CN110115532B - Stirring cup subassembly and food processor - Google Patents

Abstract

The invention discloses a stirring cup assembly and a food processor, wherein the stirring cup assembly comprises a cup body, an opening is formed at the bottom of the cup body, the cup body is made of full glass, and the thickness of the wall of the cup is 6-10 mm; the bottom opening of the cup body is sealed by the heat conduction disc, and the bottom of the heat conduction disc is sunken downwards to form an installation cylinder; the heating assembly is arranged at the bottom of the heat conducting disc and surrounds the mounting cylinder; the cup seat is sleeved at the bottom of the cup body and fixes the heat conducting disc on the cup body; the stirring knife assembly is arranged in the cup body and comprises an upper magnetic disc assembly positioned in the mounting cylinder and a blade positioned outside the mounting cylinder, and the upper magnetic disc assembly is connected with the blade; and the heat insulation pad is arranged outside the mounting cylinder in a surrounding manner and is used for spacing the heating assembly and the upper magnetic disc assembly along the axial direction of the mounting cylinder. The technical scheme of the invention aims to reduce the influence of the heating assembly on the service life of the upper magnetic disc assembly and the lower magnetic disc assembly of the food processor.

Description

Stirring cup subassembly and food processor

Technical Field

The invention relates to the technical field of food processors, in particular to a machine base assembly and a food processor applying the same.

Background

The cooking machine of before is direct with the transmission shaft and the stirring sword subassembly fixed connection of motor, the transmission shaft direct drive stirring sword subassembly of motor is in order to realize the stirring function of cooking machine, but such mode can cause the food leakage scheduling problem in difficult dismantlement washing, stirring cup. Therefore, a food processor which realizes transmission by adopting magnetic force is available. However, in the working process, the food processor needs to heat the beaten food, the heating process affects the service life of the magnet generating the magnetic force, the higher the heating temperature is, the greater the influence on the service life of the magnet is, and the faster the magnetic force of the magnet is attenuated, so that the food processor is powerless in beating, the food cannot be fully beaten, and the problem of poor food beating effect is caused.

Disclosure of Invention

The invention mainly aims to provide a stirring cup assembly, which aims to reduce the influence of a heating assembly on the service life of an upper magnetic disc assembly and a lower magnetic disc assembly of a food processor.

In order to achieve the above object, the present invention provides a stirring cup assembly, comprising:

the cup, the bottom of this cup is formed with the opening, the cup is full glass material, the thickness of wall of cup is 6mm to 10 mm:

the heat conducting disc is used for sealing the bottom opening of the cup body, and the bottom of the heat conducting disc is sunken downwards to form an installation cylinder;

the heating assembly is arranged at the bottom of the heat conduction plate and surrounds the mounting cylinder;

the cup seat is sleeved at the bottom of the cup body and fixes the heat conducting disc on the cup body;

the stirring knife assembly is arranged in the cup body and comprises an upper magnetic disc assembly positioned in the mounting cylinder and a blade positioned outside the mounting cylinder, and the upper magnetic disc assembly is connected with the blade;

and the heat insulation pad is arranged outside the mounting cylinder in a surrounding manner and is used for spacing the heating assembly and the upper magnetic disc assembly along the axial direction of the mounting cylinder.

Optionally, the mounting cylinder includes a first cylinder section located at the lower end and a second cylinder section connected to the heat conducting disc, and the cross-sectional area of the second cylinder section is gradually increased from bottom to top.

Optionally, the heat insulation pad comprises a cylindrical main body and a heat insulation flange arranged at the top of the cylindrical main body and extending inwards along the radial direction, a yielding port is arranged in the middle of the heat insulation flange, the outer side wall of the installation cylinder penetrates through the yielding port and is connected with the heat insulation flange in a propping manner, and the heating assembly and the upper magnetic disc assembly are axially spaced through the heat insulation flange.

Optionally, the heat insulation pad comprises a cylindrical main body and a mounting flange arranged at the bottom of the cylindrical main body and extending along the radial outer periphery, and the mounting flange is connected with the cup seat.

Optionally, the mounting flange is provided with a first mounting hole, the cup base is provided with a second mounting hole, the stirring cup assembly is further provided with a bolt, and the bolt penetrates through the first mounting hole and is fixedly connected with the second mounting hole;

or the upper surface of the mounting flange is provided with a buckle, the cup base is provided with a buckle groove, and the buckle is buckled in the buckle groove.

Optionally, the stirring blade assembly further comprises:

the shell is positioned in the mounting cylinder and is in a cylinder shape with one closed end and one open end;

the cutter holder covers the opening end of the shell in a sealing mode, and a bearing is installed in the middle of the cutter holder;

the cutter shaft is rotatably arranged in the cutter holder through the bearing;

the upper magnetic disc assembly is located in the shell, the first end of the cutter shaft extends into the shell and is connected with the upper magnetic disc assembly, and the second end of the cutter shaft is fixedly connected with the blade.

Optionally, the stirring cutter assembly further comprises an installation plate, wherein the installation plate is connected to the cutter holder and at least circumferentially limited to the heat conducting disc.

Optionally, the mounting plate cover seals the opening of the mounting barrel;

and/or, a sealing ring is arranged in the cutter holder, and the sealing ring is sleeved on the cutter shaft and seals the through hole of the cutter holder;

and/or, the lateral wall of heat conduction dish still is equipped with the temperature controller, the temperature controller is used for with food processor's main control board electric connection.

The invention also provides a food processor, comprising: a stand assembly; the stirring cup assembly is detachably mounted on the base assembly, a lower magnetic disc assembly in magnetic transmission with the upper magnetic disc assembly is arranged on the base assembly, and the stirring cup assembly is as above.

Optionally, the stand assembly comprises: a housing, the cup holder being mounted to the housing; the motor is positioned in the shell and is provided with a transmission shaft; and the lower magnetic disc assembly is in a cylinder shape with one end closed and the other end opened, the open end of the lower magnetic disc assembly surrounds the installation cylinder below the heat insulation pad, and the closed end of the lower magnetic disc assembly is connected with the transmission shaft.

According to the technical scheme, the food processor utilizes the lower magnetic disc assembly of the base assembly and the upper magnetic disc assembly of the stirring cup assembly to generate magnetic coupling transmission, the lower magnetic disc assembly is driven by the motor to rotate, the upper magnetic disc assembly is driven to rotate, and then food materials in the stirring cup assembly of the food processor are stirred, so that the food processor can achieve shaftless transmission and zero leakage. In the process of installation, the bottom of the heat conduction disc is sunken downwards to form an installation cylinder, and the lower magnetic disc component of the stirring knife component is installed on the installation cylinder. Simultaneously, set up the heat insulating mattress in the cup, through with the heat insulating mattress around outside the installation section of thick bamboo to separate heating element and last magnetic disk subassembly in the axial, so, the heat that heating element produced only can transmit in the cup, or remain between heat insulating mattress and cup, can prevent that heating element's heat from transmitting for last magnetic disk subassembly or directly transmitting for the lower magnetic disk subassembly below heating element through the section of thick bamboo wall of the installation section of thick bamboo of heat insulating mattress below. Therefore, the upper disc assembly and the lower disc assembly are not affected, and the service life of the upper disc assembly and the lower disc assembly is prolonged. Simultaneously, because of in the unnecessary heat of heating element stayed the installation space, this unnecessary heat still can carry out secondary heating to the cup, has improved thermal availability factor, reduces heating element's energy consumption.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a cross-sectional view of one embodiment of a food processor of the present invention;

FIG. 2 is a cross-sectional view of one embodiment of a blender cup assembly in accordance with the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

FIG. 4 is a schematic structural diagram of an embodiment of an insulation mat according to the present invention.

The reference numbers illustrate:

reference numerals	Name (R)	Reference numerals	Name (R)
				100	Stirring cup assembly	90	Heat insulation pad
10	Cup body	91	Cylindrical body
				11	Heat conducting disc	911	Let a mouthful
110	Mounting cylinder	913	Heat insulation flanging
				111	Temperature controller	93	Mounting flange
30	Cup holder	931	First mounting hole
				50	Heating assembly	200	Engine base assembly
60	Stirring knife assembly	210	Outer casing
				61	Shell body	220	Electric machine
63	Tool apron	221	Transmission shaft
				64	Blade	230	Lower magnetic disc assembly
65	Cutter shaft	250	Protective cover
				67	Bearing assembly	300	Food processor
68	Mounting plate	13	Handle part
				69	Sealing ring	70	Upper magnetic disk assembly

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

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, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that all the directional indicators (such as up, down, left, right, front, and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly.

In the present invention, unless otherwise expressly stated or limited, the terms "connected," "secured," and the like are to be construed broadly, and for example, "secured" may be a fixed connection, a removable connection, or an integral part; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In addition, the descriptions related to "first", "second", etc. in the present invention are only for descriptive purposes 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 at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

The invention provides a stirring cup assembly 100 applied to a food processor 300.

Referring to fig. 1 to 4, in an embodiment of the present invention, the blender cup assembly 100 includes:

the cup body 10 is made of full glass, the bottom of the cup body 10 is provided with an opening, the cup body 10 is made of full glass, and the thickness of the wall of the cup body is 6mm to 10mm, such as 7mm, 8mm or 9 mm. The cup body 10 is integrally cast by glass, and not only has high strength, but also has good scald-proof performance. Generally, the upper end of the cup body 10 forms a cup mouth for adding food or liquid. The cup body 10 is further provided with a handle portion 13 for being held by a human hand.

A heat conducting disc 11 for covering the bottom opening of the cup body 10, wherein the bottom of the heat conducting disc 11 is sunken downwards to form an installation cylinder 110;

a heating assembly 50 disposed at the bottom of the heat conductive plate 11 and surrounding the mounting tube 110, wherein the heating assembly 50 may be an electric heating tube or an annular thick film;

the cup seat 30 is sleeved at the bottom of the cup body 10 and fixes the heat conducting disc 11 on the cup body 10;

the stirring knife assembly 60 is arranged in the cup body 10 and comprises an upper magnetic disc assembly 70 positioned in the mounting cylinder 110 and a blade 73 positioned outside the mounting cylinder 110, and the upper magnetic disc assembly 60 is connected with the blade 73 and is used for magnetically driving a lower magnetic disc assembly 230 of the food processor 300; and

and the heat insulation pad 90 is arranged outside the mounting cylinder 110 in a surrounding manner, and the heating assembly 50 and the upper magnetic disc assembly 70 are spaced along the axial direction of the mounting cylinder 110.

In the technical scheme of the invention, the food processor 300 utilizes the lower magnetic disc assembly 230 of the base assembly 300 and the upper magnetic disc assembly 70 of the stirring cup assembly 100 to generate magnetic coupling transmission, the lower magnetic disc assembly 230 is driven by the motor 220 to rotate, and the upper magnetic disc assembly 70 is driven to rotate, so that the food material in the stirring cup assembly 100 of the food processor 300 is stirred, and the food processor 300 realizes no-shaft transmission and zero leakage. During the mounting process, a mounting cylinder 110 is formed as the bottom of the heat conductive disk 11 is depressed downward, and the lower disk assembly 70 of the stirring blade assembly 60 is mounted on the mounting cylinder 110. Meanwhile, the heat insulating pad 90 is disposed in the cup holder 30, and by surrounding the heat insulating pad 90 outside the mounting cylinder 110 and axially separating the heating assembly 50 and the upper disk assembly 70, heat generated by the heating assembly 50 is only transferred into the cup body 10 or is retained between the heat insulating pad 90 and the cup holder 30, so that heat of the heating assembly 50 can be prevented from being transferred to the upper disk assembly 70 or directly transferred to the lower disk assembly 230 below the heating assembly 50 through the wall of the mounting cylinder 110 below the heat insulating pad 90. Therefore, the upper disc assembly 70 and the lower disc assembly 230 are not affected, and the service life of the upper disc assembly 70 and the lower disc assembly 230 is prolonged. Meanwhile, because the redundant heat of the heating assembly 50 is reserved in the installation space, the redundant heat can be used for carrying out secondary heating on the cup body 10, the heat utilization efficiency is improved, and the energy consumption of the heating assembly 50 is reduced. The heat insulation pad 90 can be made of plastic or silica gel to realize heat insulation function.

Referring to fig. 3 in combination, in an embodiment of the present application, the mounting cylinder 110 includes a first cylinder section 1111 at a lower end and a second cylinder section 1113 connected to the heat conducting plate 11, and the cross-sectional area of the second cylinder section 1113 is gradually increased from bottom to top.

When the installation, go up disk assembly 70 and pass second section of thick bamboo 1113 and install to first section of thick bamboo 1111, be the crescent setting through the cross-section with second section of thick bamboo 1113 from bottom to top, can facilitate the installation of going up disk assembly 70.

Referring to fig. 4, in an embodiment of the present application, the heat insulation pad 90 includes a cylindrical main body 91 and a heat insulation flange 913 disposed at the top of the cylindrical main body 91 and extending radially inward, a relief hole 911 is disposed at the middle of the heat insulation flange 913, an outer sidewall of the mounting cylinder 110 passes through the relief hole 911 and is in abutting connection with the heat insulation flange 913, that is, in abutting connection with an inner wall of the relief hole 911, and the heating assembly 50 and the upper disc assembly 70 are axially spaced by the heat insulation flange 913.

The installation of insulation pad 91 is facilitated by the provision of insulation flange 913, and insulation flange 913 further axially spaces heating assembly 50 from upper disc assembly 70, further reducing the effect of heating assembly 50 on upper disc assembly 70.

Further, the heat insulation pad 90 further includes a mounting flange 93 disposed at the bottom of the cylindrical body 91 and extending outward in the radial direction, and the mounting flange 93 is connected to the cup holder 30.

By providing the insulation pad 90 in a cylindrical shape, the insulation pad 90 can be quickly assembled. Meanwhile, the installation flange 93 is arranged, so that the cup holder 30 and the heat insulation pad 90 can be assembled and connected more tightly. It is understood that the cylindrical body 91 and the mounting flange 93 may be integrally formed or may be connected by a separate mounting structure.

Further, the mounting flange 93 has a first mounting hole 931, the cup holder 30 has a second mounting hole, and the stirring cup assembly 100 further has a bolt (not shown) passing through the first mounting hole 931 and fixedly connecting with the second mounting hole.

That is, the mounting flange 93 is connected to the cup holder 30 by bolts, so that the heat insulation pad 90 is more stably connected to the cup holder 30.

Of course, a snap-fit manner may also be adopted, in which a snap (not shown) is provided on the upper surface of the mounting flange 93, and a snap groove (not shown) is provided on the cup holder 30, and the snap is snapped in the snap groove.

Referring to fig. 2 and 3, in an embodiment of the present application, the stirring blade assembly 60 further includes a housing 61, where the housing 61 is located in the mounting cylinder 110 and has a cylindrical shape with one end closed and the other end open; a cutter holder 63 for covering the open end of the housing 61, wherein a bearing 67 is mounted in the middle of the cutter holder 63; a cutter shaft 65 rotatably mounted in the cutter holder 63 through the bearing 67; the upper magnetic disc assembly 70 is positioned in the shell 61, the first end of the cutter shaft 65 extends into the shell 61 and is connected with the upper magnetic disc assembly 70, and the second end of the cutter shaft 65 is fixedly connected with the blade 64

The upper disc assembly 70 is driven to rotate by the lower disc assembly 230, which drives the knife shaft 65 to rotate, and then drives the blade 64 to rotate to crush the food material. Because the open end of blade holder 63 closing housing 61 for housing 61 can form into a confined cavity, through setting up bearing 67, makes the rotation of arbor 65 more stable smooth, promotes the life of arbor 65. Affecting the life of upper disk assembly 70.

Further, the stirring blade assembly 60 further includes a mounting plate 68, and the mounting plate 68 is connected to the blade holder 63 and is at least circumferentially limited to the heat conducting plate 11. The mounting plate 68 makes the mounting of the stirring blade assembly 60 and the heat conducting disc 11 more stable. The heat conductive plate 11 may be provided with a limit structure, such as a boss or a limit block, etc., to prevent the mounting plate 68 from rotating in the circumferential direction, and a fixing structure may be provided to fix the heat conductive plate 11 and the mounting plate 68 to each other.

In one embodiment of the present application, the mounting plate 68 covers the opening of the mounting cylinder 110. Thus, the food in the cup body 10 is prevented from flowing into the mounting tube 110.

And/or, a sealing ring 69 is arranged in the tool apron 63, the sealing ring 69 is sleeved on the cutter shaft 65, and the through hole of the tool apron 63 is sealed;

the sealing ring 735 seals the through hole of the holder 63, and prevents the food material in the cup body 10 from flowing into the holder 63 through the through hole.

And/or, the outer side wall of the heat conducting plate 11 is further provided with a temperature controller 111, and the temperature controller 111 is used for electrically connecting with the main control board of the food processor 300.

Through temperature controller 111, can detect the temperature of heat conduction dish 11, then open and close through main control board control heating element 50 to realize the purpose of accurate heating food material.

The present invention further provides a food processor 300, wherein the food processor 300 comprises a base assembly 300 and a stirring cup assembly 100, the stirring cup assembly 100 is detachably mounted on the base assembly 300 through the cup holder 30, and the base assembly 300 is provided with a lower magnetic disc assembly 230 magnetically driven with the upper magnetic disc assembly 70. The specific structure of the stirring cup assembly 100 refers to the above embodiments, and since the food processor 300 adopts all the technical solutions of all the above embodiments, at least all the beneficial effects brought by the technical solutions of the above embodiments are achieved, and no further description is given here.

The stand assembly 300 includes: a housing 210; the housing 210 may be square, circular, or other shapes, and primarily provides space for components within the base assembly 300. The housing 210 is generally made of rigid plastic, but may be made of metal. Can be formed by assembling a plurality of separately arranged shells, and can also adopt an integrally formed shell.

The motor 220 is positioned in the shell 210, and is provided with a transmission shaft 221; and

and the lower disc assembly 230 is in a cylindrical shape with one end closed and the other end opened, the open end of the lower disc assembly 230 surrounds the installation cylinder 110 below the heat insulation pad, and the closed end of the lower disc assembly 230 is connected with the transmission shaft 221.

This food processor 300 can be broken wall cooking machine, mixer, juice extractor and soybean milk machine. Wherein, broken wall cooking machine can assemble product functions such as juice extractor, soybean milk machine, ice cream machine, cooking machine, mill, can hit the food cell wall in the twinkling of an eye, releases phytobiochemical.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A blender cup assembly, comprising:

the cup, the bottom of this cup is formed with the opening, the cup is full glass material, the thickness of the wall of cup is 6mm to 10 mm:

the heat conducting disc is used for sealing the bottom opening of the cup body, and the bottom of the heat conducting disc is sunken downwards to form an installation cylinder;

the heating assembly is arranged at the bottom of the heat conduction plate and surrounds the mounting cylinder;

the cup seat is sleeved at the bottom of the cup body and fixes the heat conducting disc on the cup body;

the stirring knife assembly is arranged in the cup body and comprises an upper magnetic disc assembly positioned in the mounting cylinder and a blade positioned outside the mounting cylinder, and the upper magnetic disc assembly is connected with the blade;

the heat insulating pad encircles the setting outside the installation section of thick bamboo, the heat insulating pad includes the tube-shape main part and locates the heat insulating turn-ups of tube-shape main part top along radial inward extension, heat insulating turn-ups middle part is equipped with lets the position mouth, the lateral wall of installation section of thick bamboo passes let the position mouth, heating element with it passes through to go up the disc subassembly heat insulating turn-ups axial interval.

2. The blender cup assembly of claim 1, wherein said mounting cylinder comprises a first cylinder section at a lower end and a second cylinder section connected to said heat conductive disk, said second cylinder section having a cross-sectional area that increases from bottom to top.

3. The blender cup assembly of claim 1 wherein said outer sidewall of said mounting cup is in abutting connection with said insulating flange.

4. The blender cup assembly of claim 2, wherein said thermal pad further comprises a mounting flange extending radially outwardly from a bottom of said tubular body, said mounting flange being connected to said cup base.

5. The blending cup assembly of claim 4, wherein the mounting flange has a first mounting hole, the cup base has a second mounting hole, and the blending cup assembly further has a bolt passing through the first mounting hole and fixedly connected to the second mounting hole; or

The upper surface of the mounting flange is provided with a buckle, the cup base is provided with a buckling groove, and the buckle is buckled in the buckling groove.

6. The blender cup assembly of any one of claims 2 to 5, wherein said blender blade assembly further comprises:

the shell is positioned in the mounting cylinder and is in a cylinder shape with one closed end and one open end;

the cutter holder covers the opening end of the shell in a sealing mode, and a bearing is installed in the middle of the cutter holder;

the cutter shaft is rotatably arranged in the cutter holder through the bearing;

the upper magnetic disc assembly is located in the shell, the first end of the cutter shaft extends into the shell and is connected with the upper magnetic disc assembly, and the second end of the cutter shaft is fixedly connected with the blade.

7. The blending cup assembly of claim 6, further comprising a mounting plate coupled to the blade holder and at least circumferentially retained to the thermally conductive disk.

8. The blender cup assembly of claim 7, wherein said mounting plate cover seals an opening of said mounting barrel;

and/or a sealing ring is arranged in the cutter holder, and the sealing ring is sleeved on the cutter shaft and seals the through hole of the cutter holder;

and/or, the lateral wall of heat conduction dish still is equipped with the temperature controller, the temperature controller is used for with food processor's main control board electric connection.

9. A food processor is characterized by comprising

A stand assembly;

the stirring cup assembly is detachably mounted on the base assembly through the cup base, a lower magnetic disc assembly in magnetic transmission with the upper magnetic disc assembly is arranged on the base assembly, and the stirring cup assembly is the stirring cup assembly in any one of claims 1 to 8.

10. The food processor of claim 9, wherein the base assembly comprises:

a housing, the cup holder being mounted to the housing;

the motor is positioned in the shell and is provided with a transmission shaft; and

the lower magnetic disk assembly is in a cylindrical shape with one end closed and the other end open, the open end of the lower magnetic disk assembly surrounds the installation cylinder below the heat insulation pad, and the closed end of the lower magnetic disk assembly is connected with the transmission shaft.

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