CN219720405U - Portable milk mixer - Google Patents

Abstract

The utility model provides a portable milk mixer with smaller volume, simple structure and lower cost, which comprises: a milk mixer body; the temperature measuring sensor is arranged on the milk mixer body; the nanometer heating body is arranged on the milk mixer body; the power supply unit comprises a battery module and an alternating current interface module, the battery module is arranged in the milk mixer body, and the alternating current interface module extends out of the milk mixer body; the electric control circuit board is arranged in the milk mixer body and comprises a rectifying module, a battery charging and discharging module, a high-voltage control switch module, a low-voltage control switch module and a singlechip control module. According to the utility model, through the cooperation of the modules in the electric control circuit board, the battery module and the alternating current interface module can supply power to drive the nano heating body to work normally, and the nano heating body has a simple structure and low cost.

Description

Portable milk mixer

Technical Field

The utility model relates to a milk mixer, in particular to a portable milk mixer, and belongs to the technical field of mother and infant products.

Background

The milk mixer is a popular and practical mother and infant product, and the milk mixer products in the current market are mainly divided into two main types, one type is suitable for high-voltage power supply of commercial power, and the other type is suitable for low-voltage power supply of batteries. The milk mixer powered by the commercial power at high voltage is fast in heating, but limited by a field, and cannot keep temperature for a long time after the power is off from the outside. The milk regulator powered by the battery with low voltage is provided with a battery, is slower to heat and longer in charging time, but can keep warm for a long time, and is good in portability.

Therefore, the novel milk mixer product supports two modes of mains supply and battery supply simultaneously, but the milk mixer needs to be provided with an alternating current socket and a low-voltage charging socket simultaneously, and is provided with two groups of heating bodies, one group of heating bodies is connected with a mains supply module, and the other group of heating bodies is connected with a battery module, so that the milk mixer has higher cost, complex structure, larger volume and poorer portability.

Disclosure of Invention

Based on the background, the utility model aims to provide the portable milk mixer which is small in size, simple in structure and low in cost, has high integration level and supports two power supply modes of mains supply and battery supply.

In order to achieve the above object, the present utility model provides the following technical solutions:

a portable milk mixer comprising:

a milk mixer body;

the temperature measuring sensor is arranged on the milk mixer body;

the nanometer heating body is arranged on the milk mixer body;

the power supply unit comprises a battery module and an alternating current interface module, the battery module is arranged in the milk mixer body, and the alternating current interface module extends outside the milk mixer body;

the electric control circuit board is arranged in the milk mixer body, the electric control circuit board comprises a rectifying module, a battery charging and discharging module, a high-voltage control switch module, a low-voltage control switch module and a singlechip control module, the singlechip control module is respectively electrically connected with the high-voltage control switch module, the low-voltage control switch module and the battery module, the alternating current interface module is electrically connected with the high-voltage control switch module through the rectifying module, the alternating current interface module is also electrically connected with the low-voltage control switch module through the rectifying module, the battery charging and discharging module and the battery module, the singlechip control module is electrically connected with the nano heating body through the high-voltage control switch module, the singlechip control module is electrically connected with the nano heating body through the low-voltage control switch module, and the singlechip control module is electrically connected with the temperature sensor.

The portable milk regulator has two power supply modes of mains supply and battery supply, and through the cooperation of all modules in an electric control circuit board, the battery module and an alternating current interface module can supply power to drive the nano heating element to work normally, when the mains supply is supplied, the output power of the nano heating element is more than 100W, water can be boiled, when the battery supply is supplied, the output power of the nano heating element is less than 100W, the water storage of the inner container can be insulated or heated to the proper temperature of the milk, and the portable milk regulator has a simple structure and lower cost.

Preferably, the nano heating body comprises a first high-voltage heating module, a first wiring terminal and a second wiring terminal, wherein the resistance value of the first high-voltage heating module is in a range of 10 Ω -100 Ω, the first wiring terminal and the second wiring terminal are both arranged on the first high-voltage heating module, the high-voltage control switch module is electrically connected with the first high-voltage heating module through the first wiring terminal and the second wiring terminal, and the low-voltage control switch module is electrically connected with the first high-voltage heating module through the first wiring terminal and the second wiring terminal; the electric control circuit board further comprises a boosting module, and the battery module is electrically connected with the low-voltage control switch module through the boosting module. The nanometer heating body has a single-channel heating mode.

Preferably, the first high-voltage heating module is an annular body, and a part of the temperature measuring sensor is arranged in the hollow area of the first high-voltage heating module in a penetrating mode.

Preferably, the nano heating body comprises a second high-voltage heating module with a resistance value ranging from 10Ω to 100deg.Ω, a low-voltage heating module with a resistance value ranging from 0Ω to 10Ω, a public wiring terminal, a third wiring terminal and a fourth wiring terminal, a gap is reserved between the second high-voltage heating module and the low-voltage heating module, the public wiring terminal is electrically connected with the second high-voltage heating module and the low-voltage heating module, the third wiring terminal is arranged on the second high-voltage heating module, the fourth wiring terminal is arranged on the low-voltage heating module, the high-voltage control switch module is electrically connected with the second high-voltage heating module through the third wiring terminal and the public wiring terminal, and the low-voltage control switch module is electrically connected with the low-voltage heating module through the fourth wiring terminal and the public wiring terminal. The nanometer heating body has a double-channel heating mode.

Preferably, the second high-voltage heating module is an annular body and surrounds the outside of the low-voltage heating module, and the common connecting terminal is arranged in a gap between the second high-voltage heating module and the low-voltage heating module.

Preferably, the low-voltage heating module is an annular body, and a part of the temperature measuring sensor is arranged in a hollow area of the low-voltage heating module in a penetrating mode.

Preferably, the milk mixer body comprises a shell, a cover body and an inner container, wherein the top of the shell is provided with an opening, the inner container is arranged in the shell and provided with an opening, and the cover body covers the opening at the top of the shell and the opening at the top of the inner container.

Preferably, the top of the cover body is provided with a waterproof and breathable film and a through hole penetrating through the cover body, and the waterproof and breathable film covers the through hole. The waterproof and breathable film can enable gas to pass through to block liquid and solid, so that steam generated by boiling of water in the inner container can be timely discharged to reduce the air pressure of the inner container.

Preferably, the portable milk mixer further comprises an operation control circuit board, and the operation control circuit board is electrically connected with the single chip microcomputer control module.

Preferably, the portable milk mixer further comprises an interaction module, wherein the interaction module is arranged on the outer wall of the milk mixer body and is electrically connected with the operation control circuit board.

Compared with the prior art, the utility model has the following advantages:

the portable milk mixer has two power supply modes of mains supply and battery supply, and the battery module and the alternating current interface module can supply power to drive the nanometer heating body to work normally through the cooperation of the modules in the electric control circuit board, so that the portable milk mixer has a simple structure and lower cost.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only embodiments of the present utility model, and that other drawings can be obtained according to the provided drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of the internal structure of a portable milk mixer according to the present utility model;

FIG. 2 is a schematic diagram showing the structure of an embodiment of a nano-heating element according to the present utility model;

FIG. 3 is a schematic diagram of one embodiment of an electrical control circuit board of the present utility model;

FIG. 4 is a schematic structural view of another embodiment of a nano-heating element according to the present utility model;

FIG. 5 is a schematic diagram of another embodiment of an electrical control circuit board according to the present utility model;

fig. 6 is a schematic structural view of the cover body in the present utility model.

In the figure: 1. a housing; 2. a cover body; 3. an inner container; 4. a receiving chamber; 5. a temperature sensor; 6. a nano heating element; 7. a battery module; 8. an alternating current interface module; 9. an electrical control circuit board; 10. an operation control circuit board; 11. an interaction module; 201. a waterproof breathable film; 202. a through hole; 601. a first high voltage heating module; 602. a first connection terminal; 603. a second connection terminal; 604. the second high-voltage heating module; 605. a low voltage heating module; 606. a common connection terminal; 607. a third connection terminal; 608. a fourth connection terminal; 901. a rectifying module; 902. a battery charge-discharge module; 903. a high voltage control switch module; 904. a low voltage control switch module; 905. the singlechip control module; 906. a boost module; 907. and a switching power supply module.

Detailed Description

The technical scheme of the utility model is further specifically described below through specific embodiments and with reference to the accompanying drawings. It should be understood that the practice of the utility model is not limited to the following examples, but is intended to be within the scope of the utility model in any form and/or modification thereof.

In the present utility model, unless otherwise specified, all parts and percentages are by weight, and the equipment, materials, etc. used are commercially available or are conventional in the art. The methods in the following examples are conventional in the art unless otherwise specified. The components and devices in the following examples are, unless otherwise indicated, all those components and devices known to those skilled in the art, and their structures and principles are known to those skilled in the art from technical manuals or by routine experimentation.

In the following detailed description of embodiments of the utility model, reference is made to the accompanying drawings, in which, for purposes of explanation, numerous specific details are set forth in order to provide a thorough understanding of the embodiments of the utility model. However, one or more embodiments may be practiced by one of ordinary skill in the art without these specific details.

The portable milk mixer shown in fig. 1 comprises a milk mixer body, a temperature measuring sensor 5, a nanometer heating body 6, a power supply unit and an electric control circuit board 9.

The milk mixer body is internally provided with a containing cavity 4. In this embodiment, the specific structure of the milk mixer body is that the milk mixer body includes a housing 1, a cover 2 and a liner 3, the housing 1 has a top opening, the liner 3 is disposed inside the housing 1 and has a top opening, the cover 2 covers the top opening of the housing 1 and the top opening of the liner 3, and an inner space of the liner 3 is configured as a containing cavity 4. Of course, the milk-regulating body may have other structures, for example, the milk-regulating body is not provided with the accommodating cavity 4, and the positions of other components are adjusted correspondingly.

The temperature sensor 5 is arranged in the milk mixer body, and the temperature measuring end of the temperature sensor 5 extends into the accommodating cavity 4.

The power supply unit comprises a battery module 7 and an alternating current interface module 8, wherein the battery module 7 is arranged in the milk mixer body, and the alternating current interface module 8 extends outside the milk mixer body.

The electric control circuit board 9 is arranged in the milk mixer body and is electrically connected with the temperature measuring sensor 5, the nanometer heating body 6, the battery module 7 and the alternating current interface module 8.

The nanometer heating body 6 is arranged at the bottom of the cavity wall of the accommodating cavity 4. The nanometer heating element 6 is a wide-voltage heating element made of nanometer materials, the working direct current voltage is DC 5V-DC 310V, and the working alternating current is 90V-280V. The nano heating element 6 can work normally under the condition of alternating current and direct current power supply. The nanometer heating body 6 is insulated by a polyimide film adhered on the surface or an insulating coating coated on the surface. The nano-heater 6 may be a nano-heater 6 with a single-channel heating mode or a nano-heater 6 with a dual-channel heating mode, and the details of the nano-heater 6 are described below.

In the present embodiment, the nano-heating element 6 has a single-channel heating mode, and as shown in fig. 2, the nano-heating element 6 includes a first high-voltage heating module 601, a first connection terminal 602, and a second connection terminal 603, the resistance value of which ranges from 10Ω to 100deg.Ω. The first high-voltage heating module 601 is an annular body, and a part of the temperature sensor 5 penetrates through the hollow area of the first high-voltage heating module 601. The first connecting terminal 602 and the second connecting terminal 603 are both arranged on the first high-voltage heating module 601, the high-voltage control switch module 903 is electrically connected with the first high-voltage heating module 601 through the first connecting terminal 602 and the second connecting terminal 603, and the low-voltage control switch module 904 is electrically connected with the first high-voltage heating module 601 through the first connecting terminal 602 and the second connecting terminal 603.

As shown in fig. 3, the electrical control circuit board 9 includes a rectifying module 901, a battery charge-discharge module 902, a high-voltage control switch module 903, a low-voltage control switch module 904, and a single-chip microcomputer control module 905. The single-chip microcomputer control module 905 is electrically connected with the high-voltage control switch module 903, the low-voltage control switch module 904 and the battery module 7 respectively, the alternating current interface module 8 is electrically connected with the high-voltage control switch module 903 through the rectifying module 901, and the alternating current interface module 8 is also electrically connected with the low-voltage control switch module 904 through the rectifying module 901, the battery charge-discharge module 902 and the battery module 7 in sequence. The singlechip control module 905 is electrically connected with the nanometer heating body 6 through the high-voltage control switch module 903, the singlechip control module 905 is electrically connected with the nanometer heating body 6 through the low-voltage control switch module 904, and the singlechip control module 905 is electrically connected with the temperature measuring sensor 5.

In order to make the output voltage of the battery module 7 more adaptive to the nano-heater 6 when the battery is powered, the electrical control circuit board 9 further includes a boost module 906, and the battery module 7 is electrically connected to the low-voltage control switch module 904 through the boost module 906. The voltage boosting module 906 may boost the output voltage of the battery module 7 to support sufficient power operation of the nano-heater 6.

In order to facilitate the control of the switching action of the entire portable milk mixer, the electrical control circuit board 9 further comprises a switching power supply module 907, and the rectifying module 901 is electrically connected to the battery charging and discharging module 902 through the switching power supply module 907.

The above-mentioned nanometer heat-generating body 6's mode of operation is, when the commercial power was supplied with power, the commercial power alternating current was rectified into direct current through rectifier module 901, and singlechip control module 905 closed low voltage control switch module 904, makes it generate heat through adjusting high voltage control switch module 903 to nanometer heat-generating body 6 power supply, and when the battery was supplied with power, singlechip control module 905 closed high voltage control switch module 903, risees battery module 7 output voltage to 15V ~ 50V through boost module 906, makes it generate heat through adjusting low voltage control switch module 904 to nanometer heat-generating body 6 power supply. When the battery module 7 needs to be charged, the commercial power is turned on, and the battery module 7 is charged through the rectifying module 901, the switching power supply module 907 and the battery charging and discharging module 902 in sequence.

In another embodiment, the nano-heating body 6 has a dual-channel heating mode, and as shown in fig. 4, the nano-heating body 6 includes a second high-voltage heating module 604 having a resistance value ranging from 10Ω to 100deg.Ω, a low-voltage heating module 605 having a resistance value ranging from 0.5Ω to 10Ω, a common connection terminal 606, a third connection terminal 607, and a fourth connection terminal 608. A gap is formed between the second high-voltage heating module 604 and the low-voltage heating module 605, the second high-voltage heating module 604 is an annular body and surrounds the exterior of the low-voltage heating module 605, and the common connection terminal 606 is arranged in the gap between the second high-voltage heating module 604 and the low-voltage heating module 605. The low-voltage heating module 605 is an annular body, and a part of the temperature sensor 5 is arranged in the hollow area of the low-voltage heating module 605 in a penetrating way. The common connection terminal 606 is electrically connected with the second high-voltage heating module 604 and the low-voltage heating module 605, the third connection terminal 607 is arranged on the second high-voltage heating module 604, the fourth connection terminal 608 is arranged on the low-voltage heating module 605, the high-voltage control switch module 903 is electrically connected with the second high-voltage heating module 604 through the third connection terminal 607 and the common connection terminal 606, and the low-voltage control switch module 904 is electrically connected with the low-voltage heating module 605 through the fourth connection terminal 608 and the common connection terminal 606.

As shown in fig. 5, the electrical control circuit board 9 includes a rectifying module 901, a switching power supply module 907, a battery charge-discharge module 902, a high-voltage control switching module 903, a low-voltage control switching module 904, and a single-chip microcomputer control module 905. The single-chip microcomputer control module 905 is electrically connected with the high-voltage control switch module 903, the low-voltage control switch module 904 and the battery module 7 respectively, the alternating current interface module 8 is electrically connected with the high-voltage control switch module 903 through the rectifying module 901, and the alternating current interface module 8 is also electrically connected with the low-voltage control switch module 904 through the rectifying module 901, the switching power supply module 907, the battery charge-discharge module 902 and the battery module 7 in sequence. The singlechip control module 905 is electrically connected with the nanometer heating body 6 through the high-voltage control switch module 903, the singlechip control module 905 is electrically connected with the nanometer heating body 6 through the low-voltage control switch module 904, and the singlechip control module 905 is electrically connected with the temperature measuring sensor 5.

The above-mentioned nanometer heat-generating body 6's mode of operation is, when the commercial power was supplied with power, and the commercial power alternating current is rectified into direct current through rectifier module 901, and singlechip control module 905 closes low voltage control switch module 904, makes it generate heat through adjusting high voltage control switch module 903 to nanometer heat-generating body 6 power supply, and when the battery power supply, singlechip control module 905 closes high voltage control switch module 903, makes it generate heat through adjusting low voltage control switch module 904 to nanometer heat-generating body 6 power supply. When the battery module 7 needs to be charged, the commercial power is turned on, and the battery module 7 is charged through the rectifying module 901, the switching power supply module 907 and the battery charging and discharging module 902 in sequence.

In this embodiment, as shown in fig. 6, a waterproof and breathable film 201 and a through hole 202 penetrating through the cover 2 are provided on the top of the cover 2, the waterproof and breathable film 201 covers the through hole 202, and the waterproof and breathable film 201 can allow gas to permeate therethrough to block liquid and solid, so that steam generated by boiling water in the liner 3 can be timely discharged to reduce the air pressure in the liner 3.

In order to facilitate the operation of a user, the portable milk mixer further comprises an operation control circuit board 10, wherein the operation control circuit board 10 is electrically connected with the single chip microcomputer control module 905, the portable milk mixer further comprises an interaction module 11, and the interaction module 11 is arranged on the outer wall of the milk mixer body and is electrically connected with the operation control circuit board 10. The interaction module 11 may be a key or a touch screen, or may be a combination of the two.

The portable milk mixer is provided with two power supply modes of mains supply and battery supply, and through the cooperation of all modules in the electric control circuit board 9, the battery module 7 and the alternating current interface module 8 can supply power to drive the nano heating body 6 to work normally, when the mains supply is supplied, the output power of the nano heating body 6 is more than 100W, water can be boiled, when the battery supply is supplied, the output power of the nano heating body 6 is less than 100W, and the water stored in the inner container 3 can be insulated or heated to a proper temperature for soaking milk.

The portable milk mixer has a simple structure and low cost, the battery module 7 is charged by mains supply conversion, an independent battery charging interface is not required to be arranged, and a user only needs to wear one electric wire when carrying out, so that the portability of the user is improved.

The principles and embodiments of the present utility model have been described herein with reference to specific examples, the description of which is intended only to facilitate an understanding of the method of the present utility model and its core ideas. It should be noted that it will be apparent to those skilled in the art that various modifications and adaptations of the utility model can be made without departing from the principles of the utility model and these modifications and adaptations are intended to be within the scope of the utility model as defined in the following claims.

Claims (10)

1. A portable milk mixer, characterized in that: the portable milk mixer comprises:

a milk mixer body;

the temperature measuring sensor (5) is arranged on the milk mixer body;

a nanometer heating element (6) arranged on the milk mixer body;

the power supply unit comprises a battery module (7) and an alternating current interface module (8), wherein the battery module (7) is arranged in the milk mixer body, and the alternating current interface module (8) extends outside the milk mixer body;

the milk mixer comprises an electric control circuit board (9), wherein the electric control circuit board (9) is arranged in the milk mixer body, the electric control circuit board (9) comprises a rectifying module (901), a battery charging and discharging module (902), a boosting module (906), a high-voltage control switch module (903), a low-voltage control switch module (904) and a singlechip control module (905), the singlechip control module (905) is electrically connected with the high-voltage control switch module (903), the low-voltage control switch module (904) and the battery module (7) respectively, an alternating current interface module (8) is electrically connected with the high-voltage control switch module (903) through the rectifying module (901), the battery charging and discharging module (902) and the battery module (7) are electrically connected with the low-voltage control switch module (904), the singlechip control module (905) is electrically connected with a nano heating element (6) through the low-voltage control switch module (904), and the singlechip control module (905) is electrically connected with a temperature sensor (5).

2. A portable milk mixer according to claim 1, wherein: the nanometer heating body (6) comprises a first high-voltage heating module (601), a first wiring terminal (602) and a second wiring terminal (603), wherein the resistance value range is 10 omega-100 omega, the first wiring terminal (602) and the second wiring terminal (603) are both arranged on the first high-voltage heating module (601), the high-voltage control switch module (903) is electrically connected with the first high-voltage heating module (601) through the first wiring terminal (602) and the second wiring terminal (603), and the low-voltage control switch module (904) is electrically connected with the first high-voltage heating module (601) through the first wiring terminal (602) and the second wiring terminal (603); the electrical control circuit board (9) further comprises a boost module (906), and the battery module (7) is electrically connected with the low-voltage control switch module (904) through the boost module (906).

3. A portable milk mixer according to claim 2, wherein: the first high-voltage heating module (601) is an annular body, and a part of the temperature measuring sensor (5) penetrates through the hollow area of the first high-voltage heating module (601).

4. A portable milk mixer according to claim 1, wherein: the nanometer heating body (6) comprises a second high-voltage heating module (604) with a resistance value ranging from 10Ω to 100deg.Ω, a low-voltage heating module (605) with a resistance value ranging from 0Ω to 10Ω, a public wiring terminal (606), a third wiring terminal (607) and a fourth wiring terminal (608), a gap is reserved between the second high-voltage heating module (604) and the low-voltage heating module (605), the public wiring terminal (606) is electrically connected with the second high-voltage heating module (604) and the low-voltage heating module (605), the third wiring terminal (607) is arranged on the second high-voltage heating module (604), the fourth wiring terminal (608) is arranged on the low-voltage heating module (605), the high-voltage control switch module (903) is electrically connected with the second high-voltage heating module (604) through the third wiring terminal (607) and the public wiring terminal (606), and the low-voltage control switch module (904) is electrically connected with the low-voltage heating module (605) through the fourth wiring terminal (608) and the public wiring terminal (606).

5. The portable milk mixer of claim 4 wherein: the second high-voltage heating module (604) is an annular body and surrounds the outside of the low-voltage heating module (605), and the common wiring terminal (606) is arranged in a gap between the second high-voltage heating module (604) and the low-voltage heating module (605).

6. A portable milk mixer according to claim 4 or 5, characterized in that: the low-voltage heating module (605) is an annular body, and a part of the temperature measuring sensor (5) is arranged in the hollow area of the low-voltage heating module (605) in a penetrating mode.

7. A portable milk mixer according to claim 1, wherein: the milk mixer comprises a milk mixer body, a milk mixer body and a milk mixer body, wherein the milk mixer body comprises a shell (1), a cover body (2) and an inner container (3), the top of the shell (1) is provided with an opening, the inner container (3) is arranged inside the shell (1) and is provided with an opening, and the cover body (2) covers the opening at the top of the shell (1) and the opening at the top of the inner container (3).

8. The portable milk mixer of claim 7 wherein: the waterproof and breathable film is arranged at the top of the cover body (2) and penetrates through the through hole (202) of the cover body (2), and the waterproof and breathable film (201) covers the through hole (202).

9. A portable milk mixer according to claim 1, wherein: the portable milk mixer further comprises an operation control circuit board (10), wherein the operation control circuit board (10) is electrically connected with the singlechip control module (905).

10. A portable milk mixer according to claim 9, wherein: the portable milk mixer further comprises an interaction module (11), wherein the interaction module (11) is arranged on the outer wall of the milk mixer body and is electrically connected with the operation control circuit board (10).