CN218500485U - Milk mixing device kettle body and milk mixing device with same - Google Patents

Abstract

The utility model provides a milk bottle adjusting kettle body. The utility model provides a transfer milk ware kettle body, includes the glass bottle that both ends link up, locates the electric heating assembly and the automatically controlled subassembly of glass bottle bottom, electric heating assembly with the automatically controlled subassembly electricity is connected, wherein, glass bottle bottom sealing connection has the main support, electric heating assembly is sealing connection and is in the main support top just stretches into the inside microcrystalline glass hot plate of glass bottle bottom, the microcrystalline glass hot plate outer along with the glass bottle inside wall is hugged closely, automatically controlled subassembly is located on the bottom surface of main support, microcrystalline glass hot plate with still be equipped with the heat reflection board between the automatically controlled subassembly. The utility model has the advantages of simple structure, convenient to use for the incrustation scale at the bottom of the kettle is very easily cleared up, does not influence pleasing to the eye.

Description

Milk mixing device kettle body and milk mixing device with same

Technical Field

The utility model relates to a small household electrical appliances technical field, more specifically relates to a transfer milk ware kettle body and have its transfer milk ware.

Background

The milk mixing device is also called as milk mixing device, and the original purpose is to warm cool boiled water to keep the temperature suitable for the baby to drink, so that the milk mixing device is used for mixing milk powder to feed the baby. Most of the existing milk conditioners adopt a metal heating plate as a kettle bottom of a kettle body, and a heating pipe is arranged on the bottom surface of the heating plate as a heat source for heating water. Therefore, when water is boiled, ions are rich in the water and can slowly adhere to the surface of the metal heating plate to form scale during the water boiling process, and particularly, the deposited scale at the position corresponding to the heating pipe is more obvious. And because the surface of the metal heating plate has certain roughness, scale attached on the metal heating plate is not easy to clean, and after long-time accumulation, the kettle bottom looks hard to see and gives an insanitary impression.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects that the existing milk adjusting device adopts a metal heating plate as the bottom of a kettle body and the kettle bottom is deposited with scale, is not easy to clean and affects the appearance, and provides a milk adjusting device kettle body and a milk adjusting device with the same. The utility model has the advantages of simple structure, convenient to use for the incrustation scale at the bottom of the kettle is very easily cleared up, does not influence pleasing to the eye.

In order to solve the technical problem, the utility model adopts the technical scheme that: the utility model provides a milk adjusting device kettle body, includes the glass bottle that link up at both ends, locates the electric heating assemblies and the electrical control component of glass bottle bottom, electric heating assemblies with the electrical control component electricity is connected, wherein, glass bottle bottom sealing connection has the main support, electric heating assemblies is sealing connection and is in the main support top just stretches into the inside microcrystalline glass hot plate of glass bottle bottom, the microcrystalline glass hot plate outer along with the glass bottle inside wall is hugged closely, electrical control component locates on the bottom surface of main support, microcrystalline glass hot plate with still be equipped with the heat reflection board between the electrical control component. Like this, be a monoblock microcrystalline glass hot plate at the bottom of the kettle of milk adjusting device kettle body, microcrystalline glass hot plate can rapid heating to can not burst, more importantly microcrystalline glass hot plate is extremely smooth as the surface at the bottom of the kettle, the difficult absorption of ion in the water boiling in-process aquatic is on its surface, even some ions have adsorbed and have formed the incrustation scale on its surface, because its surface is extremely smooth, can clear away the incrustation scale as long as gently clean, it is convenient to clear up, thereby it is pleasing to the eye to influence even long-term use can not accumulate the incrustation scale yet. Meanwhile, the heat reflection plate can reflect the heat emitted by the microcrystalline glass heating plate to the lower part of the kettle bottom back to the inside of the kettle body, so that the water boiling speed is higher, and electrical elements below the kettle bottom can be protected from being influenced by the heat.

Furthermore, the microcrystalline glass heating plate comprises a microcrystalline glass plate and an electrothermal film arranged on the bottom end face of the microcrystalline glass plate, the electrothermal film is an infrared electrothermal film, and two poles of the electrothermal film are electrically connected with the electric control assembly. The infrared electrothermal film has high heating efficiency, and the microcrystalline glass plate is heated and does not expand, so that the microcrystalline glass heating plate can be rapidly heated to boil water, and the water cannot burst.

Further, the main support includes with the bottom terminal surface gomphosis of glass bottle and be used for the sealed first ring channel of gluing, with the bottom terminal surface of microcrystalline glass hot plate is connected and is used for the sealed second ring channel of gluing. The annular groove is arranged for gluing, so that the gluing amount can be increased, and the reliability of the sealing connection of the glass bottle body, the microcrystalline glass heating plate and the main support is ensured.

Further, the electric control assembly comprises an electric control support, and an upper coupler, a control mainboard and an NTC temperature sensing probe which are arranged on the electric control support are arranged, the electric heating film, the upper coupler and the NTC temperature sensing probe are connected with the control mainboard, the NTC temperature sensing probe is abutted against the bottom surface of the microcrystalline glass heating plate, and the electric control support is connected to the bottom surface of the main support.

Furthermore, the heat reflection plate is fixedly arranged on the electric control bracket.

Further, the NTC temperature sensing probe includes a first NTC temperature sensing probe and a second NTC temperature sensing probe, the first NTC temperature sensing probe with the electric heat film butt on the microcrystalline glass heating plate, the second NTC temperature sensing probe with the microcrystalline glass plate butt that is not covered by the electric heat film on the microcrystalline glass heating plate. The first NTC temperature sensing probe is used for detecting the temperature of the electric heating film so as to prevent the electric heating film from being overhigh in temperature and being burnt dry; the second NTC temperature sensing probe detects the temperature of the microcrystalline glass plate, and the temperature of the microcrystalline glass plate which is not covered by the electrothermal film is close to the water temperature in the kettle body, so that the temperature of the microcrystalline glass plate detected by the second NTC temperature sensing probe can be taken as the water temperature.

Furthermore, a plurality of horses are arranged on the bottom surface of the main support, and the electric control support is fixed on the horses through screws.

Further, the main support and the horses are made of metal materials, and the heat reflection plate is made of mirror aluminum plates.

Furthermore, the bottom of the glass bottle body is covered with an insulating shell, and the main support, the microcrystalline glass heating plate, the electric control assembly and the heat reflection plate are all arranged in the insulating shell.

The utility model also provides a transfer the milk ware, wherein, including the base with can dismantle connect in kettle body on the base, the kettle body is foretell transfer the milk ware kettle body. The base top surface is equipped with down the coupler and with the power cord that the coupler is connected down, when the kettle body was placed on the base, the lower coupler of base top surface was connected with the last coupler of kettle body bottom, can realize being connected with external power source through the power cord on the base.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses a microcrystalline glass hot plate is at the bottom of as the kettle of the accent milk ware kettle body, microcrystalline glass hot plate can rapid heating up to can not burst, more importantly microcrystalline glass hot plate is extremely smooth as the surface at the bottom of the kettle, the difficult absorption of ion in the boiling water in-process aquatic is on its surface, even some ions have adsorbed and have formed the incrustation scale on its surface, because its surface is extremely smooth, as long as clean gently can clear away the incrustation scale, it is convenient to clear up, thereby even long-term use can not accumulate the incrustation scale yet and influence beautifully.

The utility model discloses set up the heat reflection board below the microcrystalline glass hot plate, the design of heat reflection board can also reflect the heat that the microcrystalline glass hot plate gived off to kettle bottom below inside the kettle body for it is faster to boil water, and can also protect the electrical components below the kettle bottom to avoid thermal influence.

Drawings

FIG. 1 is a schematic view of the overall structure of a milk bottle body of the milk bottle adjusting device;

FIG. 2 is an internal structure view of the milk bottle body of the milk adjusting device;

fig. 3 is an exploded view of the bottle body of the milk adjust device of the present invention;

fig. 4 is a schematic structural view of the microcrystalline glass heating plate of the present invention.

Fig. 5 is a schematic structural view of the main support of the present invention.

Detailed Description

The present invention will be further described with reference to the following embodiments. Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; for a better explanation of the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

The same or similar reference numerals in the drawings of the embodiments of the present invention correspond to the same or similar parts; in the description of the present invention, it should be understood that if there are the terms "upper", "lower", "left", "right", etc. indicating the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, it is only for convenience of description and simplification of the description, but it is not intended to indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore the terms describing the positional relationship in the drawings are only for illustrative purposes and are not to be construed as limitations of the present patent, and those skilled in the art can understand the specific meanings of the terms according to specific situations.

Example 1

As shown in fig. 1 to 3, a milk mixing device kettle body, including the glass bottle 1 that both ends link up, locate electric heating element and the automatically controlled subassembly of 1 bottom of glass bottle, electric heating element with the automatically controlled subassembly electricity is connected, its characterized in that, 1 bottom sealing connection of glass bottle has main support 2, electric heating element is sealing connection 2 top of main support and stretch into the inside microcrystalline glass hot plate 3 in 1 bottom of glass bottle, microcrystalline glass hot plate 3 outer edge with 1 inside wall of glass bottle is hugged closely, automatically controlled subassembly is located on the bottom surface of main support 2, microcrystalline glass hot plate 3 with still be equipped with heat reflection board 4 between the automatically controlled subassembly. Like this, it is a monoblock microcrystalline glass heating plate 3 at the bottom of the kettle of milk adjusting device kettle body, microcrystalline glass heating plate 3 can rapid heating up, and can not burst, more importantly microcrystalline glass heating plate 3 is extremely smooth as the surface at the bottom of the kettle, the difficult absorption of the ion of boiling water in-process aquatic is on its surface, even some ions have adsorbed and have formed the incrustation scale on its surface, because its surface is extremely smooth, can clear away the incrustation scale as long as wipe gently, it is convenient to clear up, thereby even long-term use can not accumulate the incrustation scale yet and influence beautifully. Meanwhile, the heat reflecting plate 4 can reflect the heat dissipated from the microcrystalline glass heating plate 3 to the lower part of the kettle bottom into the kettle body, so that the water boiling speed is higher, and electrical elements below the kettle bottom can be protected from being influenced by the heat.

As shown in fig. 2 and 3, the electric control assembly includes an electric control support 5, an upper coupler 6, a control motherboard and an NTC temperature sensing probe which are disposed on the electric control support 5, the electric heating film 32, the upper coupler 6 and the NTC temperature sensing probe are all connected to the control motherboard, the NTC temperature sensing probe is abutted to the bottom surface of the microcrystalline glass heating plate 3, and the electric control support 5 is connected to the bottom surface of the main support 2.

As shown in fig. 2, the heat reflection plate 4 is fixedly mounted on the electric control bracket 5.

As shown in fig. 3, the NTC temperature sensing probe includes a first NTC temperature sensing probe 7 and a second NTC temperature sensing probe 8, the first NTC temperature sensing probe 7 is abutted to an electrothermal film 32 on the microcrystalline glass heating plate 3, and the second NTC temperature sensing probe 8 is abutted to a microcrystalline glass plate 31 on the microcrystalline glass heating plate 3, which is not covered by the electrothermal film 32. The first NTC temperature sensing probe 7 is used for detecting the temperature of the electrothermal film 32 to prevent the electrothermal film from being over-heated and being dry-burned; the second NTC temperature sensing probe 8 senses the temperature of the microcrystalline glass plate 31, and since the temperature of the microcrystalline glass plate 31 which is not covered by the electrothermal film 32 is close to the temperature of water in the kettle body, the temperature of the microcrystalline glass plate 31 sensed by the second NTC temperature sensing probe 8 can be regarded as the temperature of water.

As shown in fig. 2 and 5, a plurality of horses 9 are provided on the bottom surface of the main support 2, and the electric control support 5 is fixed to the horses 9 by screws.

In this embodiment, the main support 2 and the collar stays 9 are made of metal, and the heat reflection plate 4 is made of a mirror aluminum plate.

As shown in fig. 1 and 3, an insulating casing 10 covers the bottom of the glass bottle body 1, and the main support 2, the microcrystalline glass heating plate 3, the electric control assembly and the heat reflection plate 4 are all arranged in the insulating casing 10.

Example 2

As shown in fig. 1 to fig. 3, a transfer milk ware kettle body, including the glass bottle 1 that link up at both ends, locate the electrical heating component and the electrical control component of 1 bottom of glass bottle, the electrical heating component with the electrical control component electricity is connected, its characterized in that, 1 bottom sealing connection of glass bottle has main support 2, the electrical heating component is sealing connection 2 tops of main support and stretch into the inside microcrystalline glass hot plate 3 in 1 bottom of glass bottle, microcrystalline glass hot plate 3 outer along with 1 inside wall of glass bottle is hugged closely, electrical control component locates on the bottom surface of main support 2, microcrystalline glass hot plate 3 with still be equipped with heat reflection plate 4 between the electrical control component. Like this, it is a monoblock microcrystalline glass heating plate 3 at the bottom of the kettle of milk adjusting device kettle body, microcrystalline glass heating plate 3 can rapid heating up, and can not burst, more importantly microcrystalline glass heating plate 3 is extremely smooth as the surface at the bottom of the kettle, the difficult absorption of the ion of boiling water in-process aquatic is on its surface, even some ions have adsorbed and have formed the incrustation scale on its surface, because its surface is extremely smooth, can clear away the incrustation scale as long as wipe gently, it is convenient to clear up, thereby even long-term use can not accumulate the incrustation scale yet and influence beautifully. Meanwhile, the heat reflecting plate 4 can reflect the heat dissipated from the microcrystalline glass heating plate 3 to the lower part of the kettle bottom into the kettle body, so that the water boiling speed is higher, and electrical elements below the kettle bottom can be protected from being influenced by the heat.

As shown in fig. 4, the microcrystalline glass heating plate 3 includes a microcrystalline glass plate 31 and an electrothermal film 32 disposed on the bottom end surface thereof, the electrothermal film 32 is an infrared electrothermal film 32, and two poles of the electrothermal film 32 are electrically connected to the electric control assembly. The infrared electric heating film 32 has high heating efficiency, and the microcrystalline glass plate 31 is heated and does not expand, so that the microcrystalline glass heating plate 3 can be rapidly heated to boil water, and the explosion can not occur.

As shown in fig. 2 and 3, the electric control assembly includes an electric control support 5, an upper coupler 6, a control motherboard and an NTC temperature sensing probe which are disposed on the electric control support 5, the electric heating film 32, the upper coupler 6 and the NTC temperature sensing probe are all connected to the control motherboard, the NTC temperature sensing probe is abutted to the bottom surface of the microcrystalline glass heating plate 3, and the electric control support 5 is connected to the bottom surface of the main support 2.

As shown in fig. 2, the heat reflection plate 4 is fixedly mounted on the electric control bracket 5.

As shown in fig. 3, the NTC temperature sensing probe includes a first NTC temperature sensing probe 7 and a second NTC temperature sensing probe 8, the first NTC temperature sensing probe 7 is abutted to an electrothermal film 32 on the microcrystalline glass heating plate 3, and the second NTC temperature sensing probe 8 is abutted to a microcrystalline glass plate 31 on the microcrystalline glass heating plate 3, which is not covered by the electrothermal film 32. The first NTC temperature sensing probe 7 is used for detecting the temperature of the electrothermal film 32 to prevent the electrothermal film from being over-heated and being dry-burned; the second NTC temperature sensing probe 8 senses the temperature of the microcrystalline glass plate 31, and since the temperature of the microcrystalline glass plate 31 which is not covered by the electrothermal film 32 is close to the temperature of water in the kettle body, the temperature of the microcrystalline glass plate 31 sensed by the second NTC temperature sensing probe 8 can be regarded as the temperature of water.

As shown in fig. 2 and 5, a plurality of horses 9 are provided on the bottom surface of the main support 2, and the electric control support 5 is fixed to the horses 9 by screws.

In this embodiment, the main support 2 and the horse-shaped toys 9 are both made of metal materials, and the heat reflection plate 4 is made of a mirror aluminum plate.

As shown in fig. 2 and 3, an insulating casing 10 covers the bottom of the glass bottle body 1, and the main support 2, the microcrystalline glass heating plate 3, the electric control assembly and the heat reflection plate 4 are all arranged in the insulating casing 10.

Example 3

As shown in fig. 1 to 3, a milk mixing device kettle body, including the glass bottle 1 that both ends link up, locate electric heating element and the automatically controlled subassembly of 1 bottom of glass bottle, electric heating element with the automatically controlled subassembly electricity is connected, its characterized in that, 1 bottom sealing connection of glass bottle has main support 2, electric heating element is sealing connection 2 top of main support and stretch into the inside microcrystalline glass hot plate 3 in 1 bottom of glass bottle, microcrystalline glass hot plate 3 outer edge with 1 inside wall of glass bottle is hugged closely, automatically controlled subassembly is located on the bottom surface of main support 2, microcrystalline glass hot plate 3 with still be equipped with heat reflection board 4 between the automatically controlled subassembly. Like this, it is a monoblock microcrystalline glass heating plate 3 at the bottom of the kettle of milk adjusting device kettle body, microcrystalline glass heating plate 3 can rapid heating up, and can not burst, more importantly microcrystalline glass heating plate 3 is extremely smooth as the surface at the bottom of the kettle, the difficult absorption of the ion of boiling water in-process aquatic is on its surface, even some ions have adsorbed and have formed the incrustation scale on its surface, because its surface is extremely smooth, can clear away the incrustation scale as long as wipe gently, it is convenient to clear up, thereby even long-term use can not accumulate the incrustation scale yet and influence beautifully. Meanwhile, the heat reflection plate 4 can reflect the heat emitted from the microcrystalline glass heating plate 3 to the lower part of the kettle bottom into the kettle body, so that the water boiling speed is higher, and electrical elements below the kettle bottom can be protected from being influenced by the heat.

As shown in fig. 4, the microcrystalline glass heating plate 3 includes a microcrystalline glass plate 31 and an electrothermal film 32 disposed on the bottom end surface thereof, the electrothermal film 32 is an infrared electrothermal film 32, and two poles of the electrothermal film 32 are electrically connected to the electric control assembly. The infrared electric heating film 32 has high heating efficiency, and the microcrystalline glass plate 31 is heated and does not expand, so that the microcrystalline glass heating plate 3 can be rapidly heated to boil water, and the explosion can not occur.

As shown in fig. 5, the main support 2 includes a first annular groove 21 for sealing and gluing, which is embedded in the bottom end surface of the glass bottle body 1, and a second annular groove 22 for sealing and gluing, which is connected to the bottom end surface of the microcrystalline glass heating plate 3. The annular groove is arranged for gluing, so that the gluing amount can be increased, and the reliability of the sealing connection of the glass bottle body 1, the microcrystalline glass heating plate 3 and the main support 2 is ensured.

As shown in fig. 2 and 3, the electric control assembly includes an electric control support 5, an upper coupler 6, a control motherboard and an NTC temperature sensing probe which are disposed on the electric control support 5, the electric heating film 32, the upper coupler 6 and the NTC temperature sensing probe are all connected to the control motherboard, the NTC temperature sensing probe is abutted to the bottom surface of the microcrystalline glass heating plate 3, and the electric control support 5 is connected to the bottom surface of the main support 2.

As shown in fig. 2, the heat reflection plate 4 is fixedly installed on the electric control bracket 5.

As shown in fig. 3, the NTC temperature sensing probe includes a first NTC temperature sensing probe 7 and a second NTC temperature sensing probe 8, the first NTC temperature sensing probe 7 is abutted to an electrothermal film 32 on the microcrystalline glass heating plate 3, and the second NTC temperature sensing probe 8 is abutted to a microcrystalline glass plate 31 on the microcrystalline glass heating plate 3, which is not covered by the electrothermal film 32. The first NTC temperature sensing probe 7 is used for detecting the temperature of the electrothermal film 32 to prevent the temperature from being overhigh and being burnt; the second NTC temperature sensing probe 8 senses the temperature of the microcrystalline glass plate 31, and since the temperature of the microcrystalline glass plate 31 which is not covered by the electrothermal film 32 is close to the temperature of water in the kettle body, the temperature of the microcrystalline glass plate 31 sensed by the second NTC temperature sensing probe 8 can be regarded as the temperature of water.

As shown in fig. 4, a plurality of horses 9 are provided on the bottom surface of the main support 2, and the electric control support 5 is fixed to the horses 9 by screws.

In this embodiment, the main support 2 and the horse-shaped toys 9 are both made of metal materials, and the heat reflection plate 4 is made of a mirror aluminum plate.

As shown in fig. 2 and 3, an insulating casing 10 covers the bottom of the glass bottle body 1, and the main support 2, the microcrystalline glass heating plate 3, the electric control assembly and the heat reflection plate 4 are all arranged in the insulating casing 10.

Example 4

A milk mixing device comprises a base and a kettle body detachably connected to the base, wherein the kettle body is the milk mixing device kettle body in embodiment 3. The base top surface is equipped with down the coupler and with the power cord that the coupler is connected down, when the kettle body was placed on the base, the lower coupler of base top surface was connected with the last coupler 6 of kettle body bottom, can realize being connected with external power source through the power cord on the base.

It is obvious that the above embodiments of the present invention are only examples for clearly illustrating the present invention, and are not limitations to the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (10)

1. The utility model provides a milk adjusting device kettle body, includes glass bottle (1) that link up at both ends, locates the electric heating assemblies and the automatically controlled subassembly of glass bottle (1) bottom, electric heating assemblies with the automatically controlled subassembly electricity is connected, its characterized in that, glass bottle (1) bottom sealing connection has main support (2), electric heating assemblies is sealing connection and is in main support (2) top just stretches into glass bottle (1) inside microcrystalline glass hot plate (3) in bottom, microcrystalline glass hot plate (3) outer edge with glass bottle (1) inside wall is hugged closely, automatically controlled subassembly is located on the bottom surface of main support (2), microcrystalline glass hot plate (3) with still be equipped with heat reflection board (4) between the automatically controlled subassembly.

2. The milk bottle kettle body as claimed in claim 1, wherein the microcrystalline glass heating plate (3) comprises a microcrystalline glass plate (31) and an electric heating film (32) arranged on the bottom end face of the microcrystalline glass plate, the electric heating film (32) is an infrared electric heating film, and two poles of the electric heating film (32) are electrically connected with the electric control assembly.

3. The milk bottle pot body according to claim 2, wherein the main support (2) comprises a first annular groove (21) which is embedded with the bottom end face of the glass bottle body (1) and is used for sealing and gluing, and a second annular groove (22) which is connected with the bottom end face of the microcrystalline glass heating plate (3) and is used for sealing and gluing.

4. The milk mixing bottle kettle body according to claim 3, wherein the electric control assembly comprises an electric control support (5), an upper coupler (6), a control mainboard and an NTC temperature sensing probe which are arranged on the electric control support (5), the electric heating film (32), the upper coupler (6) and the NTC temperature sensing probe are all connected with the control mainboard, the NTC temperature sensing probe is abutted against the bottom surface of the microcrystalline glass heating plate (3), and the electric control support (5) is connected on the bottom surface of the main support (2).

5. The milker kettle body according to claim 4, wherein the heat reflection plate (4) is fixedly mounted on the electrically controlled holder (5).

6. The milk mixing kettle body according to claim 4, wherein the NTC temperature sensing probe comprises a first NTC temperature sensing probe (7) and a second NTC temperature sensing probe (8), the first NTC temperature sensing probe (7) is abutted with an electrothermal film (32) on the microcrystalline glass heating plate (3), and the second NTC temperature sensing probe (8) is abutted with a microcrystalline glass plate (31) which is not covered by the electrothermal film (32) on the microcrystalline glass heating plate (3).

7. The milk bottle kettle body as claimed in claim 4, wherein a plurality of horses (9) are arranged on the bottom surface of the main bracket (2), and the electric control bracket (5) is fixed on the horses (9) through screws.

8. The milk whisk kettle body as claimed in claim 7, wherein the main support (2) and the collar (9) are made of metal material, and the heat reflection plate (4) is made of mirror aluminum plate.

9. The milk bottle kettle body as claimed in claim 1, wherein the bottom of the glass bottle body (1) is covered with an insulating shell (10), and the main support (2), the microcrystalline glass heating plate (3), the electric control component and the heat reflection plate (4) are all arranged in the insulating shell (10).

10. A milk mixing device, comprising a base and a kettle body detachably connected to the base, wherein the kettle body is the milk mixing device kettle body as claimed in any one of claims 1 to 9.

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