CN217118234U - Stirring cup and stirrer with same - Google Patents

Abstract

The stirring cup comprises a cup body, wherein a plurality of turbulence parts are arranged on the inner wall of the cup body in the circumferential direction, and any two turbulence parts are arranged on two sides of a stirring axis in a non-centrosymmetric manner; one of the turbulence parts is a series flow rib, the series flow rib is provided with a flow facing surface facing the incoming direction of the fluid and a back flow surface opposite to the flow facing surface, and the flow facing surface gradually inclines to the back flow surface from bottom to top. When stirring, the food materials in the stirring cup are firstly disturbed by other disturbing parts except the series flow ribs; when the food materials reach the series flow ribs, the fluid firstly impacts the roots of the series flow ribs to upwards series flow along the incident flow surfaces of the series flow ribs, when the food materials upwards series flow to the tops of the series flow ribs, the food materials can continuously downwards series flow beyond the series flow ribs, a better turbulence effect is achieved, the food can not rotate along a stable vortex all the time like the existing even number symmetrical cups but can be repeatedly cut and smashed through the middle stirring section, and the stirring efficiency of the whole machine is improved.

Description

Stirring cup and stirrer with same

Technical Field

The application belongs to the technical field of agitated vessel, more specifically says, relates to a stirring cup and have its mixer.

Background

With the increasing living standard of people, many different types of blenders appear on the market. The functions of the blender may include, but are not limited to, soymilk making, juice squeezing, rice paste making, meat grinding, ice shaving, coffee making, and/or mask blending. The mixer includes that host computer, detachably install in the stirring cup of host computer and set up in the stirring knife tackle spare of stirring cup bottom, and the host computer includes the motor, and the motor output end is connected with stirring knife tackle spare, and drive stirring knife tackle spare rotates and eats the material in order to whip.

At present, in order to improve stirring effect, often need carry out the vortex to the edible material in the stirring cup, can be provided with the vortex muscle of a certain amount inside the stirring cup usually to take place anomalous motion after making edible material touch the vortex muscle when high-speed operation, improve stirring effect. However, the existing turbulence rib structures are all even number rib positions which are symmetrically distributed on the inner side of the cup, the rib positions are basically consistent, a stable vortex can be formed when the food material in the cup body is stirred, the blocky food can rotate along the vortex, the blocky food can only be smashed by means of the blade and high-speed rotation, the stirring smashing efficiency is low, and the stirring effect is not ideal.

SUMMERY OF THE UTILITY MODEL

An object of the embodiment of the application is to provide a stirring cup and have its mixer, aim at solving the unsatisfactory technical problem of stirring effect of stirring cup among the prior art.

In order to achieve the above object, according to one aspect of the present application, a stirring cup is provided, an axis of the stirring cup during stirring is a stirring axis, the stirring cup includes a cup body, a plurality of turbulence portions are arranged on a circumferential direction of an inner wall of the cup body, and any two turbulence portions are arranged on two sides of the stirring axis in a non-centrosymmetric manner; one of the turbulence parts is a series flow rib, the series flow rib is provided with a flow facing surface facing the incoming direction of the fluid and a back flow surface opposite to the flow facing surface, and the flow facing surface gradually inclines to the back flow surface from bottom to top.

Optionally, the cross section of the series flow rib is gradually reduced from bottom to top to form an incident flow surface on the side of the series flow rib facing the incoming flow of the fluid.

Optionally, the number of the turbulence portions is odd, the other turbulence portions except the series flow ribs are turbulence ribs, and the even number of the turbulence ribs are symmetrically arranged on two sides of the series flow ribs.

Optionally, the plurality of spoilers are arranged at equal angles along the circumference of the cup body, centered on the stirring axis.

Optionally, the stirring cup further comprises a handle, the handle is mounted on the side wall of the cup body and is arranged opposite to the series flow ribs, and the flow guiding effect during pouring is achieved through the series flow ribs.

Optionally, the upper edge of the cup body is provided with a liquid pouring port protruding towards the outside of the cup body, and the top of the series flow rib faces the liquid pouring port.

Optionally, the plurality of spoiler portions is integrally formed with the cup body.

Optionally, the surface of the series flow rib is in smooth transition, and the incident flow surface and the inner wall of the cup body are in smooth transition; the cross sections of the turbulence ribs from top to bottom are the same, and the cross section area of the bottom of each turbulence rib is larger than that of each turbulence rib.

Optionally, the series flow ribs are gradually inclined towards the stirring direction of the stirring cup from bottom to top.

According to another aspect of the application, a stirring machine is provided, which comprises a machine body, a cutter assembly and a stirring cup, wherein the stirring cup is mounted on the machine body, the cutter assembly is mounted in the stirring cup, and the stirring cup is the stirring cup.

The application provides a stirring cup's beneficial effect lies in: compared with the prior art, the stirring cup comprises a plurality of turbulence parts, any two turbulence parts are arranged on two sides of a stirring axis in a non-central symmetrical mode, after fluid is disturbed by any one turbulence part through the non-central symmetrical arrangement of the turbulence parts, symmetrical turbulence is carried out on one side, symmetrical to the turbulence part, of the cup body, and accordingly the fluid cannot form a particularly stable vortex; when the food materials reach the series flow ribs, the fluid firstly impacts the roots of the series flow ribs to upwards series flow along the flow surface of the series flow ribs, and when the food materials upwards series flow to the tops of the series flow ribs, the food materials can cross the series flow ribs to continue downwards series flow, so that a better flow disturbing effect is achieved. Unlike the turbulence part with the even number of the inner wall symmetrically distributed: when food on the inner wall of the stirring cup passes through the plurality of turbulence parts on the front side, stable vortex is just formed in the cup, when the food passes through the series flow ribs, the vortex which is just formed can be destroyed because the series flow ribs are asymmetric in position and different from other turbulence parts in structure, so that the food can not rotate along the stable vortex all the time like the existing even number symmetrical cup but can be repeatedly cut and smashed through the middle stirring section, and the stirring efficiency of the whole machine is improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.

FIG. 1 is a schematic top view of a blender according to an embodiment of the present disclosure;

FIG. 2 is a schematic cross-sectional view of a blender embodying series flow ribs according to an embodiment of the present disclosure;

FIG. 3 is a schematic cross-sectional view of a blender embodying turbulator ribs according to an embodiment of the present disclosure;

FIG. 4 is a schematic cross-sectional view of a blender according to an embodiment of the present disclosure during pouring;

reference numerals referred to in the above figures are detailed below:

10. a cup body;

11. a liquid pouring port;

12. a stirring axis;

21. a series rib;

211. the head-on surface;

212. a back flow surface;

22. a turbulence rib;

30. a handle;

40. a cutter assembly;

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present application clearer, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element. The embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

It will be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like, as used herein, refer to an orientation or positional relationship indicated in the drawings that is solely for the purpose of facilitating the description and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered as limiting the present application.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

As noted in the background, many different types of blenders are available on the market as people have increased their standard of living. The functions of the blender may include, but are not limited to, soymilk making, juice squeezing, rice paste making, meat grinding, ice shaving, coffee making, and/or mask blending. The mixer includes that host computer, detachably install in the stirring cup of host computer and set up in the stirring knife tackle spare of stirring cup bottom, and the host computer includes the motor, and the motor output end is connected with stirring knife tackle spare, and drive stirring knife tackle spare rotates to eat the material in order to whip. At present, in order to improve stirring effect, often need carry out the vortex to the edible material in the stirring cup, can be provided with the vortex muscle of a certain amount inside the stirring cup usually to take place anomalous motion after making edible material touch the vortex muscle when high-speed operation, improve stirring effect. However, the existing turbulence rib structures are all even number rib positions which are symmetrically distributed on the inner side of the cup, the rib positions are basically consistent, a stable vortex can be formed when the food material in the cup body is stirred, the blocky food can rotate along the vortex, the blocky food can only be smashed by means of the blade and high-speed rotation, the stirring smashing efficiency is low, and the stirring effect is not ideal.

Referring to fig. 1 to 4 (where the direction of the shearing head represents the direction of fluid movement), in order to solve the above problem, according to an aspect of the present application, an embodiment of the present application provides a mixing cup, an axis of the mixing cup during mixing is a mixing axis 12, the mixing cup includes a cup body 10, a plurality of turbulence portions are arranged on a circumferential direction of an inner wall of the cup body 10, and any two turbulence portions are arranged on two sides of the mixing axis 12 in a non-central symmetric manner; one of the turbulent portions is a series flow rib 21, the series flow rib 21 has an upstream surface 211 facing the incoming direction of the fluid and a downstream surface 212 opposite to the upstream surface 211, and the upstream surface 211 gradually inclines towards the downstream surface 212 from bottom to top. The flow surface 211 of the series rib 21 refers to a surface of the series rib 21 facing the fluid, and the back flow surface 212 refers to a surface facing away from the fluid. The stirring cup of the embodiment comprises a plurality of turbulence parts, any two turbulence parts are arranged on two sides of a stirring axis 12 in a non-centrosymmetric manner, and through the non-centrosymmetric arrangement of the plurality of turbulence parts, after any one turbulence part conducts turbulence on fluid, no corresponding turbulence part conducts symmetric turbulence on one side of the cup body 10 which is symmetric to the turbulence part, so that the fluid cannot form a particularly stable vortex, moreover, one of the plurality of turbulence parts is a streaming rib 21, the streaming rib 21 is provided with a stream facing surface 211 facing the incoming direction of the fluid and a back flow surface 212 opposite to the stream facing surface 211, the stream facing surface 211 gradually inclines towards the back flow surface 212 from bottom to top, and when stirring is conducted, food materials in the stirring cup firstly conduct turbulence through other turbulence parts except the streaming rib 21; when the food material reaches the series flow rib 21, the fluid firstly impacts the root of the series flow rib 21 and flows upwards along the flow surface 211 of the series flow rib 21 in series, and when the food material flows upwards and flows to the top of the series flow rib 21, the food material can cross the series flow rib 21 and continue to flow downwards in series, so that a better flow disturbing effect is achieved, and the stirring is more sufficient.

Unlike the turbulence part with the even number of the inner wall symmetrically distributed: when food on the inner wall of the stirring cup passes through a plurality of turbulence parts in the front, stable vortex is just formed in the cup, when the food passes through the series flow rib 21, the structure is different from other turbulence parts due to the asymmetric position of the series flow rib 21, and the vortex just formed can be destroyed, so that the food can not rotate along the stable vortex all the time like the existing even number symmetrical cup but can be repeatedly cut and smashed through the middle stirring section, and the stirring efficiency of the whole machine is improved.

In one embodiment, the cross-section of the series-flow rib 21 in this embodiment is gradually reduced from bottom to top, so as to form an incident flow surface 211 on a side of the series-flow rib 21 facing the incoming flow of the fluid. By setting the cross section of the series-flow rib 21 to be gradually reduced from bottom to top, on one hand, the inclined incident flow surface 211 can be formed, and on the other hand, the thickness of the lower part and the thickness of the upper part can also play a role in stabilizing the structure of the series-flow rib to a certain extent.

In a preferred embodiment, the cross section of the series flow rib 21 in this embodiment gradually decreases from bottom to top to form an incident flow surface 211 on a side of the series flow rib 21 facing the incoming direction of the fluid, the incident flow surface 211 gradually inclines toward the back flow surface 212 from bottom to top, and the back flow surface gradually inclines toward the incident flow surface from bottom to top, so that the incident flow surface and the back flow surface are symmetrical. The setting mode of this embodiment has better commonality, promptly, the head-on flow face can be replaced mutually with the back of the body flow face for the stirring cup of this application can adapt to different stirring direction.

In the embodiment, the number of the turbulence portions is odd, the other turbulence portions except the series flow rib 21 are the turbulence ribs 22, and the even number of the turbulence ribs 22 are symmetrically arranged on two sides of the series flow rib 21.

Preferably, referring to fig. 1, the plurality of spoilers in the present embodiment are disposed at equal angles in the circumferential direction of the cup body 10, centered on the stirring axis 12. In a specific embodiment, the vortex portion is 3, wherein, vortex muscle 2, and the cluster muscle is 1, sets up a vortex portion every 120, when cup inner wall food through first and the second vortex muscle, the preliminary stable vortex that forms in the cup, when the cluster muscle, because of the cluster muscle position asymmetry, and upper and lower size is inconsistent, can destroy the vortex of just forming, makes food can not be like current even number symmetry cup always along stable vortex rotation but can relapse through the regional cutting of middle stirring and smash.

In another embodiment, the vortex portion also can be 5, 4 vortex muscle promptly, and the muscle is crossed 1 to the series flow, sets up a vortex portion every 72, when cup inner wall food through first, second, third promptly fourth vortex muscle, the preliminary stable vortex that forms in the cup, when crossing the series flow muscle, because of series flow muscle position asymmetry, and upper and lower size is inconsistent, can destroy the vortex of just forming, make food can not be like current even number symmetry cup always along stable vortex rotation but can be repeated through the regional cutting of middle stirring and smash.

In another embodiment, the number of the turbulence portions can be 9, that is, 8 turbulence ribs are provided, the number of the turbulence ribs is 1, one turbulence portion is provided at every 40 degrees, when food on the inner wall of the cup body passes through the first 8 turbulence ribs, a stable vortex is preliminarily formed in the cup, when the food passes through the flow ribs, the vortex which is just formed can be destroyed due to the asymmetrical positions of the flow ribs and the uneven sizes of the upper and lower portions, so that the food can not be repeatedly cut and smashed through the middle stirring area as the existing even number symmetrical cup rotates along the stable vortex all the time.

Referring to fig. 4, the series flow rib 21 of the present application further has a flow guiding effect when pouring food, specifically, the stirring cup in this embodiment further includes a handle 30, the handle 30 is mounted on the side wall of the cup body 10 and is disposed opposite to the series flow rib 21, and by disposing the handle 30 and the series flow rib 21 opposite to each other, a user can determine the position of the series flow rib 21 conveniently, so that the side where the series flow rib 21 is located can be used as a pouring side for pouring. When the food is poured out, the food will flow out along the series flow rib 21, so that the food will not overflow when being poured out.

In a preferred embodiment, the upper edge of the cup body 10 in this embodiment is provided with a pouring port 11 protruding toward the outside of the cup body 10, and the top of the series flow rib 21 faces the pouring port 11. By orienting the ribs 21 toward the liquid pouring port 11, when pouring out food, the food will flow along the ribs 21 to the liquid pouring port, so as to prevent the food from overflowing.

For convenience of processing, the plurality of spoiler portions in this embodiment are integrally formed with the cup body 10.

In order to prevent the food material from being stuck in the gap between the series flow rib 21 and the inner wall of the cup body 10 and being difficult to clean, the surface of the series flow rib 21 in the embodiment is in smooth transition, and the incident surface 211 and the inner wall of the cup body 10 are in smooth transition; the cross sections of the turbulence ribs 22 from top to bottom are the same, and the cross section area of the bottom of the series flow rib 21 is larger than that of the turbulence ribs 22.

In another embodiment of the present application, in order to make the series-flow rib 21 have a sufficient inclination angle, the series-flow rib 21 in this embodiment is gradually inclined from bottom to top toward the stirring direction of the stirring cup.

According to another aspect of the present application, a mixer is provided, the mixer of the present embodiment includes a machine body, a cutter assembly 40, and a mixing cup, the mixing cup is mounted on the machine body, the cutter assembly 40 is mounted in the mixing cup, and the mixing cup is the above-mentioned mixing cup.

In summary, the stirring cup provided by the embodiment at least has the following beneficial technical effects:

the stirring cup comprises a plurality of turbulence parts, any two turbulence parts are arranged on two sides of a stirring axis 12 in a non-centrosymmetric mode, after fluid is disturbed by any one turbulence part through the non-centrosymmetric arrangement of the turbulence parts, symmetrical turbulence is carried out on one side, symmetrical to the turbulence part, of the cup body 10, of one side, symmetrical to the turbulence part, of the cup body, so that the fluid cannot form a particularly stable vortex, one of the turbulence parts is a streaming rib 21, the streaming rib 21 is provided with a stream facing surface 211 facing the incoming direction of the fluid and a back flow surface 212 opposite to the stream facing surface 211, the stream facing surface 211 inclines towards the back flow surface 212 gradually from bottom to top, and when stirring is carried out, food materials in the stirring cup are firstly disturbed by other turbulence parts except the streaming rib 21; when the food material reaches the series flow rib 21, the fluid firstly impacts the root of the series flow rib 21 and flows upwards along the flow surface 211 of the series flow rib 21 in series, and when the food material flows upwards and flows to the top of the series flow rib 21, the food material can cross the series flow rib 21 and continue to flow downwards in series, so that a better flow disturbing effect is achieved, and the stirring is more sufficient. Unlike the turbulence part with the even number of the inner wall symmetrically distributed: when food on the inner wall of the stirring cup passes through the plurality of turbulence parts on the front side, stable vortex is just formed in the cup, when the food passes through the series flow rib 21, the vortex just formed can be destroyed due to the fact that the series flow rib 21 is asymmetric in position and different in structure from other turbulence parts, so that the food cannot rotate along the stable vortex all the time like the existing even number symmetrical cup but can be repeatedly cut and smashed through the middle stirring section, and the stirring efficiency of the whole machine is improved.

The series flow rib 21 of this application still has the water conservancy diversion effect when empting food, through setting up handle 30 and series flow rib 21 relatively, can be convenient for the user confirms series flow rib 21's position to can use series flow rib 21 place one side for pouring out the side, empty. When the food is poured out, the food will flow to the liquid pouring port along the series flow rib 21, so as to avoid the food from overflowing.

The present invention is not intended to be limited to the particular embodiments shown and described, but is to be accorded the widest scope consistent with the principles and novel features herein disclosed.

Claims (10)

1. A stirring cup is characterized by comprising a cup body (10), wherein a plurality of turbulence parts are arranged on the inner wall of the cup body (10) in the circumferential direction, and any two turbulence parts are arranged on two sides of the stirring axis (12) in a non-centrosymmetric manner; one of the turbulent flow portions is a series flow rib (21), the series flow rib (21) is provided with an incident flow surface (211) facing the incoming direction of the fluid and a back flow surface (212) opposite to the incident flow surface (211), and the incident flow surface (211) is gradually inclined towards the back flow surface (212) from bottom to top.

2. The mixing cup according to claim 1, wherein the cross-section of the series-flow rib (21) is gradually reduced from bottom to top to form the incident flow surface (211) at a side of the series-flow rib (21) facing the incoming flow of the fluid.

3. The mixing cup as claimed in claim 1, wherein the number of the turbulence portions is odd, the turbulence portions other than the series flow ribs (21) are turbulence ribs (22), and the even number of the turbulence ribs (22) are symmetrically arranged on two sides of the series flow ribs (21).

4. The mixing cup according to claim 1, wherein the plurality of turbulators are equiangularly arranged along the circumferential direction of the cup body (10) centered on the mixing axis (12).

5. The mixing cup according to claim 1, further comprising a handle (30), wherein the handle (30) is mounted on a side wall of the cup body (10) and is disposed opposite to the series rib (21).

6. The mixing cup according to claim 1, wherein the upper edge of the cup body (10) is provided with a pouring port (11) protruding to the outside of the cup body (10), and the top of the series flow rib (21) faces the pouring port (11).

7. The blender cup as recited in claim 1, wherein a plurality of said turbulators are integrally formed with said cup body (10).

8. The mixing cup according to claim 3, wherein the surface of the series flow rib (21) is smoothly transited, and the incident flow surface (211) is smoothly transited to the inner wall of the cup body (10); the cross sections of the turbulence ribs (22) from top to bottom are the same, and the cross section area of the bottom of each series flow rib (21) is larger than that of each turbulence rib (22).

9. The mixing cup according to claim 1, wherein the series flow rib (21) is inclined gradually from bottom to top towards the mixing direction of the mixing cup.

10. A blender, comprising a housing, a cutter assembly (40), and a blending cup, the blending cup being mounted on the housing, the cutter assembly (40) being mounted in the blending cup, wherein the blending cup is the blending cup of any of claims 1 to 9.

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