阅读说明：本技术 一种奶瓶摇晃保温机 (Feeding bottle shaking heat preservation machine ) 是由 曾平 凌建章 于 2021-09-07 设计创作，主要内容包括：本发明公开了一种奶瓶摇晃保温机,包括主机、具有定位腔的摇奶套及保温套,主机包括第一电机及与外部电源电连接的第一导电件,摇奶套包括第二导电件,第一电机与摇奶套传动连接,用于带动摇奶套相对主机旋转,第一导电件具有与第二导电件电性接触的第一位置及与第二导电件分离的第二位置,保温套包括第三导电件,保温套放置于定位腔时,第三导电件与第二导电件电连接。采用本方案的奶瓶摇晃保温机,将加入水和奶粉的奶瓶放置于保温套内以及将保温套放置于摇奶套的定位腔内,启动第一电机,即可实现奶瓶的摇奶,从而可以解决摇奶繁琐的问题；将奶瓶放置于保温套内,保温套可以实现奶瓶的保温,从而可以解决奶瓶保温效果不佳的问题。(The invention discloses a milk bottle shaking heat preservation machine which comprises a host machine, a milk shaking sleeve with a positioning cavity and a heat preservation sleeve, wherein the host machine comprises a first motor and a first conductive piece electrically connected with an external power supply, the milk shaking sleeve comprises a second conductive piece, the first motor is in transmission connection with the milk shaking sleeve and is used for driving the milk shaking sleeve to rotate relative to the host machine, the first conductive piece is provided with a first position electrically contacted with the second conductive piece and a second position separated from the second conductive piece, the heat preservation sleeve comprises a third conductive piece, and when the heat preservation sleeve is placed in the positioning cavity, the third conductive piece is electrically connected with the second conductive piece. According to the feeding bottle shaking heat preservation machine, the feeding bottle added with water and milk powder is placed in the heat preservation sleeve, the heat preservation sleeve is placed in the positioning cavity of the milk shaking sleeve, and the first motor is started, so that milk shaking of the feeding bottle can be realized, and the problem of tedious milk shaking can be solved; the feeding bottle is placed in the heat-insulating sleeve, and the heat-insulating sleeve can realize the heat insulation of the feeding bottle, so that the problem of poor heat-insulating effect of the feeding bottle can be solved.)

1. A feeding bottle shaking warmer is characterized by comprising:

the motor comprises a main machine (1), wherein the main machine (1) comprises a first motor (12) and a first conductive piece (13) electrically connected with an external power supply;

the milk shaking sleeve (2) is provided with a positioning cavity (21), the milk shaking sleeve (2) comprises a second conductive piece (23), the first motor (12) is in transmission connection with the milk shaking sleeve (2) and is used for driving the milk shaking sleeve (2) to rotate relative to the main machine (1), and the first conductive piece (13) is provided with a first position electrically contacted with the second conductive piece (23) and a second position separated from the second conductive piece (23);

the insulating sleeve (3) comprises a third conductive piece (312), and when the insulating sleeve (3) is placed in the positioning cavity (21), the third conductive piece (312) is electrically connected with the second conductive piece (23).

2. The baby bottle shaking warmer as set forth in claim 1, wherein the main body (1) further comprises a first circuit board (11) for connecting to an external power source, the first motor (12) and the first conductive member (13) being electrically connected to the first circuit board (11).

3. The feeding bottle shaking warmer according to claim 1, wherein the milk shaking sleeve (2) further comprises a first transmission member (22), the first transmission member (22) is in transmission connection with the first motor (12), and the first motor (12) drives the first transmission member (22) to drive the milk shaking sleeve (2) to rotate relative to the main machine (1).

4. The baby bottle shake warmer of claim 1, wherein the first conductive member (13) at least partially protrudes from the main body (1) when in the first position to electrically connect with the second conductive member (23).

5. The shaking and heat-preserving machine for the feeding bottle as claimed in claim 1, wherein the main body (1) further comprises a driving mechanism (14), the first conductive member (13) is movably disposed on the main body (1) through the driving mechanism (14), and the driving mechanism (14) is used for driving the first conductive member (13) to move to the second position separated from the second conductive member (23) or driving the first conductive member (13) to return to the first position electrically contacted with the second conductive member (23).

6. The baby bottle shaking warmer of claim 5, wherein: the driving mechanism (14) comprises a second motor (141) and a second transmission piece (142) in transmission connection with the second motor (141), the first conductive piece (13) is fixedly connected with the second transmission piece (142), and the second transmission piece (142) is used for driving the first conductive piece (13) to move under the driving of the second motor (141).

7. The baby bottle shaking warmer of claim 6, wherein: the second transmission part (142) comprises a cam (1421) provided with a rocker arm (1422) and a support (1423) provided with a chute (1424), the cam (1421) is connected to the second motor (141), the first conductive part (13) is arranged on the support (1423), and the rocker arm (1422) is connected to the chute (1424) in a sliding manner.

8. The baby bottle shaking warmer of claim 7, wherein: the main machine (1) further comprises an elastic auxiliary part (15) for assisting the first conductive part (13) to reset.

9. The baby bottle shaking incubator according to any one of claims 1 to 8, wherein: the milk shaking machine is characterized in that a first positioning groove (16) is formed in the main machine (1), the milk shaking sleeve (2) is accommodated in the first positioning groove (16), the output end of the first motor (12) penetrates through the first positioning groove (16), and the first conductive piece (13) penetrates through the first positioning groove (16).

10. The baby bottle shaking incubator according to any one of claims 1 to 8, wherein: the second conductive member (23) comprises a first conductive member (231) and a second conductive member (232) which are electrically connected with each other, the first conductive member (231) is arranged at the bottom of the milk shaking sleeve (2) and is used for being electrically connected with the first conductive member (13), and the second conductive member (232) is arranged in the positioning cavity (21) and is used for being connected with the third conductive member (312).

11. The shaking and heat-insulating machine for feeding bottles of claim 1, wherein the heat-insulating sleeve (3) further comprises a second circuit board (311), a battery (313) and a heating element (321), and the third conductive member (312), the battery (313) and the heating element (321) are electrically connected with the second circuit board (311).

12. The baby bottle shaking warmer of claim 11, wherein: the heat preservation sleeve (3) comprises a heat preservation seat (31) and a sleeve body (32) arranged on the heat preservation seat (31), the second circuit board (311) and the third conductive piece (312) are arranged in the heat preservation seat (31), and the heating body (321) is arranged in the sleeve body (32).

13. The baby bottle shaking warmer of claim 11, wherein: and the heat-insulating sleeve (3) is also provided with a control panel (315) electrically connected with the second circuit board (311).

14. The baby bottle shaking warmer of claim 13, wherein: the control panel (315) protrudes outwards from the heat-insulating sleeve (3), a boss (24) matched with the control panel (315) is arranged at the position, corresponding to the control panel (315), of the milk shaking sleeve (2), and the boss (24) is provided with a second positioning groove.

15. The baby bottle shake warmer of any one of claims 11 to 14, wherein: the milk shaking sleeve (2) is internally provided with a positioning bulge (25) matched with the third positioning groove (314), and the second conductive piece (23) is arranged on the positioning bulge (25).

Technical Field

The invention relates to the technical field of household appliances, in particular to a feeding bottle shaking heat preservation machine.

Background

When milk powder for feeding infants is brewed, after water and the milk powder are added into the milk bottle, the milk bottle needs to be clamped by hands and palms of two hands to roll and rub along the horizontal direction until the milk powder is completely dissolved, and the milk shaking process is complicated. In addition, the conventional infant feeding bottle has poor heat preservation effect, only can keep the milk in a proper temperature range for a short time, and needs to be heated again after the milk is cooled, so that the heating process is troublesome.

Disclosure of Invention

In order to overcome at least one defect in the prior art, the invention provides a milk bottle shaking heat preservation machine, which aims to solve the problems of complexity in milk shaking and trouble in heating milk after the milk is cooled.

The technical scheme adopted by the invention for solving the problems is as follows:

the invention discloses a feeding bottle shaking heat preservation machine, which comprises:

the host comprises a first motor and a first conductive piece electrically connected with an external power supply;

the milk shaking sleeve is provided with a positioning cavity and comprises a second conductive piece, the first motor is in transmission connection with the milk shaking sleeve and is used for driving the milk shaking sleeve to rotate relative to the host, and the first conductive piece is provided with a first position electrically contacted with the second conductive piece and a second position separated from the second conductive piece;

the insulating sleeve comprises a third conductive piece, and when the insulating sleeve is placed in the positioning cavity, the third conductive piece is electrically connected with the second conductive piece.

As an optional implementation manner, in an embodiment of the present invention, the host further includes a first circuit board for connecting to an external power source, and the first motor and the first conductive member are electrically connected to the first circuit board.

As an optional implementation manner, in an embodiment of the present invention, the milk shaking sleeve further includes a first transmission member, the first transmission member is in transmission connection with the first motor, and the first motor drives the first transmission member to drive the milk shaking sleeve to rotate relative to the main machine.

As an optional implementation manner, in an embodiment of the present invention, when the first conductive member is in the first position, at least a portion of the first conductive member protrudes from the host to be electrically connected to the second conductive member.

As an optional implementation manner, in an embodiment of the present invention, the host further includes a driving mechanism, the first conductive component is movably disposed on the host through the driving mechanism, and the driving mechanism is configured to drive the first conductive component to move to the second position separated from the second conductive component or drive the first conductive component to return to the first position electrically contacting the second conductive component.

As an optional implementation manner, in an embodiment of the present invention, the driving mechanism includes a second motor and a second transmission member in transmission connection with the second motor, the first conductive component is fixedly connected with the second transmission member, and the second transmission member is configured to drive the first conductive component to move under the driving of the second motor.

As an alternative implementation manner, in an embodiment of the present invention, the second transmission member includes a cam provided with a rocker arm and a bracket provided with a sliding slot, the cam is connected to the second motor, the first conductive member is provided on the bracket, and the rocker arm is slidably connected to the sliding slot.

As an optional implementation manner, in an embodiment of the present invention, the main machine further includes an elastic auxiliary member for assisting the first conductive member to reset.

As an optional implementation manner, in an embodiment of the present invention, a first positioning groove is formed in the main frame, the milk shaking sleeve is accommodated in the first positioning groove, the output end of the first motor is inserted into the first positioning groove, and the first conductive member is inserted into the first positioning groove.

As an optional implementation manner, in an embodiment of the present invention, the second conductive member includes a first conductive member and a second conductive member electrically connected to each other, the first conductive member is disposed at the bottom of the milk shaking sleeve and is configured to be electrically connected to the first conductive member, and the second conductive member is disposed in the positioning cavity and is configured to be connected to the third conductive member.

As an optional implementation manner, in an embodiment of the present invention, the thermal insulation sleeve further includes a second circuit board, a battery, and a heating element, and the third conductive member, the battery, and the heating element are electrically connected to the second circuit board.

As an optional implementation manner, in an embodiment of the present invention, the thermal insulation sleeve includes a thermal insulation seat and a sleeve body disposed on the thermal insulation seat, the second circuit board and the third conductive member are disposed in the thermal insulation seat, and the heating element is disposed in the sleeve body.

As an optional implementation manner, in an embodiment of the present invention, a control panel electrically connected to the second circuit board is further disposed on the heat-insulating sleeve.

As an alternative implementation manner, in an embodiment of the present invention, the control panel protrudes outward from the insulating sleeve, and a boss adapted to the control panel is provided at a position of the milk shaking sleeve corresponding to the control panel, and the boss has a second positioning groove.

As an optional implementation manner, in an embodiment of the present invention, a third positioning groove is further disposed on the heat-insulating sleeve, the third conductive member is disposed on the third positioning groove, a positioning protrusion adapted to the third positioning groove is disposed in the milk shaking sleeve, and the second conductive member is disposed on the positioning protrusion.

In conclusion, the feeding bottle shaking heat preservation machine provided by the invention has the following technical effects:

the invention provides a milk bottle shaking heat preservation machine which comprises a host machine, a milk shaking sleeve with a positioning cavity and a heat preservation sleeve, wherein the host machine comprises a first motor and a first conductive piece electrically connected with an external power supply, the milk shaking sleeve comprises a second conductive piece, the first motor is in transmission connection with the milk shaking sleeve and is used for driving the milk shaking sleeve to rotate relative to the host machine, the first conductive piece is provided with a first position electrically contacted with the second conductive piece and a second position separated from the second conductive piece, the heat preservation sleeve comprises a third conductive piece, and when the heat preservation sleeve is placed in the positioning cavity, the third conductive piece is electrically connected with the second conductive piece. By adopting the milk bottle shaking heat preservation machine, when milk powder needs to be brewed, the milk bottle added with water and the milk powder is placed in the heat preservation sleeve, the heat preservation sleeve is placed in the positioning cavity of the milk shaking sleeve, the first motor is started, the first motor drives the milk shaking sleeve to rotate relative to the host machine, and milk shaking of the milk bottle can be achieved, so that the problem of tedious milk shaking can be solved; when the temperature of milk in the milk bottle needs to be kept, the milk bottle is placed in the heat-insulating sleeve, and the heat-insulating sleeve can realize the heat insulation of the milk bottle, so that the problem that the heat-insulating effect of the milk bottle is poor can be solved. In addition, the heat preservation sleeve is placed in the positioning cavity of the milk shaking sleeve, the third conductive piece can be electrically connected with the first conductive piece through the second conductive piece, namely the third conductive piece can be connected with an external power supply through the first conductive piece, and then the heat preservation sleeve can be powered. So set up, the power supply of insulation cover can be accomplished to the one hand, and convenient operation is simple.

Drawings

FIG. 1 is a schematic structural view of a shaking and heat-insulating machine for a feeding bottle according to an embodiment of the present invention;

FIG. 2 is a sectional view of the shaking and warming machine for the baby bottle according to the embodiment of the present invention;

FIG. 3 is an exploded view of the baby bottle shaking incubator according to the embodiment of the present invention;

FIG. 4 is an exploded sectional view illustrating the structure of the shaking warmer for a baby bottle according to the embodiment of the present invention;

FIG. 5 is an exploded view of an insulating sleeve according to an embodiment of the present invention;

FIG. 6 is an exploded view of a portion of the structure of an embodiment of the present invention;

FIG. 7 is a circuit diagram according to an embodiment of the invention.

Wherein the reference numerals have the following meanings:

10. shaking the feeding bottle and keeping the temperature; 1. a host; 11. a first circuit board; 12. a first motor; 13. a first conductive member; 14. a drive mechanism; 141. a second motor; 142. a second transmission member; 1421. a cam; 1422. a rocker arm; 1423. a support; 1424. a chute; 15. an elastic auxiliary member; 16. a first positioning groove; 2. shaking the milk sleeve; 21. a positioning cavity; 22. a first transmission member; 23. a second conductive member; 231. a first sub-conductive member; 232. a second sub-conductive member; 24. a boss; 25. positioning the projection; 3. a thermal insulation sleeve; 31. a heat preservation seat; 311. a second circuit board; 312. a third conductive member; 313. a battery; 314. a third positioning groove; 315. a control panel; 32. a sleeve body; 321. a heating element; 10. a feeding bottle.

Detailed Description

For better understanding and implementation, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

Referring to fig. 1 to 7, the present invention discloses a milk bottle shaking heat preservation machine 10, which includes a main machine 1, a milk shaking sleeve 2 having a positioning cavity 21, and a heat preservation sleeve 3, wherein the main machine 1 includes a first motor 12 and a first conductive member 13 electrically connected to an external power source, the milk shaking sleeve 2 includes a second conductive member 23, the first motor 12 is in transmission connection with the milk shaking sleeve 2 and is used for driving the milk shaking sleeve 2 to rotate relative to the main machine 1, the first conductive member 13 has a first position electrically contacting with the second conductive member 23 and a second position separated from the second conductive member 23, the heat preservation sleeve 3 includes a third conductive member 312, and when the heat preservation sleeve 3 is placed in the positioning cavity 21, the third conductive member 312 is electrically connected to the second conductive member 23.

By adopting the feeding bottle shaking heat preservation machine 10, when milk powder needs to be brewed, the feeding bottle 10 added with water and the milk powder is placed in the heat preservation sleeve 3, the heat preservation sleeve 3 is placed in the positioning cavity 21 of the milk shaking sleeve 2, the first motor 12 is started, the milk shaking sleeve 2 is driven by the first motor 12 to rotate relative to the host machine 1, and milk shaking of the feeding bottle 10 can be achieved, so that the problem of tedious milk shaking can be solved; when the temperature of milk in the feeding bottle 10 needs to be kept, the feeding bottle 10 is placed in the heat-insulating sleeve 3, and the heat-insulating sleeve 3 can realize the heat insulation of the feeding bottle 10, so that the problem that the heat-insulating effect of the feeding bottle 10 is poor can be solved.

In addition, the insulating sleeve 3 is placed in the positioning cavity 21 of the milk shaking sleeve 2, the third conductive member 312 can be electrically connected to the first conductive member 13 through the second conductive member 23, that is, the third conductive member 312 can be connected to an external power supply through the first conductive member 13, so that the power supply to the insulating sleeve 3 can be realized. So set up, the power supply of insulation cover 1 can be accomplished to the one hand, and convenient operation is simple.

In order to form a loop after the first conductive member 13, the second conductive member 23, and the third conductive member 312 are connected, the first conductive member 13, the second conductive member 23, and the third conductive member 312 all include positive and negative electrodes.

In some embodiments, the host 1 further includes a first circuit board 11 for connecting to an external power source, the first motor 12 and the first conductive member 13 are electrically connected to the first circuit board 11, and the first motor 12 and the first conductive member 13 are connected to the external power source through the first circuit board 11.

In addition, the milk shaking sleeve 2 further comprises a first transmission piece 22, the first transmission piece 22 is in transmission connection with the first motor 12, and the first motor 12 drives the first transmission piece 22 to drive the milk shaking sleeve 2 to rotate relative to the main machine 1.

In some embodiments, in order to make the first conductive member 13 and the second conductive member 23 conductive in contact, the first conductive member 13 at least partially protrudes out of the main body 1 when in the first position to be electrically connected to the second conductive member 23. The embodiment is exemplified by the first conductive member 13 partially protruding out of the host 1 to be electrically connected to the second conductive member 23.

The first conductive member 13 is exemplarily a conductive pogo pin, and it is understood that the first conductive member 13 may also be a conductive pillar or the like, which is not limited herein.

In some embodiments, to facilitate electrical connection of the second conductive member 23 to the first conductive member 13 and the third conductive member 312, the second conductive member 23 includes a first sub-conductive member 231 and a second sub-conductive member 232 electrically connected to each other, the first sub-conductive member 231 is disposed at the bottom of the milk whipping sleeve 2 for electrical connection to the first conductive member 13, and the second sub-conductive member 232 is disposed in the positioning cavity 21 for connection to the third conductive member 312. As can be seen from the above, the second conductive member 23 includes positive and negative electrodes, that is, the first sub-conductive member 231 and the second sub-conductive member 232 both include positive and negative electrodes.

Illustratively, the first sub-conductor 231 is a conductive metal ring, and the second sub-conductor 232 is a conductive pogo pin. It is to be understood that the first sub-conductive member 231 and the second sub-conductive member 232 may also be other conductive members such as a metal plating layer or a conductive pillar, which is not limited herein.

In some embodiments, in order to avoid the damage to the first conductive member 13 and the first sub-conductive member 231 caused by the sliding friction between the first conductive member 13 and the first sub-conductive member 231 when the milk whipping sleeve 2 rotates relative to the main frame 1, the main frame 1 further includes a driving mechanism 14, the first conductive member 13 is movably disposed on the main frame 1 through the driving mechanism 14, and the driving mechanism 14 is configured to drive the first conductive member 13 to move to the second position separated from the second conductive member 23 or drive the first conductive member 13 to return to the first position electrically connected to the second conductive member 23. So configured, when the milk shaking function is needed, the driving mechanism 14 drives the first conductive member 13 to move to be separated from the second conductive member 23, so as to prevent the first conductive member 13 and the first sub-conductive member 231 from sliding and rubbing against each other; when power needs to be supplied to the insulating sleeve 3, the driving mechanism 14 drives the first conductive member 13 to reset, so that the second conductive member 23 is electrically connected with the first conductive member 13.

Further, the driving mechanism 14 includes a second motor 141 electrically connected to the first circuit board 11 and a second transmission member 142 in transmission connection with the second motor 141, the first conductive member 13 is disposed on the second transmission member 142, and the second transmission member 142 is used for driving the first conductive member 13 to move under the driving of the second motor 141.

Further, the second transmission member 142 includes a cam 1421 having a rocker 1422 and a bracket 1423 having a sliding slot 1424, the cam 1421 is connected to the second motor 141, the first conductive member 13 is disposed on the bracket 1423, the rocker 1422 is slidably connected to the sliding slot 1424, the second motor 141 drives the cam 1421 to rotate, while the cam 1421 rotates, the rocker 1422 slides in the sliding slot 1424 of the bracket 1423, so as to drive the bracket 1423 to drive the first conductive member 13 to move to be separated from or reset to the second conductive member 23.

In some embodiments, the main unit 1 further includes an elastic auxiliary member 15 for assisting the first conductive member 13 to return, one end of the elastic auxiliary member 15 is fixed in the main unit 1, the other end of the elastic auxiliary member 15 abuts against the support 1423, and the elastic auxiliary member 15 assists the return of the support 1423 and further assists the return of the first conductive member 13.

The elastic auxiliary 15 is illustratively a spring. It is understood that in other preferred embodiments, the elastic auxiliary member 15 may also be an elastic column or the like, which is not limited herein.

In some embodiments, in order to facilitate the positioning and installation of the milk shaking sleeve 2 and the main machine 1, a first positioning groove 16 is formed in the main machine 1, the milk shaking sleeve 2 is accommodated in the first positioning groove 16, the output end of the first motor 12 penetrates through the first positioning groove 16, and the first conductive member 13 penetrates through the first positioning groove 16. In the process that the milk shaking sleeve 2 is installed on the main machine 1, the milk shaking sleeve 2 extends into the first positioning groove 16, so that the milk shaking sleeve 2 and the main machine 1 can be initially positioned, the first transmission piece 22 is connected to the first motor 12, and meanwhile, the second conductive piece 23 is electrically connected to the first conductive piece 13, so that the milk shaking sleeve 2 and the main machine 1 are fixedly positioned. So set up, can improve the installation effectiveness that shakes milk cover 2 and install on host computer 1.

In some embodiments, the thermal insulation cover 3 further includes a second circuit board 311, a battery 313 for storing electrical energy, and a heating element 321 for generating heat, and the third conductive member 312, the battery 313, and the heating element 321 are electrically connected to the second circuit board 311.

In some embodiments, the insulating sheath 3 includes a heat-insulating base 31 and a sheath 32 disposed on the heat-insulating base 31, the second circuit board 311 and the third conductive member 312 are disposed on the heat-insulating base 31, the heating element 321 is disposed in the sheath 32, and the sheath 32 is used for placing the feeding bottle 10. Thus, the sleeve body 32 can play a role in fixing the feeding bottle 10, and the heating element 321 can provide heat for the sleeve body 32, so that the sleeve body 32 can keep the feeding bottle 10 warm.

In some embodiments, in order that the second circuit board 311 of the thermal insulation sleeve 3 can obtain a heating instruction input by a user, the thermal insulation sleeve 3 is further provided with a control panel 315 electrically connected to the second circuit board 311, and the user can input the control instruction on the control panel 315 to control the heating element 321 to generate heat.

Furthermore, the control panel 315 protrudes outward from the insulating cover 3, and a boss 24 adapted to the second positioning groove of the control panel 315 is disposed at a position of the milk shaking cover 2 corresponding to the control panel 315. So configured, when the insulating sleeve 3 is placed in the positioning cavity 21 of the milk shaking sleeve 2, the control panel 315 can be in positioning fit with the second positioning groove, so that the third conductive member 312 is in positioning contact with the second conductive member 23.

As described above, the second circuit board 311 is disposed on the heat-retaining base 31, and therefore, the control panel 315 is disposed on the heat-retaining base 31 corresponding to the second circuit board 311.

In some embodiments, the insulating sleeve 3 further has a third positioning groove 314, the third conductive member 312 is disposed on the third positioning groove 314, the milk shaking sleeve 2 has a positioning protrusion 25 adapted to the third positioning groove 314, and the second conductive member 23 is disposed on the positioning protrusion 25. With such an arrangement, since the third conductive member 312 is disposed in the third positioning recess 314, the third conductive member 312 can be effectively prevented from being damaged by the external environment. In addition, in the process that the heat insulation sleeve 3 is placed in the positioning cavity 21 of the milk shaking sleeve 2, the third positioning groove 314 is connected with the positioning protrusion 25 in a matching manner, so that the directional contraposition contact efficiency of the third conductive member 312 and the second conductive member 23 can be further improved.

As mentioned above, the second circuit board 311 is disposed on the heat-retaining base 31, and therefore the third conductive member 312 is disposed on the heat-retaining base 31 corresponding to the second circuit board 311.

Illustratively, the third conductive member 312 is a conductive metal sheet. It is understood that the third conductive member 312 may also be a metal plating layer or a conductive pillar, etc., and is not limited herein.

The milk shaking and charging process of the milk bottle shaking incubator 10 will be described in detail as follows:

when the milk shaking function is started, the first circuit board 11 first controls the second motor 141 to operate, the second motor 141 drives the cam 1421 to rotate, the cam 1421 rotates while the rocker 1422 slides in the chute 1424 of the support 1423 to drive the first conductive member 13 to move to be separated from the second conductive member 23, then the first motor 12 is controlled to rotate forward and backward, and the first transmission member 22 drives the milk shaking sleeve 2 to rotate forward and backward relative to the main machine 1 under the driving of the first motor 12. After the milk shaking operation is completed, the first circuit board 11 controls the first motor 12 to stop and the second motor 141 to start, the second motor 141 rotates in the opposite direction to drive the cam 1421 to rotate in the opposite direction, the rocker arm 1422 slides in the chute 1424 to drive the support 1423 to reset, so that the first conductive member 13 resets and is in contact conduction with the first conductive member 231, and the external power transmits the electric energy to the thermal insulation sleeve 3 through a circuit path of the first circuit board 11, the first conductive member 13, the first conductive member 231, the second conductive member 232, the third conductive member 312, the second circuit board 311, the heating element 321 and the battery 313, so as to provide power for the thermal insulation sleeve 3.

The invention provides a milk bottle shaking heat preservation machine 10 which comprises a main machine 1, a milk shaking sleeve 2 with a positioning cavity 21 and a heat preservation sleeve 3, wherein the main machine 1 comprises a first motor 12 and a first conductive piece 13 electrically connected with an external power supply, the milk shaking sleeve 2 comprises a second conductive piece 23, the first motor 12 is in transmission connection with the milk shaking sleeve 2 and is used for driving the milk shaking sleeve 2 to rotate relative to the main machine 1, the first conductive piece 13 is provided with a first position electrically contacted with the second conductive piece 23 and a second position separated from the second conductive piece 23, the heat preservation sleeve 3 comprises a third conductive piece 312, and when the heat preservation sleeve 3 is placed in the positioning cavity 21, the third conductive piece 312 is electrically connected with the second conductive piece 23. By adopting the feeding bottle shaking heat preservation machine 10, when milk powder needs to be brewed, the feeding bottle 10 added with water and the milk powder is placed in the heat preservation sleeve 3, the heat preservation sleeve 3 is placed in the positioning cavity 21 of the milk shaking sleeve 2, the first motor 12 is started, the milk shaking sleeve 2 is driven by the first motor 12 to rotate relative to the host machine 1, and milk shaking of the feeding bottle 10 can be achieved, so that the problem of tedious milk shaking can be solved; when the temperature of milk in the feeding bottle 10 needs to be kept, the feeding bottle 10 is placed in the heat-insulating sleeve 3, and the heat-insulating sleeve 3 can realize the heat insulation of the feeding bottle 10, so that the problem that the heat-insulating effect of the feeding bottle 10 is poor can be solved. In addition, the insulating sleeve 3 is placed in the positioning cavity 21 of the milk shaking sleeve 2, the third conductive member 312 can be electrically connected to the first conductive member 13 through the second conductive member 23, that is, the third conductive member 312 can be connected to an external power supply through the first conductive member 13, so that the power supply to the insulating sleeve 3 can be realized. So set up, the power supply of insulation cover 1 can be accomplished to the one hand, and convenient operation is simple.

The technical means disclosed in the invention scheme are not limited to the technical means disclosed in the above embodiments, but also include the technical scheme formed by any combination of the above technical features. It should be noted that those skilled in the art can make various improvements and modifications without departing from the principle of the present invention, and such improvements and modifications are also considered to be within the scope of the present invention.