CN217161867U - Milk shaker - Google Patents

Abstract

The utility model belongs to the technical field of the baby product, the breast pump that shakes that relates to, including organism, control module, actuating mechanism keeps the ware with the rotation that is used for fixed feeding bottle, and the organism is equipped with the gyration chamber, and the gyration intracavity is located to the rotation keeps the ware, and actuating mechanism is used for driving the rotation to keep the ware and makes rotary motion at the gyration intracavity, and the rotation keeps the ware to be equipped with electromagnetic induction element, and the organism is equipped with the solenoid that makes electromagnetic induction element take place the electromagnetic induction heating, and solenoid is connected with the control module electricity. Compared with the prior art, the utility model discloses a shake milk ware makes the electromagnetic induction component can set up in the rotatory ware that keeps with feeding bottle direct contact heating through the mode that adopts electromagnetic heating, makes the electromagnetic induction component break away from the restraint of traditional wired power supply, shakes the heating effect of milk ware rapider, heat transfer rate is high, and milk heating is effectual.

Description

Milk shaker

Technical Field

The utility model belongs to the technical field of shake the milk ware, concretely relates to shake milk ware.

Background

The portable milk shaker on the existing market has a single milk shaking function, lacks of a heating and heat preservation effect, is easy to cause the condition that the temperature of water drops rapidly when milk is shaken in cold weather, easily causes the milk powder dissolving effect to be poor, finally causes long milk shaking time and more air bubbles, and is not favorable for the drinking of infants and the absorption of nutrition. Along with that, the milk shaker with the heating and heat preservation functions appears on the market, the heating element is arranged below the rotary retainer, air is isolated between the heating element and the rotary retainer, and the heating element and the feeding bottle are heated in an isolated mode, so that the heating efficiency is low, and the heating speed is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the problems of low heating efficiency and low heating speed of the electromagnetic induction element of the prior milk shaker, and provides a milk shaker which is heated by contacting the feeding bottle on a rotary retainer through the electromagnetic induction element.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

milk shake ware, including organism, control module, actuating mechanism and the rotatory ware that keeps that is used for fixed feeding bottle, the organism is equipped with the gyration chamber, rotatory ware that keeps is located the gyration intracavity, actuating mechanism is used for the drive rotatory ware that keeps is done rotary motion at the gyration intracavity, rotatory ware that keeps is equipped with electromagnetic induction element, the organism is equipped with the solenoid that makes electromagnetic induction element take place the electromagnetic induction heating, solenoid with the control module electricity is connected.

Compared with the prior art, the utility model discloses a shake milk ware makes the electromagnetic induction component can set up in the rotatory ware that keeps with feeding bottle direct contact heating through the mode that adopts electromagnetic heating, makes the electromagnetic induction component break away from the restraint of traditional wired power supply, shakes the heating effect of milk ware rapider, heat transfer rate is high, and milk heating is effectual.

Further, the electromagnetic induction element is arranged at the bottom or/and the side part of the rotary holder, and the electromagnetic coil is correspondingly arranged at the bottom or/and the side part of the gyration cavity; through setting up like this, the electromagnetic induction component sets up the position simply, and heating effect is good.

Further, the electromagnetic induction element is a magnetic conductive metal piece or a magnetic conductive metal coating arranged at the bottom or/and the side of the rotary holder; through setting up like this, the electromagnetic induction component sets up the mode simply, makes things convenient for manufacturing.

Further, at least a portion of the rotary holder, which is the electromagnetic induction element, is made of a magnetically permeable metal material; through the arrangement, the electromagnetic induction element and the rotary retainer are of an integral structure, and the number of parts of a product is simplified.

Further, the electromagnetic induction element is arranged on the bottom inner wall or/and the side inner wall of the rotary holder; through setting up like this, electromagnetic induction element heating effect is better.

Furthermore, a temperature sensor is arranged on the side part or the bottom part of the rotary cavity and electrically connected with the control module; through setting up like this, detect the milk heating temperature in shaking the breast pump through the temperature sensor, it is effectual to heat the heat preservation.

Drawings

FIG. 1 is a schematic view of a milk shaker

FIG. 2 is a cross-sectional view of a milk shaker

FIG. 3 is an exploded view of a milk shaker

Detailed Description

The technical scheme of the utility model is described in the following with the attached drawings:

referring to fig. 1 to 3, the milk shaker of the present invention comprises a shaker body 1, a control module 2, a driving mechanism 3 and a rotating holder 4 for fixing the feeding bottle, wherein the shaker body 1 is provided with a rotating chamber 11, the rotating holder 4 is arranged in the rotating chamber 11, the driving mechanism 3 is used for driving the rotating holder 4 to do rotating motion in the rotating chamber 11, the rotating holder 4 is provided with an electromagnetic induction element 5, the shaker body 1 is provided with an electromagnetic coil 6 for heating the electromagnetic induction element 5 by electromagnetic induction, and the electromagnetic coil 6 is electrically connected with the control module 2.

Compared with the prior art, the utility model discloses a shake milk ware makes electromagnetic induction element 5 can set up and keep 4 interior and feeding bottle direct contact heating with the rotation through the mode that adopts electromagnetic heating, makes electromagnetic induction element 5 break away from the restraint of traditional wired power supply, shakes the heating effect of milk ware rapider, heat transfer rate is high, and the milk heating is effectual.

Referring to fig. 2 and 3, in one embodiment, the electromagnetic induction element 5 is disposed at the bottom or/and the side of the rotary holder 4, and the electromagnetic coil 6 is correspondingly disposed at the bottom or/and the side of the rotary chamber 11; for example, in the present embodiment, the electromagnetic induction element 5 is only arranged at the bottom of the rotary holder 4, and the electromagnetic coil 6 is correspondingly arranged at the bottom of the rotary cavity 11; alternatively, in other embodiments, the electromagnetic induction element 5 is only arranged at the side of the rotary holder 4, and the electromagnetic coil 6 is correspondingly arranged at the side of the rotary cavity 11; or, the electromagnetic induction element 5 is arranged at the bottom and the side of the rotary holder 4, and the electromagnetic coil 6 is correspondingly arranged at the bottom and the side of the rotary cavity 11; by such an arrangement, the electromagnetic induction element 5 is simple in arrangement position and good in heating effect.

In a further embodiment, the electromagnetic induction element 5 is a magnetic conductive metal part or a magnetic conductive metal coating disposed at the bottom or/and the side of the rotary holder 4, the magnetic conductive metal part is made of a metal paste material, for example, and the magnetic conductive metal coating is a coating with magnetic conductive metal powder applied on a sheet-shaped carrier made of other materials, so that the sheet-shaped carrier has a function of being electromagnetically heated; through the arrangement, the electromagnetic induction element 5 is simple in arrangement mode and convenient to process and manufacture.

As an alternative (not shown), at least a portion of the rotary holder 4, which is the electromagnetic induction element 5, is made of magnetically permeable metallic material, for example, the bottom of the rotary holder 4 is made of magnetically permeable metallic material only, or the side of the rotary holder 4 is made of magnetically permeable metallic material only; alternatively, the rotary holder 4 is integrally made of a magnetically permeable metal material; by this arrangement, the electromagnetic induction element 5 and the rotary holder 4 are integrated, and the number of parts of the product is simplified.

In a further embodiment, the electromagnetic induction element 5 is arranged on the bottom inner wall or/and the side inner wall of the rotary holder 4; by this arrangement, the electromagnetic induction element 5 is better heated. In other embodiments, the electromagnetic induction element 5 may be disposed on the bottom outer wall or/and the side outer wall of the rotary holder 4.

Referring to fig. 2 and 3, in an embodiment, a temperature sensor 12 is disposed at a side portion or a bottom portion of the rotation chamber 11, the temperature sensor 12 is electrically connected to the control module 2, the temperature sensor 12 is embedded in an inner wall of the rotation chamber 11, specifically, the inner wall of the rotation chamber 11 is provided with a mounting hole 121, and the temperature sensor 12 is mounted in the mounting hole 121; through the arrangement, the temperature sensor 12 is used for detecting the heating temperature of the milk in the milk shaker, so that the heating temperature of the milk in the milk bottle can be conveniently controlled, and the milk shaker has the heating and heat-preserving effects.

Referring to fig. 2, in one embodiment, a driving shaft hole 41 is formed at the bottom of the rotary holder 4, the driving mechanism 3 is preferably a driving motor, a driving shaft of the driving mechanism 3 is in driving fit with the driving shaft hole 41, the bottom of the rotary holder 4 is in rotary connection with the bottom of the rotary cavity 11 through a bearing 13, the electromagnetic induction element 5 is arranged at the inner bottom of the rotary holder 4, and the electromagnetic coil 6 arranged at the bottom of the rotary cavity 11 is arranged at the outer periphery of the bearing 13; through setting up like this, avoid taking place the interference between solenoid 6 and the actuating mechanism 3 betterly, solenoid 6 produces electromagnetic induction area scope moreover big, and electromagnetic induction element 5 heats effectually.

Referring to fig. 2 and 3, in one embodiment, the electromagnetic coil 6 is provided with a degausser 61. Specifically, the electromagnetic coil 6 is arranged at the bottom of the rotary holder 4, the electromagnetic coil 6 is preferably in a planar spiral shape, a demagnetizer 61 is arranged at the bottom surface of the electromagnetic coil 6, the demagnetizer 61 is in a plate shape, and the electromagnetic coil 6 can be arranged at the bottom surface of the electromagnetic coil 6 in a sticking manner; and/or (not shown), an electromagnetic coil 6 disposed on the side of the rotary holder 4, wherein the electromagnetic coil 6 is preferably a three-dimensional spiral, a demagnetizer 61 is disposed on the outer peripheral surface of the electromagnetic coil 6, the demagnetizer 61 is in the shape of an arc plate or a cylinder, and the electromagnetic coil 6 can be disposed on the inner side surface of the demagnetizer 61 in a sticking manner; through the arrangement, the electromagnetic coil 6 can be well prevented from electromagnetically heating the product with the magnetic conductive metal part, and the use reliability of the product is ensured.

In one embodiment, the inner bottom wall of the rotary holder 4 is provided with a positioning groove 51, the positioning groove 51 is preferably circular, the electromagnetic induction element 5 is a sheet-shaped magnetic conductive metal member, the sheet-shaped magnetic conductive metal member is preferably provided with a circular shape, and the magnetic conductive metal member is positioned and assembled in the positioning groove 51; by such an arrangement, the electromagnetic induction element 5 has a good assembling and positioning effect.

In an embodiment (not shown), the inner wall of the rotating cavity 11 is circumferentially provided with a coil mounting groove, the coil mounting groove may be annular or toroidal, the electromagnetic coil is mounted in the coil mounting groove, the electromagnetic induction element is disposed on the inner wall of the rotating holder, and the electromagnetic induction element is an annular sheet-shaped magnetic conductive metal piece disposed on the inner wall of the rotating holder.

Referring to fig. 2 and 3, in an embodiment, the rotary holder 4 includes a plurality of side walls 42 and a base 43, a driving shaft hole 41 is formed at the bottom of the base 43, and the bottom of the plurality of side walls 42 is mounted on the outer periphery of the base 43 through an insertion structure to combine the rotary holder 4; specifically, the insertion structure includes at least two insertion posts 44 disposed at the bottom of the wall body 42, and insertion slots 45 disposed outside the upper surface of the base 43, the insertion posts 44 are inserted into and matched with the insertion slots 45, each of the side wall bodies 42 is provided with a base 46 extending toward the center, and the bases 46 are spliced to form an inner bottom wall of the rotary holder 4; with this arrangement, the rotary holder 4 is composed of a plurality of components, and is easy for a user to detach and clean.

Referring to fig. 2 and 3, in an embodiment, the electromagnetic induction device further includes a battery 14 and a control panel 15, which are disposed on the machine body 1, the control module 2 is a control circuit board, the control panel 15 and the battery 14 are respectively electrically connected to the control module 2, and the control panel 15 is configured to control working states of the driving mechanism 3 and the electromagnetic induction element 5; through setting up like this, convenience of customers controls and uses the breast pump that shakes.

Referring to fig. 1 and 2, in an embodiment, a charging connector 16 electrically connected to the control module 2 is disposed on a side portion of the machine body 1, and the charging connector 16 is externally connected to a wired power supply to replenish electric energy to the battery 14; through the arrangement, the milk shaker can be charged conveniently to get rid of the use of a wired power supply, and is convenient to carry and use.

Referring to fig. 2 and 3, in one embodiment, the housing 1 is provided with a mounting cavity 17 with an opening at the bottom, the driving mechanism 3 and the battery 14 are loaded into the mounting cavity 17 from the bottom, and the housing further comprises a bottom cover 18, and the bottom cover 18 is used for covering the mounting cavity 17.

Variations and modifications to the above-described embodiments may occur to those skilled in the art, in light of the above teachings and teachings. Therefore, the present invention is not limited to the specific embodiments disclosed and described above, and some modifications and changes to the present invention should fall within the protection scope of the claims of the present invention. Furthermore, although specific terms are employed herein, they are used in a generic and descriptive sense only and not for purposes of limitation.

Claims (10)

1. Milk shake ware, including organism, control module, actuating mechanism and the rotatory ware that keeps that is used for fixed feeding bottle, the organism is equipped with the gyration chamber, rotatory ware that keeps is located the gyration intracavity, actuating mechanism is used for the drive rotatory ware that keeps is done rotary motion at the gyration intracavity, its characterized in that, rotatory ware that keeps is equipped with electromagnetic induction element, the organism is equipped with the solenoid that makes electromagnetic induction element take place the electromagnetic induction heating, solenoid with the control module electricity is connected.

2. The breast pump according to claim 1, wherein the electromagnetic induction element is arranged at the bottom or/and side of the rotary holder, and the electromagnetic coil is correspondingly arranged at the bottom or/and side of the rotary cavity.

3. The milk shaker as claimed in claim 2, wherein the electromagnetic induction element is a magnetically conductive metal piece or a magnetically conductive metal coating provided at the bottom or/and the side of the rotary holder.

4. The breast pump according to claim 1, wherein at least a portion of the rotary holder, which is the electromagnetic induction element, is made of magnetically permeable metal material.

5. The breast pump according to claim 3, wherein the electromagnetic induction element is provided at the bottom inner wall or/and the side inner wall of the rotary holder.

6. The milk shaker as claimed in any one of claims 1 to 5, wherein a temperature sensor is provided on the side or bottom of the revolving chamber, and the temperature sensor is electrically connected to the control module.

7. The milk shaker as claimed in any one of claims 1 to 5 wherein the electromagnetic coil is configured with a magnetic eraser.

8. The milk shaker as claimed in any one of claims 2 to 5, wherein the electromagnetic coil is arranged at the bottom of the rotary holder, and the bottom surface of the electromagnetic coil is provided with a magnetic eraser;

and/or an electromagnetic coil arranged on the side of the rotary holder, and a demagnetizer is arranged on the outer peripheral surface of the electromagnetic coil.

9. The milk shaker as in claim 3 wherein the rotary holder inner bottom wall is provided with a locating groove in which the electromagnetic induction element is located to fit.

10. The milk shaker as claimed in claim 3, wherein the electromagnetic induction element is disposed on an inner wall of the rotary holder, the electromagnetic induction element being an annular metal heating plate disposed on the inner wall of the rotary holder.

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