CN210871090U - Milk stirring cup - Google Patents

Abstract

The utility model relates to a milk beating device field discloses a milk beating cup, including the ascending stirred vessel of opening and with stirred vessel can dismantle the agitating unit of connection, agitating unit runs through the casing and the stirring rake that the drive assembly transmission is connected, the other end stretches into stirred vessel with drive assembly including establishing power supply unit and drive assembly's casing and one end in including, the skew stirred vessel center in the rotation center of stirring rake, and power supply unit is connected with the drive assembly electricity. The milk cup of the utility model adopts eccentric stirring, so that the milk and the air have large-area contact to form fine milk bubbles; the top of the stirring device is designed into a plane, the stirring device can stand on the table board, the stirring shaft can not be deformed, meanwhile, a waterproof cap is arranged on the stirring shaft, and when the stirring device is placed in a handstand mode, the residual milk can not flow into the stirring device, so that a more relaxed use environment is provided for a user.

Description

Milk stirring cup

Technical Field

The utility model relates to a milk whipping device field, more specifically relates to a milk whipping cup.

Background

When drinking coffee, the taste and texture of coffee can be improved by adding the smooth and exquisite milk foam into the coffee, and the milk foam can play a good decorative role, and is essential when drinking coffee as the coffee maker is used by more and more people.

The milk frother is usually formed by adding a stirring device into a container, the stirring device is used for stirring milk in the container to generate bubbles, and a stirring head is fixed in the container to stir and rotate during stirring, so that the milk in the container is fully contacted with air, and a large amount of milk bubbles are generated.

The structure of the milk frother in the prior art is generally complex, and in order to obtain high-quality milk foam, certain requirements are required on the stirring speed, as is well known, the stirring speed is high, and large vibration of a machine is inevitably brought, so that the milk frother is required to have enough weight to stabilize the machine, and the milk frother is relatively heavy and is not beneficial to light weight development. For this reason, a lightweight and portable milk cup has appeared in the prior art, such as chinese patent No. 201120464617.0, but its milk quality is far inferior to milk whipping devices. Therefore, there is a need to provide a lightweight, portable teat cup with high milk quality.

SUMMERY OF THE UTILITY MODEL

In view of this, the present invention provides a lightweight and portable milk cup with high milk quality to overcome at least one of the above disadvantages of the prior art, and solves the contradiction between high milk quality and light portability.

In order to solve the technical problem, the utility model adopts the following technical scheme:

the utility model provides a milk stirring cup, including the ascending stirred vessel of opening and with stirred vessel can dismantle the agitating unit of connection, agitating unit runs through the casing and the stirring rake that the other end stretched into stirred vessel with drive assembly transmission connection, the other end including the casing and the one end of establishing power supply unit and drive assembly in including, the skew stirred vessel center of rotation center of stirring rake, and power supply unit is connected with the drive assembly electricity.

The utility model provides a milk cup, by stirred vessel and lug connection constitute in stirred vessel's agitating unit two parts, agitating unit is equivalent to stirred vessel's closing cap, melts power supply unit, drive assembly and stirring rake in an organic whole, simple structure, the quality is light, portable. Finally, the rotation center of the stirring device deviates from the center of the stirring container to form eccentric stirring, so that the milk and the air form fine milk bubbles by large-area contact, and the high-quality milk bubbles can be formed even if the stirring speed is relatively low. The power supply assembly can be a dry battery or a storage battery which can supply power independently, and can also be a power supply connection structure which needs an external power supply, such as a USB interface and the like. The driving component is a structure capable of driving the stirring paddle to rotate under the condition of power supply, such as a driving motor.

The stirring container comprises a cup body with an upward opening and a cup cover connected and covering the opening of the cup body, an eccentric hole deviating from the center is formed in the cup cover, and the stirring paddle penetrates through the eccentric hole and extends into the cup body. The stirring container is connected with the cup body through the cup cover, milk can be poured into the cup body from the eccentric hole when being poured into the cup body, and the cup cover can play a role in preventing the milk from splashing outside the cup body; when accomplishing to suckle, can take off agitating unit from the bowl cover earlier, take off the bowl cover from the cup again, compare in taking off the bowl cover from the cup together with agitating unit and get off easily, can dismantle between bowl cover and the cup and be connected, also be favorable to the milk bubble to pour out from the cup.

In order to avoid that the cup cover or the stirring device is difficult to take down due to different air pressures inside and outside the stirring container when the milk is finished, the cup cover is also provided with an air vent which avoids the eccentric hole.

The top of the shell is of a plane structure convenient for inversion of the stirring device, the stirring paddle comprises a stirring ring and a stirring shaft, the two ends of the stirring shaft are respectively provided with the stirring ring and the stirring shaft is connected with the driving assembly, and the stirring shaft is provided with a waterproof cap which prevents liquid remained on the stirring paddle when the stirring device is inverted from flowing into the shell along the stirring shaft. The stirring device can be placed on the desktop in an inverted mode, deformation of the stirring paddle due to improper placement is prevented, and the situation that residual milk flows into the shell of the stirring device is avoided.

The bottom surface of the waterproof cap is provided with a first liquid receiving groove, and the first liquid receiving groove receives residual liquid left along the stirring shaft when the stirring device is inverted, so that the residual liquid is prevented from flowing onto a desktop.

The shell comprises an upper shell and a lower shell which are connected up and down, and when the lower shell is inserted into the eccentric hole, the bottom surface of the upper shell is contacted with the top surface of the cup cover and covers the eccentric hole; the outer side wall of the lower shell is provided with a protrusion, the hole wall of the eccentric hole is provided with a clamping groove clamped with the protrusion, or the outer side wall of the lower shell is provided with a clamping groove, and the hole wall of the eccentric hole is provided with a protrusion matched with the clamping groove. The lower shell and the eccentric hole are connected in a detachable mode through the clamping of the protrusion and the clamping groove, and a rotary clamping mode is preferably adopted.

The bottom surface of the lower shell is connected with a cylinder communicated with the inside of the shell, the stirring shaft penetrates through the cylinder to be in transmission connection with the driving assembly, and the waterproof cap buckles the cylinder. The residual liquid flowing down from the waterproof cap is prevented from flowing into the stirring device from the gap between the lower shell and the stirring shaft.

And a second liquid receiving groove is formed in the bottom surface of the lower shell, and the second liquid receiving groove receives residual liquid overflowing from the first liquid receiving groove when the stirring device is inverted.

The stirring device further comprises a switch assembly arranged in the shell, the power supply assembly and the driving assembly are electrically connected through the switch assembly, and the side wall of the shell is provided with a through hole used for exposing a switch keycap of the switch assembly.

The power supply assembly is a battery, the power supply assembly and the driving assembly are arranged inside the shell from top to bottom, the opening of the shell faces upwards, and a battery cover which is rotatably clamped with the shell is arranged at the opening of the shell.

Compared with the prior art, the utility model has following beneficial effect: the milk cup of the utility model adopts eccentric stirring, so that the milk and the air have large-area contact to form fine milk bubbles; the stirring device is connected with the stirring container, and the driving assembly is connected with a power supply to automatically milk, so that great convenience is brought to user operation; the top of the stirring device is designed into a plane, the stirring device can stand on the table board, the stirring shaft can not be deformed, meanwhile, a waterproof cap is arranged on the stirring shaft, and when the stirring device is placed in a handstand mode, the residual milk can not flow into the stirring device, so that a more relaxed use environment is provided for a user. The milk frothing cup is simple in structure, low in cost and easy to clean, improves safety, effectively solves the quality problem of milk froth, improves user experience, provides a lighter using environment for users, and also has better popularization advantages.

Drawings

Fig. 1 is a schematic view of the structure of the teat cup.

Fig. 2 is an exploded view of the mixing container.

Fig. 3 is an exploded view of the stirring device.

Fig. 4 is a schematic view of the stirring apparatus in an upside-down state.

Fig. 5 is a structural schematic view II of the milk cup.

Description of reference numerals: the stirring device 100, the stirring paddle 110, the stirring ring 111, the stirring shaft 112, the waterproof cap 113, the first liquid receiving groove 1131, the driving assembly 120, the power supply assembly 130, the shell 140, the upper shell 141, the lower shell 142, the cylinder 1421, the second liquid receiving groove 1422, the battery cover 143, the switch assembly 150, the stirring container 200, the cup cover 210, the eccentric hole 211, the vent hole 212, the cup body 220, the soft rubber gasket 300 and the handle 310.

Detailed Description

The drawings are for illustrative purposes only and are not to be construed as limiting the invention; for the purpose of better illustrating the embodiments, certain features of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted; the positional relationships depicted in the drawings are for illustrative purposes only and are not to be construed as limiting the invention. The present invention will be described in further detail with reference to specific embodiments.

As shown in fig. 1, a milk stirring cup comprises a stirring container 200 with an upward opening and a stirring device 100 detachably connected with the stirring container 200, wherein the stirring device 100 comprises a housing 140 internally provided with a power supply assembly 130 and a driving assembly 120, and a stirring paddle 110 with one end penetrating through the housing 140 and being in transmission connection with the driving assembly 120 and the other end extending into the stirring container 200, the rotation center of the stirring paddle 110 deviates from the center of the stirring container 200, and the power supply assembly 130 is electrically connected with the driving assembly 120.

The embodiment provides a milk cup, which comprises two parts, namely a stirring container 200 and a stirring device 100 directly connected to the stirring container 200, wherein the stirring device 100 is equivalent to a sealing cover of the stirring container 200, and integrates a power supply assembly 130, a driving assembly 120 and a stirring paddle 110 into a whole, so that the milk cup is simple in structure, light in weight and convenient to carry. Finally, it is important that the rotation center of the stirring device 100 is eccentric from the center of the stirring container 200 to form eccentric stirring, so that the milk and the air form fine milk bubbles by a large-area contact, and the milk bubbles with good quality can be formed even if the stirring speed is relatively low.

As shown in FIG. 2, the mixing container 200 includes a transparent cup 220 with an upward opening and a cover 210 connected to cover the opening of the cup 220, the cover 210 is provided with an eccentric hole 211 which is eccentric, and the mixing blade 110 extends into the cup 220 through the eccentric hole 211. The mixing container 200 is connected with the cup body 220 through the cup cover 210, milk can be poured into the cup body 220 from the eccentric hole 211 when the milk is poured into the cup body 220, and the cup cover 210 can play a role of preventing the milk from splashing outside the cup body 220; when the milk is played, the stirring device 100 can be taken down from the cup cover 210, and then the cup cover 210 is taken down from the cup body 220, compared with the condition that the cup cover 210 is taken down from the cup body 220 together with the stirring device 100, the cup cover 210 and the cup body 220 are detachably connected, and the milk foam can be poured out from the cup body 220.

In order to avoid the difficulty in taking off the cup cover 210 or the stirring device 100 due to the difference of the air pressure inside and outside the stirring container 200 when the milk is finished, the cup cover 210 is further provided with an air vent 212 and a screwing character mark which avoid the eccentric hole 211. A sealing ring is arranged between the cup cover 210 and the cup body 220.

As shown in fig. 1 and 4, the top of the casing 140 constituting the stirring apparatus 100 is a plane structure facilitating the inversion of the stirring apparatus 100, the stirring paddle 110 includes a stirring ring 111 and a stirring shaft 112 having two ends respectively connected to the stirring ring 111 and the driving assembly 120, and the stirring shaft 112 is sleeved with a waterproof cap 113 for preventing liquid remaining on the stirring paddle 110 when the stirring apparatus 100 is inverted from flowing into the inside of the casing 140 along the stirring shaft 112. The stirring device 100 can be placed upside down on a table, which is beneficial to preventing the stirring paddle 110 from being deformed due to improper placement, and the residual milk does not need to be worried about flowing into the shell 140 of the stirring device 100. The bottom surface of the waterproof cap 113 is provided with a first liquid receiving groove 1131, and the first liquid receiving groove 1131 receives the residual liquid left along the stirring shaft 112 when the stirring device 100 is inverted, so as to prevent the residual liquid from flowing onto the table top.

As shown in fig. 3, the housing 140 includes an upper housing 141 and a lower housing 142 connected up and down. The upper casing 141 and the lower casing 142 are both of a structure with an upward opening, a through hole is formed in the bottom of the upper casing 141, a flange is arranged at the opening of the lower casing 142, the lower casing 142 is placed into the upper casing 141 from the opening of the upper casing 141, the lower part of the lower casing passes through the through hole, the flange is left in the upper casing 141 and is just clamped in the through hole, and a sealing ring is arranged between the flange and the through hole.

The stirring device 100 is connected by the rotary clamping between the lower shell 142 and the eccentric hole 211, and when the lower shell 142 is inserted into the eccentric hole 211, the bottom surface of the upper shell 141 contacts with the top surface of the cup cover 210 and covers the eccentric hole 211; the outer side wall of the lower shell 142 is provided with a protrusion, the hole wall of the eccentric hole 211 is provided with a clamping groove clamped with the protrusion, or the outer side wall of the lower shell 142 is provided with a clamping groove, and the hole wall of the eccentric hole 211 is provided with a protrusion matched with the clamping groove.

The bottom surface of the lower housing 142 is connected with a cylinder 1421 communicated with the interior of the housing 140, the stirring shaft 112 penetrates through the cylinder 1421 to be in transmission connection with the driving assembly 120, and the waterproof cap 113 is buckled on the cylinder 1421. The residual liquid flowing down from the waterproof cap 113 is prevented from flowing into the inside of the stirring apparatus 100 from the gap between the lower housing 142 and the stirring shaft 112. The bottom surface of the lower housing 142 is provided with a second liquid receiving tank 1422, and the second liquid receiving tank 1422 receives the residual liquid overflowing from the first liquid receiving tank 1131 when the stirring apparatus 100 is inverted.

The stirring device 100 further comprises a switch assembly 150 disposed in the housing 140, the power supply assembly 130 and the driving assembly 120 are electrically connected through the switch assembly 150, and a through hole for exposing a switch keycap of the switch assembly 150 is disposed on a side wall of the housing 140. The driving assembly 120 is a structure capable of driving the paddle 110 to rotate when power is supplied, such as a driving motor. The power supply assembly 130 may be a dry battery or a storage battery capable of supplying power independently, or may be a power supply connection structure requiring an external power supply, such as a USB interface. The power supply assembly 130 of this embodiment is a dry battery, the power supply assembly 130 and the driving assembly 120 are disposed inside the housing 140 from top to bottom, the opening of the housing 140 is upward, a battery cover 143 rotatably engaged with the housing 140 is disposed at the opening of the housing 140, a screw-on character mark is disposed on the upper surface of the battery cover 143, and a battery compartment for placing a dry battery facing the opening of the housing 140 is disposed inside the housing 140. The driving assembly 120 is disposed under the battery compartment, and is specifically installed in the lower housing 142 and is restrained by the fixing member connected to the lower housing 142, the fixing member has a top surface connected to the battery compartment and a side surface connected to the switch assembly 150.

As shown in fig. 5, the teat cup further comprises a soft rubber pad 300 for placing the cup body 220, and a protruding handle 310 is arranged on one side of the soft rubber pad 300.

When milk foam is manufactured, the transparent cup body 220 is placed on the soft rubber gasket, the cup cover 210 is covered, a proper amount of milk is poured into the eccentric hole 211 (or the cup cover 210 is covered after the proper amount of milk is poured), then the stirring paddle 110 of the stirring device 100 extends into the cup body 220 from the eccentric hole 211 and is fixedly installed by aiming at the clamping structure between the side wall of the lower shell 142 and the hole wall of the eccentric hole 211, the switch key cap can be pressed down after the installation is confirmed, the stirring device 100 is started, the milk is more quickly and fully contacted with the air during stirring because the stirring shaft 112 is positioned at the eccentric position of the cup body 220, the milk foam is finer and smoother, the taste is better, the milk beating can be completed within seconds, the stirring device 100 and the cup cover 210 can be taken out together after the operation is completed, because the upper surface of the battery cover 143 is designed into a plane, and the waterproof cap 113 exists, the stirring device 100 can be placed on a platform in an inverted mode, and the remained milk is not worried to enter the main machine.

After the milk foam is made, a proper amount of clear water is added into the cup body 220, the stirring device 100 and the cup cover 210 are installed on the cup body 220 again, the machine is started, and the cleaning can be completed after several seconds.

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

Claims (10)

1. The utility model provides a milk stirring cup, including ascending stirred vessel (200) of opening and with stirred vessel can dismantle agitating unit (100) of being connected, its characterized in that, agitating unit is including establishing casing (140) and one end of power supply unit (130) and drive assembly (120) in and running through casing and drive assembly transmission and being connected, the other end stretches into stirred vessel's stirring rake (110), the center of rotation of stirring rake is skew stirred vessel center, and power supply unit is connected with the drive assembly electricity.

2. A teat cup according to claim 1, characterised in that the mixing vessel comprises an upwardly open cup body (220) and a lid (210) attached to cover the opening in the cup body, the lid being provided with an off-centre aperture (211) through which the mixing paddle extends into the cup body.

3. A teat cup according to claim 2, characterised in that the cup lid is further provided with a vent (212) avoiding the eccentric hole.

4. The milk whisk according to claim 2, wherein the top of the housing is a planar structure facilitating inversion of the whisking device, the whisking paddle comprises a whisking ring (111) and a whisking shaft (112) having two ends connecting the whisking ring and the driving assembly, respectively, the whisking shaft is sleeved with a waterproof cap (113) preventing liquid remaining on the whisking paddle from flowing into the housing along the whisking shaft when the whisking device is inverted.

5. A teat cup according to claim 4, characterised in that the water-resistant cap is provided with a first liquid receiving channel (1131) in its underside for receiving residual liquid remaining along the mixer shaft when the mixing device is inverted.

6. A teat cup according to claim 5, wherein the casing includes an upper casing (141) and a lower casing (142) joined one above the other, a bottom surface of the upper casing being in contact with a top surface of the cap and covering the eccentric hole when the lower casing is inserted into the eccentric hole; the outer side wall of the lower shell is provided with a protrusion, the hole wall of the eccentric hole is provided with a clamping groove clamped with the protrusion, or the outer side wall of the lower shell is provided with a clamping groove, and the hole wall of the eccentric hole is provided with a protrusion matched with the clamping groove.

7. A teat cup according to claim 6, characterised in that a cylinder (1421) is connected to the bottom of the lower housing in communication with the interior of the housing, the agitator shaft passing through the cylinder in driving connection with the drive assembly, and the watertight cap clasps the cylinder.

8. A teat cup according to claim 7, characterised in that the lower housing bottom surface is provided with a secondary liquid receiving reservoir (1422) which receives residual liquid overflowing from the primary liquid receiving reservoir when the mixing device is inverted.

9. A teat cup according to claim 1, characterised in that the whisking apparatus further comprises a switch assembly (150) arranged within the housing, the power supply assembly and the drive assembly being electrically connected by the switch assembly, the housing side wall being provided with a through hole for exposing a switch key cap of the switch assembly.

10. The milk breaking cup as claimed in claim 1, wherein the power supply assembly is a battery, the power supply assembly and the driving assembly are disposed inside the housing from top to bottom, the housing has an upward opening, and a battery cover (143) is disposed at the opening of the housing and rotatably engaged with the housing.

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