CN217285528U - Stirring cup assembly and food processor - Google Patents

Abstract

The application discloses stirring cup subassembly and food preparation machine. The stirring cup assembly comprises a cup body assembly and a slurry outlet assembly. The cup body assembly comprises a stirring cup and a stirring disc positioned at the bottom of the stirring cup, the stirring disc comprises a slurry outlet through hole, the flow area of the slurry outlet through hole is S1, S1 is larger than or equal to 270 and smaller than or equal to 350, and the unit is square millimeter; the slurry outlet valve assembly is assembled on the stirring disc and comprises a slurry outlet channel communicated with the slurry outlet through hole, and slurry in the stirring cup flows into the slurry outlet channel through the slurry outlet through hole and is discharged to the outside of the stirring cup assembly from the slurry outlet channel. So set up, the area of going out the thick liquid through-hole is in above-mentioned within range, can make the area of going out the thick liquid through-hole big with conventional size relatively, and the thick liquid can more smooth discharge, in addition, and has more structure space of arranging.

Description

Stirring cup assembly and food processor

Technical Field

The application relates to the technical field of small household appliances, in particular to a stirring cup assembly and a food processor.

Background

The food processor comprises a water tank assembly, a main machine assembly, a stirring cup assembly, a slurry discharging assembly, a slurry receiving cup assembly and the like. Water is typically injected into the mixing cup of the mixing cup assembly from the water tank assembly. The stirring cup assembly comprises a stirring cup and a slurry outlet valve assembly. The slurry outlet valve component comprises a slurry outlet channel. The slurry discharge assembly comprises a slurry discharge channel. The motor of host computer subassembly drives the stirring knife tackle spare of stirring cup subassembly and stirs, and after eating the material stirring and accomplish, the thick liquid that eats the material formation flows into the order of connecing the thick liquid cup and is: the slurry outlet channel of the stirring cup is connected with the slurry cup.

The food processor described above also has room for improvement, for example, in how the slurry smoothly flows into the slurry receiving cup.

SUMMERY OF THE UTILITY MODEL

The application discloses stirring cup subassembly and food preparation machine. The stirring cup assembly can enable the slurry to smoothly flow into the slurry receiving cup.

To achieve the above purpose, the embodiments of the present application disclose a stirring cup assembly. The stirring cup assembly comprises a cup body assembly and a slurry outlet assembly. The cup body assembly comprises a stirring cup and a stirring disc positioned at the bottom of the stirring cup, the stirring disc comprises a slurry outlet through hole, the flow area of the slurry outlet through hole is S1, S1 is larger than or equal to 270 and smaller than or equal to 350, and the unit is square millimeter; the slurry outlet valve assembly is assembled on the stirring disc and comprises a slurry outlet channel communicated with the slurry outlet through hole, and slurry in the stirring cup flows into the slurry outlet channel through the slurry outlet through hole and is discharged to the outside of the stirring cup assembly from the slurry outlet channel. So set up, the area of going out the thick liquid through-hole is in above-mentioned within range, can make the area of going out the thick liquid through-hole great with conventional size relatively, the thick liquid can more smooth discharge, for example, under the thick liquid condition, the area of going out the thick liquid through-hole is great relatively, can not lead to the thick liquid mobility to be relatively poor because the area is little, cause the jam, the thick liquid of being convenient for flows out, under the thick liquid condition that is more rare, also can not lead to the thick liquid that flows out because the area is big too much, make the thick liquid that flows to a thick liquid passageway too much, finally lead to the inflow to connect the too much of thick liquid cup and cause and splash etc, in addition, and have more structure space of arranging, for example, it has bigger seal space to go out between thick liquid valve module and the thick liquid through-hole.

Optionally, the flow area of the slurry outlet channel is S2 in square millimeter, and S2 < S1. So set up, can make it inserts to go out the thick liquid valve module in the thick liquid through-hole, be convenient for realize going out the thick liquid valve module and go out the sealed and equipment of thick liquid through-hole.

Optionally, the difference between the S2 and the S1 is B1, 9 ≦ B1 ≦ 15 in square millimeters. So set up, B1 is in above-mentioned scope, can more be convenient for go out the thick liquid valve module with the sealed and equipment of mud outlet through-hole.

Optionally, go out thick liquid valve module and include the valve body, the valve body is provided with go out the thick liquid passageway, the valve body stretches into go out the thick liquid through-hole and with go out the inner wall sealing connection of thick liquid through-hole, and the valve body with the bottom surface sealing connection of agitator disk. So set up, under the condition that has aforementioned advantage, because the valve body stretches into out thick liquid through-hole and with the bottom surface sealing connection of agitator disk, like this, all sealed at the radial of agitator disk and axial, from this, improved sealed effect.

In another aspect, an embodiment of the present application discloses a food processor. The food processor comprises any one of the stirring cup assembly, the slurry discharging assembly and the slurry receiving cup assembly, the slurry discharging assembly comprises a slurry discharging channel communicated with the slurry outlet channel, the slurry receiving cup assembly comprises a slurry receiving cup, and slurry in the stirring cup flows into the slurry receiving cup through the slurry outlet through hole, the slurry outlet channel and the slurry discharging channel in sequence. So set up, food preparation machine has the beneficial effect of stirring cup subassembly, no longer gives unnecessary details.

Optionally, the flow area of the slurry discharge channel is S3 in square millimeter, and S3 < S2. So set up, arrange the thick liquid subassembly and can insert go out in the thick liquid passageway for go out thick liquid passageway and arrange the sealed of thick liquid pipe, effectively prevent to leak because of hot thick liquid gets into to arrange thick liquid pipe back hot steam, lead to long-time use after influence peripheral part life.

Optionally, the difference between S3 and S2 is B2, 1 ≦ B2 ≦ 5 in square millimeters. So set up, make easily arrange the thick liquid subassembly with go out the equipment of thick liquid valve module, moreover, more can prevent to reveal because of hot thick liquid gets into to arrange thick liquid pipe back hot steam, lead to long-time use after influence peripheral part life.

Optionally, the slurry discharge assembly includes a slurry discharge pipe provided with the slurry discharge channel, the slurry receiving cup includes a cup mouth hermetically connected with the slurry discharge pipe, the flow area of the slurry discharge channel is S3, the flow area of the cup mouth is S4, the difference between S4 and S3 is B3, and B3 is greater than or equal to 2, and the unit is square millimeters. So set up, B3 in above-mentioned within range and the rim of a cup with arrange thick liquid pipe sealing connection, guaranteed that the rim of a cup that connects the thick liquid cup can assemble smoothly to arrange the thick liquid pipe, form sealedly with arranging the thick liquid pipe, prevent steam leakage when connecing the heating of thick liquid cup, and can guarantee after the assembly that the thick liquid normally flows in and connects the thick liquid cup, be difficult for overflowing to the host computer subassembly in.

Alternatively, 15 ≦ B3 ≦ 40 in square millimeters. So set up, 15 be less than or equal to B3 be less than or equal to 40 and the glass mouth with arrange thick liquid pipe sealing connection, can guarantee more that the glass mouth that connects the thick liquid cup can assemble smoothly to arranging the thick liquid pipe, form sealedly with arranging the thick liquid pipe, prevent steam leakage when connecing the thick liquid cup heating, and can guarantee after the assembly that the thick liquid normally flows in and connects the thick liquid cup, be difficult for overflowing to the host computer subassembly in.

Optionally, an included angle between the center line of the cup mouth and the center line of the slurry outlet through hole is alpha, where alpha is greater than or equal to 75 and less than or equal to 85, and the unit is degree. So set up, the contained angle is in above-mentioned within range, guarantees to connect the thick liquid cup and can assemble to the host computer subassembly smoothly for reduce the part and interfere when the slope assembly, increase design capacity when the design.

Optionally, the slurry discharging assembly comprises a slurry discharging pipe provided with the slurry discharging channel, and the slurry discharging pipe comprises a slurry discharging pipe body provided with the slurry discharging channel and a slurry outlet end extending from the slurry discharging pipe body to the inside of the cup mouth; the slurry receiving cup comprises a cup mouth which is hermetically connected with the slurry discharge pipe, the length of the slurry outlet end extending into the cup mouth is L, L is more than or equal to 2 and less than or equal to 15, and the unit is millimeter. So set up, the play thick liquid end of arranging the thick liquid pipe prevents to connect thick liquid cup 301 to lead to steam leakage because of the heating stirring with the glass mouth is sealed (for example the laminating), goes out thick liquid end and stretches into the glass mouth and length L is above-mentioned scope to this prevents that the thick liquid from leaking from the glass mouth in the inflow process.

Optionally, the slurry discharging assembly comprises a slurry discharging pipe, a slurry discharging pipe support, an elastic sheet, a hand buckling cover and a sealing sheet; the slurry discharge pipe support comprises a slurry discharge pipe cavity, and the slurry discharge pipe cavity comprises a support through hole positioned at the top and a support opening positioned at the side; the elastic sheet covers the opening of the bracket and comprises an assembling part inserted in the bracket of the slurry discharge pipe and a lower elastic sheet connected with the assembling part; the assembling part is in a vertical direction, the lower elastic sheet is inclined relative to the assembling part, and an elastic sheet through hole penetrating through the lower elastic sheet is formed; the first end of the pulp discharge pipe is riveted with the through hole of the bracket, and the second end of the pulp discharge pipe is provided with a sealing sheet; the sealing sheet is inserted into the edge of the through hole of the elastic sheet so as to enable the elastic sheet to be connected with the slurry discharge pipe in a sealing manner; the handle cover is assembled on the pulp discharge pipe bracket and abuts against the elastic sheet on the pulp discharge pipe bracket. So set up, because arrange the income thick liquid end of thick liquid pipe with support through-hole riveting and go out the gasket of thick liquid end with the edge of shell fragment through hole is inserted and is established, from this, arrange thick liquid pipe sealed in prop up built-up intracavity arrange the thick liquid subassembly from under the circumstances that the host computer subassembly was dismantled, when being convenient for wash arrange thick liquid pipe, outside water or food residue etc. are difficult to get into arrange the outer wall of thick liquid pipe, of course, arrange the thick liquid subassembly not from the host computer subassembly under the circumstances of dismantling, outside water or food residue etc. also are difficult to get into prop up built-up intracavity, can not increase the degree of difficulty for wasing arrange thick liquid pipe. The lower elastic sheet is inclined relative to the assembling part, so that the sealing sheet is attached to the cup mouth of the slurry receiving cup conveniently.

Optionally, an included angle between the assembly portion and the lower spring plate is α, and α is greater than or equal to 110 degrees and less than or equal to 160 degrees. So set up, be convenient for more the rim of a cup with the gasket laminating to, make sealed effectual.

Drawings

FIG. 1 is a perspective view of a food processor of the present application;

FIG. 2 is an exploded view of a food processor of the present application;

FIG. 3 is another exploded view of a food processor of the present application that does not include a slurry cup assembly;

FIG. 4 is an exploded view of a blending cup assembly of a food processor of the present application;

FIG. 5 is a cross-sectional view of a food processor of the present application with the slurry cup assembly, blending cup assembly, and slurry discharge assembly in an assembled state.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. The following description refers to the accompanying drawings in which the same numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of apparatus consistent with certain aspects of the present application, as detailed in the appended claims.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. Unless otherwise defined, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this application belongs. The use of the terms "a" or "an" and the like in the description and in the claims of this application do not denote a limitation of quantity, but rather denote the presence of at least one. The word "comprising" or "comprises", and the like, means that the element or item listed as preceding "comprising" or "includes" covers the element or item listed as following "comprising" or "includes" and its equivalents, and does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "plurality" includes two, and is equivalent to at least two. As used in this specification and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any and all possible combinations of one or more of the associated listed items.

Referring to fig. 1, 2 and 3, an embodiment of the present application discloses a food processor 100. The food processor 100 includes a blender cup assembly 10, a slurry discharge assembly 20, a slurry cup assembly 30, a main frame assembly 40, and a water tank assembly 50.

Referring to fig. 4, the blender cup assembly 10 includes a cup body assembly and a slurry outlet assembly 3. The cup body assembly includes a blender cup 1 and a blender pan 2, and in some embodiments, the cup body assembly further includes a lid assembly. In some embodiments, as shown in fig. 4, the blending cup assembly 10 includes a water inlet valve assembly 4, a blending knife assembly 5, a blending pan seal 6, a pan cover 7, a pan cover seal 8, and a pan cover seal 9. The stirring disc 2 is located at the bottom of the stirring cup 1 and is connected with the stirring cup 1 in a sealing manner, for example, the stirring disc sealing ring 6 is used for realizing the sealing connection. The disc cover 7 and the stirring disc 2 are covered to form a cavity for accommodating the slurry outlet valve assembly 3 and the water inlet valve assembly 4. The cover seal 9 is connected to the stirring disc 2 and secures the cover seal 8 between the stirring disc 2 and the cover disc 7 to seal the cavity. The water inlet valve assembly 3 and the slurry outlet valve assembly 4 are assembled on the stirring disc 2 and communicated with the inside and the outside of the stirring cup 1. The water tank assembly 50 supplies water into the blender cup assembly 10, for example, water is supplied into the blender cup 1 through a water pump and the water inlet valve assembly 3. The host assembly 40 includes a motor 401. A motor 401 and the stirring blade assembly 5. When the motor 401 is operated, the motor 401 drives the stirring blade assembly 5 to rotate, the stirring blade assembly 5 crushes the food material in the stirring cup 1, and finally, the crushed food material and the water from the water tank assembly 50 form slurry.

Referring to fig. 5 and 4, the stirring plate 2 includes slurry outlet holes 21, and the flow area of the slurry outlet holes 21 is S1, 270 ≦ S1 ≦ 350, in units of square millimeters, such as 270, 275, 278, 280, 283, 285, 288, 290, 295, 298, 300, 303, 305, 308, 310, 315, 320, 322, 325, 328, 330, 333, 335, 338, 340, 342, 345, 348, 350, and so on. In the embodiments of the present application, the flow area refers to an area of a cross section perpendicular to a slurry flow direction. The grout holes 21 are generally circular and are not limited to other shapes, such as square, oval, etc. Taking the through hole 21 as a circle, the area S1 is further illustrated, in which case S1 corresponds to the diameter D1 in fig. 5. The slurry outlet through hole 21 mainly refers to a part of the stirring plate 2 for slurry outlet, in one embodiment, the stirring plate 2 has a through hole penetrating through the stirring plate 2, and the through hole is used as the slurry outlet through hole 21, in another embodiment, the stirring plate 2 has a through hole penetrating through the stirring plate 2, a part of the through hole is used as an installation space of a relevant part of the slurry outlet valve assembly 4, and the other part is used as the slurry outlet through hole 21.

Referring to fig. 5 and 4, the slurry outlet valve assembly 3 is assembled to the stirring plate 2 and includes a slurry outlet channel 31 communicating with the slurry outlet through hole 21. The slurry outlet valve assembly 3 is not limited in structure, and includes, for example, a valve body 32, a ball valve 33 assembled to the valve body 32, and a valve stem 34 connected to the ball valve 33. The valve stem 34 is connected to a valve driving mechanism, and is driven by the valve driving mechanism to close or open the ball valve 33, so that the slurry outlet channel 31 is communicated, and thus, the slurry in the mixing cup 1 flows into the slurry outlet channel 31 through the slurry outlet through hole 21, and is discharged from the slurry outlet channel 31 to the outside of the mixing cup assembly 10. When the ball valve 33 is closed, the ball valve 33 makes the slurry outlet through hole 21 and the slurry outlet channel 31 not communicated, and slurry cannot flow out through the slurry outlet valve assembly 3. The skilled person will appreciate that the slurry outlet valve assembly 3 is not limited to the above-described structure as long as it can cause the slurry outlet channel 31 to have a closed state and an open state so that the slurry is discharged or not discharged.

So set up, the area of play thick liquid through-hole 21 is in above-mentioned within range, can make the area of play thick liquid through-hole 21 big with conventional size relatively, thick liquid can more smooth discharge, for example, under the thick liquid condition, the area of play thick liquid through-hole 21 is great relatively, can not lead to the thick liquid mobility to be relatively poor because the area is little, cause the jam, the thick liquid of being convenient for flows out, under the thick liquid condition that is more rare, also can not lead to the thick liquid that flows out because the area is big too much, make the thick liquid that flows to play thick liquid passageway 31 too much, finally lead to flowing into to connect the thick liquid cup too much and cause and splash etc, in addition, and have more structural arrangement spaces, for example, there is bigger seal space between play thick liquid valve module and the play thick liquid through-hole.

Referring to FIG. 5, in one embodiment, the flow area of the slurry outlet channel 31 is S2 with the unit of square millimeter, S2 < S1. The slurry outlet channel 31 is generally circular, and similarly to the above, the flow area S2 is defined by the diameter D2 of the slurry outlet channel 31, such that D2 < D1. So set up, can make play thick liquid valve module 3 inserts in going out thick liquid through-hole 21, be convenient for realize going out thick liquid valve module 3 and go out the sealed and equipment of thick liquid through-hole 21.

With continued reference to FIG. 5, in one embodiment, the difference between the S2 and the S1 is B1, 9 ≦ B1 ≦ 15 in square millimeters, such as 9, 9.5, 10, 10.2, 10.8, 11, 11.3, 11.5, 11.8, 12, 12.2, 12.5, 12.8, 13, 13.5, 13.8, 14, 14.2, 14.5, 14.8, 15, and so forth. With such an arrangement, the B1 is within the above range, so as to further facilitate the sealing and assembling of the slurry outlet valve assembly 3 and the slurry outlet through hole 21.

Referring to fig. 5, in some embodiments, the slurry outlet valve assembly 3 includes a valve body 32, and the valve body 32 extends into the slurry outlet through hole 21 and is connected with the inner wall of the slurry outlet through hole 21 in a sealing manner, in this case, the slurry outlet through hole 21 is understood as a through hole penetrating through the stirring plate 2, and the through hole has a cylindrical shape, a part of the through hole is used for slurry outlet, and another part of the through hole is used for inserting the valve body 32, of course, in other embodiments, as shown in fig. 5, the inlet of the through hole may be expanded to the outer side of the stirring plate so that the through hole has a funnel-shaped inlet, and thus, slurry flows into the slurry outlet through hole 21 through the inlet. In addition, after the valve body 32 extends into the slurry outlet through hole 21, the valve body 32 is also connected with the bottom surface 22 of the stirring disc 2 in a sealing manner. With such an arrangement, the valve body 32 extends into the slurry outlet hole 21 and is hermetically connected with the bottom surface 22 of the stirring disc 2, so that the stirring disc is sealed in the radial direction and the axial direction, and the sealing effect is improved. There are various structures for realizing radial sealing and axial sealing, for example, the valve body 32 includes a body 321 and an insertion end 322 extending from the body 321, the insertion end 322 and the body 321 form a step, and after the insertion end 322 extends into the slurry outlet through hole 21, the step surface of the body 321 is connected with the bottom surface 22 of the stirring disc 2 in a sealing manner.

With continued reference to fig. 5 and fig. 1-4, in another aspect, embodiments of the present application disclose a food processor 100. The food processor 100 may include any of the blender cup assembly 10, the slurry discharge assembly 20, and the slurry cup assembly 30 described above. The slurry discharging assembly 20 comprises a slurry discharging channel 201 communicated with the slurry outlet channel 31, the slurry receiving cup assembly 30 comprises a slurry receiving cup 301, and slurry in the stirring cup 1 sequentially flows into the slurry receiving cup 301 through the slurry outlet through hole 21, the slurry outlet channel 31 and the slurry discharging channel 201. So configured, the food processor 100 has the beneficial effects of the blender cup assembly 10, and will not be described in detail. The structure of the slurry discharging assembly 20 is not limited, for example, referring to fig. 3 and 5, the slurry discharging assembly includes a slurry discharging pipe 202, a slurry discharging pipe support 203, a spring 204, a handle cover 205 and a sealing sheet 206. The slurry outlet pipe bracket 203 comprises a slurry outlet pipe cavity 2031, and the slurry outlet pipe cavity 2031 comprises a bracket through hole 2032 at the top and a bracket opening 2033 at the side. The elastic sheet 204 covers the bracket opening 2033, and comprises an assembling portion 2041 inserted into the slurry discharge pipe bracket 203 and a lower elastic sheet 2042 connected with the assembling portion 2041. The assembling portion 2041 is in the vertical direction. The lower elastic piece 2042 is inclined relative to the assembling portion 2041, and is provided with an elastic piece through hole 2043 penetrating through the lower elastic piece 2042. The first end of the pulp discharge pipe 202 is riveted with the bracket through hole 2032, and the second end of the pulp discharge pipe is provided with a sealing sheet 206. The first end with the support through-hole 2032 sealing connection has multiple modes, for example, the edge of the support through-hole 2032 is provided with a circle of convex rib, and the first end and the convex rib are riveted to realize the sealing connection. The sealing plate 206 may be provided integrally with the discharge pipe 202, or may be a separate component from the discharge pipe 202 and assembled to the discharge pipe 202. The sealing sheet 206 is inserted into the edge of the elastic sheet through hole 2043 so that the elastic sheet 204 is hermetically connected with the slurry discharge pipe 202; the handle cover 205 is assembled on the bracket 203 and abuts against the spring plate 204 on the bracket 203. So set up, because arrange the thick liquid pipe go into thick liquid end with support through-hole 2032 riveting and go out the gasket 206 of thick liquid end with the edge of shell fragment through hole 2043 is inserted and is established, from this, arrange thick liquid pipe 202 sealed in the support cavity 2031 arrange thick liquid subassembly 20 from the condition of host computer subassembly 40 dismantlement, when being convenient for wash arrange thick liquid pipe 202, outside water or food residue etc. are difficult to get into arrange the outer wall of thick liquid pipe 202, of course, arrange thick liquid subassembly 20 not from the host computer subassembly 40 condition of dismantling under, outside water or food residue etc. also are difficult to get into in the support cavity 2031, can not increase the degree of difficulty for wasing arrange thick liquid pipe 202. The lower elastic sheet 2042 is inclined relative to the assembling portion 2041, so that the sealing sheet 206 can be attached to the cup mouth 302 of the slurry receiving cup 301.

In one embodiment, an included angle between the assembling portion 2041 and the lower elastic sheet 2042 is α, and α is greater than or equal to 110 degrees and less than or equal to 160 degrees. So set up, be convenient for more the rim of a cup 302 with the gasket 206 laminating to, make sealed effectual.

With reference to fig. 5, the flow area of the slurry discharge passage 201 is S3 in square millimeters, and S3 < S2. The discharge passage 201 is generally cylindrical in shape and is curved, for example, in an arc shape. Similarly to the above, the size of S3 is defined as the diameter D3 of the slurry discharge passage 201, D3 < D2. So set up, arrange thick liquid subassembly 20 and can insert go out in the thick liquid passageway 31 for go out thick liquid passageway 31 and arrange the sealed of thick liquid pipe, effectively prevent to leak because of hot thick liquid gets into to arrange thick liquid pipe 202 back hot steam, lead to long-time after using influence peripheral part life.

With reference to FIG. 5, the difference between S3 and S2 is B2, 1 ≦ B2 ≦ 5 in square millimeters. Such as 1, 1.2, 1.5, 1.8, 2, 2.1, 2.4, 2.5, 2.8, 3, 3.2, 3.3, 3.5, 3.8, 4, 4.2, 4.5, 4.7, 5, etc. So set up, make easily arrange the thick liquid subassembly with go out the equipment of thick liquid valve module, moreover, more can prevent to influence peripheral part life after leading to long-time the use because of hot thick liquid gets into to arrange thick liquid pipe back hot steam reveals.

Referring to fig. 5, the slurry discharging assembly 20 includes a slurry discharging pipe 202 provided with the slurry discharging channel 201, and the slurry receiving cup 301 includes a cup mouth 302 hermetically connected to the slurry discharging pipe 202. The flow area of the pulp discharge channel 201 is S3, the flow area of the cup mouth 302 is S4, the difference between S4 and S3 is B3, B3 is more than or equal to 2, namely S4 is more than S3+ 2. Similar to the previous description, in FIG. 5, the interior of the spout 302 is cylindrical, corresponding to the area S4 being a diameter D4, D4 being larger than D3. So set up, B3 in above-mentioned scope and the mouth of a cup 302 with arrange thick liquid pipe 202 sealing connection, guaranteed that the mouth of a cup 302 who connects thick liquid cup 301 can assemble smoothly to arrange thick liquid pipe 202, form sealedly with arranging thick liquid pipe 202, prevent to connect steam leakage when thick liquid cup 301 heats, and can guarantee after the assembly that the thick liquid normally flows in and connects thick liquid cup 301, be difficult for overflowing to in the host computer subassembly 40. There are various ways to achieve the sealing connection, for example, the cup mouth 302 fits against the sealing sheet 206 to achieve the sealing connection.

In one embodiment, 15 ≦ B3 ≦ 40 in square millimeters, e.g., 15, 17, 19, 20, 23, 25, 28, 30, 31, 33, 35, 38, 40, and the like. So set up, 15 be greater than or equal to B3 be less than or equal to 40 and the cup mouth with arrange thick liquid pipe sealing connection, can guarantee more that the cup mouth that connects the thick liquid cup can assemble smoothly to arranging the thick liquid pipe, form sealedly with arranging the thick liquid pipe, prevent steam leakage when connecing the thick liquid cup to heat, and can guarantee after the assembly that the thick liquid normally flows in and connects the thick liquid cup in, be difficult for overflowing to the host computer subassembly.

Referring to fig. 5, an included angle between the center line L1 of the nozzle 302 and the center line L2 of the slurry outlet 21 is α, α is greater than or equal to 75 degrees and less than or equal to 85 degrees, such as 75, 76, 77, 78, 79, 80, 81, 82, 83, 84, 85, and the like. So set up, the contained angle is in above-mentioned within range, guarantees to connect thick liquid cup 301 can assemble to host computer subassembly 40 smoothly for reduce the part and interfere when the slope is assembled, increase design capacity when the design.

With continued reference to fig. 5, in one embodiment, the slurry discharge assembly 20 includes a slurry discharge pipe 202 having the slurry discharge passage 201. The grout discharging pipe 202 comprises a grout discharging pipe body 2021 provided with the grout discharging channel 201 and a grout outlet end 2022 extending from the grout discharging pipe body 2021 to the inside of the cup mouth 302. The material of the grout outlet end 2022 of the grout outlet pipe 202 is flexible material, such as flexible silica gel. The slurry receiving cup 301 comprises a cup mouth 302 which is hermetically connected with the slurry discharge pipe 202, and the length of the slurry outlet end 2022 extending into the cup mouth 302 is L, L is more than or equal to 2 and less than or equal to 15, and the unit is millimeter. Such as 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, etc. With such a configuration, the slurry outlet end 2022 of the slurry discharge pipe 202 is sealed (e.g. attached) to the cup mouth 302 to prevent steam leakage of the slurry receiving cup 301 due to heating and stirring, and the slurry outlet end 2022 extends into the cup mouth 302 with the length L within the above range, thereby preventing slurry from leaking from the cup mouth 302 during flowing.

The above description is only for the purpose of illustrating the preferred embodiments of the present application and is not to be construed as limiting the present application, and any modifications, equivalents, improvements, etc. made within the spirit and principle of the present application should be included in the scope of the present application.

Claims (13)

1. A blender cup assembly, comprising:

the cup body assembly comprises a stirring cup (1) and a stirring disc (2) positioned at the bottom of the stirring cup (1), wherein the stirring disc (2) comprises a slurry outlet through hole (21), the flow area of the slurry outlet through hole (21) is S1, S1 is larger than or equal to 270 and smaller than or equal to 350, and the unit is square millimeter;

and the slurry outlet valve assembly (3) is assembled on the stirring disc (2) and comprises a slurry outlet channel (31) communicated with the slurry outlet through hole (21), and slurry in the stirring cup (1) flows into the slurry outlet channel (31) through the slurry outlet through hole (21) and is discharged to the outside of the stirring cup assembly from the slurry outlet channel (31).

2. The blender cup assembly of claim 1, wherein said flow area of said slurry outlet channel (31) is S2 in square millimeters, S2 < S1.

3. The blender cup assembly of claim 2, wherein said difference between said S2 and said S1 is B1, 9 ≦ B1 ≦ 15 in square millimeters.

4. A blender cup assembly as claimed in any one of claims 1 to 3, wherein said slurry outlet valve assembly (3) comprises a valve body (32), said valve body (32) is provided with said slurry outlet channel (31), said valve body (32) extends into said slurry outlet through hole (21) and is sealingly connected with an inner wall of said slurry outlet through hole (21), and said valve body (32) is sealingly connected with the bottom surface (22) of said blender disc (2).

5. A food processor characterized in that it comprises a blending cup assembly (10) according to any of claims 1 to 4, a slurry discharge assembly (20) and a slurry receiving cup assembly (30), wherein the slurry discharge assembly (20) comprises a slurry discharge channel (201) communicated with the slurry outlet channel (31), the slurry receiving cup assembly (30) comprises a slurry receiving cup (301), and slurry in the blending cup (1) flows into the slurry receiving cup (301) through the slurry outlet through hole (21), the slurry outlet channel (31) and the slurry discharge channel (201) in sequence.

6. A food processor as claimed in claim 5, wherein the flow area of the discharge channel (201) is S3 in square millimeters, S3 < S2.

7. The food processor of claim 6, wherein the difference between S3 and S2 is B2, 1 ≦ B2 ≦ 5 in square millimeters.

8. A food processor as claimed in any one of claims 5 to 7, wherein the slurry discharge assembly (20) comprises a slurry discharge pipe (202) provided with said slurry discharge passage (201), said slurry receiving cup (301) comprises a nozzle (302) sealingly connected to said slurry discharge pipe (202), said slurry discharge passage (201) has a flow area S3, said nozzle (302) has a flow area S4, the difference between S4 and S3 is B3, and B3 is equal to or greater than 2 in square millimeters.

9. The food processor of claim 8, wherein 15 ≦ B3 ≦ 40 in units of square millimeters.

10. A food processor as claimed in claim 8, characterized in that the angle between the centre line (L1) of the mouth piece (302) and the centre line (L2) of the slurry outlet opening (21) is α, 75 ≦ α ≦ 85 in degrees.

11. A food processor as claimed in claim 8, wherein the slurry discharge assembly (20) comprises a slurry discharge pipe (202) provided with the slurry discharge channel (201), the slurry discharge pipe (202) comprising a slurry discharge pipe body (2021) provided with the slurry discharge channel (201) and a slurry outlet end (2022) extending from the slurry discharge pipe body (2021) to the inside of the cup mouth (302); the slurry receiving cup (301) comprises a cup mouth (302) connected with the slurry discharge pipe (202) in a sealing mode, the length of the slurry outlet end (2022) extending into the cup mouth (302) is L, L is larger than or equal to 2 and smaller than or equal to 15, and the unit is millimeter.

12. A food processor as claimed in any one of claims 5 to 7, wherein the discharge assembly comprises a discharge tube (202), a discharge tube holder (203), a spring plate (204), a snap cap (205) and a sealing plate (206); wherein,

the pulp discharging pipe support (203) comprises a pulp discharging pipe cavity (2031), and the pulp discharging pipe cavity (2031) comprises a support through hole (2032) at the top and a support opening (2033) at the side;

the elastic sheet (204) covers the bracket opening (2033) and comprises an assembling part (2041) inserted in the slurry discharge pipe bracket (203) and a lower elastic sheet (2042) connected with the assembling part (2041); the assembling part (2041) is in a vertical direction, the lower elastic sheet (2042) is inclined relative to the assembling part (2041), and an elastic sheet through hole (2043) penetrating through the lower elastic sheet (2042) is formed;

the first end of the pulp discharge pipe (202) is riveted with the bracket through hole (2032), and the second end of the pulp discharge pipe (202) is provided with a sealing sheet (206); the sealing sheet (206) is inserted with the edge of the elastic sheet through hole (2043) so that the elastic sheet (204) is hermetically connected with the pulp discharge pipe (202);

the handle cover (205) is assembled on the pulp discharge pipe bracket (203) and is abutted against the elastic sheet (204) on the pulp discharge pipe bracket (203).

13. A food processor as claimed in claim 12, wherein the assembly portion (2041) and the lower resilient tab (2042) form an angle α, which is greater than or equal to 110 degrees and less than or equal to 160 degrees.

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