vessel of claim 1, wherein the gear ring is fixedly arranged on the inner side wall of the pot lid, and the gear ring and the pot lid are of an integral structure or a split disassembly and assembly structure.

4. The liquid heating vessel of claim 1, wherein the lid further comprises a lower lid disposed below the spiral air supply assembly, and the lower lid is provided with a plurality of air supply outlets.

5. The liquid heating vessel of claim 1 wherein the gear ratio of the fan gear to the fan wheel is 0.5: 1-2: 1.

6. A liquid heating vessel as claimed in any one of claims 1 to 5 wherein said lid is provided with a support on its underside, said support comprising a partition having an air outlet and an air duct communicating between said air inlet and said air outlet, said partition and said lid together enclosing a sealed chamber; the spiral air supply assembly is located below the partition plate, and the driving device is located in the sealing cavity.

7. The liquid heating container as claimed in claim 6, wherein the air inlet is formed in the top end surface of the kettle lid, the air outlet is formed below the air inlet, and the air duct is a straight pipe communicated between the air inlet and the air outlet.

8. The liquid heating container according to claim 6, wherein the number of the air outlets is plural, and the plural air outlets are distributed on the periphery of a forward projection area of the driving device; the number of the air inlets is consistent with that of the air outlets, and each air inlet is communicated with one air outlet in the corresponding position through one air pipe.

9. A liquid heating vessel as claimed in claim 6 wherein a plurality of said air ducts are distributed around said drive means within said sealed chamber, said air ducts defining a hollow air duct, the top end of said air duct communicating with said air inlet and the bottom end of said air duct communicating with an air outlet.

10. A milk mixer comprising a base, wherein the base is provided with a liquid heating container as claimed in any one of claims 1 to 9.