CN219042662U - Coffee milk bubble all-in-one - Google Patents

Abstract

The utility model relates to a coffee and milk foam integrated machine which comprises a base, a milk foam kettle and a friction card kettle, wherein the top of the base is provided with a containing groove, a heating disc and a temperature sensor for measuring the temperature of the milk foam kettle or the friction card kettle are arranged in the containing groove, the milk foam kettle or the friction card kettle is placed on the containing groove and is seated on the heating disc, a motor and a temperature controller for measuring the temperature of the heating disc are arranged in the base, a driving magnetic block is arranged on a rotating shaft of the motor, the motor and the driving magnetic block are positioned below the heating disc, a stirrer is arranged in the milk foam kettle, and a driven magnetic block is fixed on the stirrer. The utility model utilizes the base to be respectively matched with the milk foam kettle and the mocha kettle to respectively prepare milk foam and coffee. The novel temperature sensor and the temperature controller are adopted to realize accurate temperature control on the heating disc, and the function of boiling mocha coffee is realized under the condition that the preset value of milk temperature and the temperature resistance value of the plastic shell are met, so that the multifunctional milk boiler is realized.

Description

Coffee milk bubble all-in-one

Technical Field

The utility model relates to the technical field of coffee milk foam manufacturing, in particular to a coffee milk foam integrated machine.

Background

The milk beverage heating stirrer is a device for heating, stirring and foaming fresh milk, is also commonly called a milk foam machine, and has been widely used in household and commercial fields. Currently, the milk foam machine on the market mainly has three functions: preparing normal-temperature milk foam, preparing hot milk foam and heating milk, adding milk and milk foam with different proportions into the cooked coffee after the milk is processed, and preparing various fancy coffee such as cappuccino, latte, mocha and the like. In the heating process of the milk frothing machine, the temperature of milk in the stirring cup needs to be measured by a temperature control device, and the temperature of the milk is controlled between a preset value of a preferred frothing temperature and the temperature of the milk so as to keep enough frothing quantity of the milk and good taste. The existing milk frothing machines on the market are limited by the characteristics of preset milk temperature and low temperature resistance of the plastic shell, and cannot meet the requirements of coffee making.

Disclosure of Invention

The utility model aims to provide a coffee and milk foam integrated machine capable of making coffee and milk foam.

The purpose of the utility model is realized in the following way:

the utility model provides a coffee milk bubble all-in-one, includes base, milk bubble kettle and friction card kettle, the top of base is equipped with the storage tank, be equipped with the dish that generates heat in the storage tank and be used for measuring milk bubble kettle or friction card kettle temperature sensor, milk bubble kettle or friction card kettle place on the storage tank to sit on the dish that generates heat, be equipped with the motor in the base and be used for measuring the temperature controller that generates heat the dish temperature, be equipped with the drive magnetic path in the pivot of motor, motor and drive magnetic path are located the below that generates heat the dish, milk bubble kettle internal rotation is equipped with the agitator, be fixed with driven magnetic path on the agitator. The utility model utilizes the base to be respectively matched with the milk foam kettle and the mocha kettle to respectively prepare milk foam and coffee. The novel temperature sensor and the temperature controller are adopted to realize accurate temperature control on the heating disc, and the function of boiling mocha coffee is realized under the condition that the preset value of milk temperature and the temperature resistance value of the plastic shell are met, so that the multifunctional milk boiler is realized. The utility model has the advantages of ingenious structural design, convenient operation, multiple functions and strong practicability.

The present utility model can be further improved as follows.

The position of the heating plate corresponding to the temperature sensor is provided with a yielding hole, the temperature sensor is positioned on the yielding hole, and the bottom of the milk foam kettle or the mocha kettle is propped against the temperature sensor.

The rotary shaft of the motor is provided with a driving seat, and the driving seat is provided with the driving magnetic block.

The temperature sensor is elastically and movably arranged on the abdication hole.

The temperature controller is propped against the heating plate.

The beneficial effects of the utility model are as follows:

the utility model utilizes the base to be respectively matched with the milk foam kettle and the mocha kettle to respectively prepare milk foam and coffee. The novel temperature sensor and the temperature controller are adopted to realize accurate temperature control on the heating disc, and the function of boiling mocha coffee is realized under the condition that the preset value of milk temperature and the temperature resistance value of the plastic shell are met, so that the multifunctional milk boiler is realized. The utility model has the advantages of ingenious structural design, convenient operation, multiple functions and strong practicability.

Drawings

Fig. 1 is a schematic structural view of the coffee milk frothing integrated machine of the present utility model when brewing mocha coffee.

Fig. 2 is a cross-sectional view of the instant coffee milk frothing all-in-one machine when brewing mocha coffee.

Fig. 3 is a schematic structural view of the coffee milk frothing integrated machine for boiling and frothing milk.

Fig. 4 is a cross-sectional view of the coffee and milk frothing integrated machine of the present utility model when boiling and frothing milk.

Detailed Description

The utility model is further described below with reference to the drawings and examples.

First embodiment, as shown in fig. 1 to 4, a coffee milk foam all-in-one machine, including base 1, milk foam kettle 3 and mole card kettle 2, be equipped with knob switch 9 on the leading flank of base 1, the top of base 1 is equipped with accommodation groove 11, be equipped with heating dish 6 and be used for measuring milk foam kettle 3 or mole card kettle 2 temperature sensor 7 in the accommodation groove 11, milk foam kettle 3 or mole card kettle 2 are placed on accommodation groove 11 to sit on heating dish 6, be equipped with motor 4 and be used for measuring temperature controller 8 of heating dish 6 temperature in the base 1, be equipped with drive magnet 51 in the pivot of motor 4, motor 4 and drive magnet 51 are located the below of heating dish 6, milk foam kettle 3 internal rotation is equipped with agitator 31, be fixed with driven magnet 32 on the agitator 31.

As a more specific technical scheme of the utility model.

The teatcup kettle 3 and the mocha kettle 2 according to the present utility model are both of the prior art, and their specific construction is not described in detail here.

The heating plate 6 is provided with a yielding hole 61 corresponding to the temperature sensor 7, the temperature sensor 7 is positioned on the yielding hole 61, and the bottom of the milk foam kettle 3 or the mocha kettle 2 is propped against the temperature sensor 7.

A driving seat 5 is arranged on the rotating shaft of the motor 4, and the driving magnet 51 is arranged on the driving seat 5.

The temperature sensor 7 is elastically movably arranged on the abdication hole 61. A return spring 9 is arranged between the temperature sensor 7 and the base 1.

The temperature controller 8 is propped against the heating plate 6.

When the mocha is boiled, a user firstly adds water into the bottom of the mocha kettle 2, the coffee powder is added into the coffee powder bin, then the mocha kettle 2 is placed on the heating plate 6 by the user, then the mocha kettle is started, the heating plate 6 starts to generate heat, the mocha kettle 2 is heated by the heating plate 6, the temperature sensor 7 and the temperature controller 8 work simultaneously, the mocha kettle 2 is respectively subjected to temperature measurement and accurate temperature control on the heating plate 6, the mocha kettle 2 is used for boiling coffee, meanwhile, the accurate temperature control on the heating plate 6 is realized, the surface temperature of the heating plate 6 meets the temperature-resistant value requirement of the support of the heating plate 6, the water at the bottom of the mocha kettle 2 is converted into steam after being boiled, the pressure generated by the steam is utilized to push hot water to enter the coffee powder bin with the coffee powder contained on the guide pipe, and the hot water enters the upper kettle after being filtered by the filter screen, so that the coffee is extracted by cooking.

When the milk brewing machine disclosed by the utility model is used for brewing milk, firstly, water and milk are added into the milk brewing kettle 3, then, the milk brewing kettle 3 is placed on the heating plate 6 by a user, then, the heating plate 6 and the motor 4 are started, the heating plate 6 starts to generate heat, the heating plate 6 heats the mocha kettle 2, the motor 4 drives the driving magnetic block 51 to rotate, and the driven magnetic block 32 and the stirrer 31 are driven by the magnetic force of the driving magnetic block 51 to rotate together, and the stirrer 31 is stirred, so that milk brewing is realized.

Claims (5)

1. The utility model provides a coffee milk bubble all-in-one, includes base (1), milk bubble kettle (3) and friction card kettle (2), characterized by, the top of base (1) is equipped with accommodation groove (11), be equipped with in accommodation groove (11) and be used for measuring milk bubble kettle (3) or friction card kettle (2) temperature sensor (7), milk bubble kettle (3) or friction card kettle (2) are placed on accommodation groove (11) to sit on heating dish (6), be equipped with motor and temperature controller (8) that are used for measuring heating dish (6) temperature in base (1), be equipped with drive magnet (51) in the pivot of motor (4), motor (4) and drive magnet (51) are located the below of heating dish (6), milk bubble kettle (3) rotation is equipped with agitator (31), be fixed with driven magnet (32) on agitator (31).

2. The coffee and milk foam integrated machine according to claim 1, wherein a position of the heating disc (6) corresponding to the temperature sensor (7) is provided with a yielding hole (61), the temperature sensor (7) is positioned on the yielding hole (61), and the bottom of the milk foam kettle (3) or the mocha kettle (2) is propped against the temperature sensor (7).

3. The coffee milk foam integrated machine according to claim 1, wherein a driving seat (5) is arranged on a rotating shaft of the motor (4), and the driving magnet (51) is arranged on the driving seat (5).

4. The coffee and milk frothing integrated machine according to claim 2, characterized in that the temperature sensor (7) is elastically mobile on the yielding hole (61).

5. The coffee and milk frothing integrated machine according to claim 1, characterized in that the temperature controller (8) is in contact with the heating plate (6).

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