CN215383465U

CN215383465U - Smash effectual food preparation machine

Info

Publication number: CN215383465U
Application number: CN202120565046.3U
Authority: CN
Inventors: 王旭宁; 王金铜; 杨开清
Original assignee: Joyoung Co Ltd
Current assignee: Joyoung Co Ltd
Priority date: 2021-03-19
Filing date: 2021-03-19
Publication date: 2022-01-04
Anticipated expiration: 2031-03-19

Abstract

The utility model discloses a food processor with good crushing effect, which comprises a host and a stirring cup arranged on the host, wherein a stirring knife is accommodated in the stirring cup, the stirring knife comprises a knife rest and a plurality of first tools and a plurality of second tools which are connected to the knife rest, the length of the first tools is greater than that of the second tools, and the first tools and the second tools are alternately arranged along the circumferential direction. Wherein, the length of first cutter is greater than the length of second cutter, the weight of second cutter is littleer for first cutter, can not increase the holistic weight of stirring sword by a wide margin when having increased cutter quantity, reduce the load of motor, avoid influencing the slew velocity of stirring sword, first cutter and second cutter can guide the material rotation respectively when rotating, the second cutter also can be less than the area of contact of first cutter when rotating with the material when rotating with the area of contact of material, reduce the hindrance of material when rotating the stirring sword, thereby improve the slew velocity of stirring sword.

Description

Smash effectual food preparation machine

Technical Field

The utility model belongs to the field of food processing devices, and particularly relates to a food processing machine with a good crushing effect.

Background

The food processor can crush the materials through the stirring knife, so that the ingredients in the materials can be fully released, and meanwhile, the materials can be processed in different modes; for the existing stirring knife, in order to improve the crushing efficiency, a mode of increasing blades with the same length as the existing blades is usually adopted, although the blade density is increased, the length of each blade is too long, the weight of the whole stirring knife is increased when the number of the blades is too large, the load of a motor is increased, the rotating speed of the stirring knife is reduced integrally, meanwhile, although the contact area of the long blade with materials is increased, the obstruction of the blades by the materials in the rotating process is stronger when the number of the blades is too large, and the crushing of the materials is not facilitated.

SUMMERY OF THE UTILITY MODEL

In view of the above disadvantages, the present invention provides a food processor with good grinding effect, which can improve the grinding effect of materials.

The utility model is realized by the following technical scheme:

the utility model provides a smash effectual food preparation machine, includes the host computer and installs the stirring cup to the host computer, has held the stirring sword in the stirring cup, and the stirring sword includes knife rest and the first cutter of several and the several second cutter that are connected to the knife rest, and the length of first cutter is greater than the length of second cutter and the first cutter of several and several second cutter set up along circumference in turn. The length of the first cutter is greater than that of the second cutter, the weight of the second cutter is smaller than that of the first cutter, the weight of the whole stirring cutter cannot be greatly increased while the number of the cutters is increased, the load of a motor is reduced, the influence on the rotating speed of the stirring cutter is avoided, the first cutter and the second cutter can respectively guide materials to rotate when rotating, the contact area of the second cutter with the materials when rotating is smaller than that of the first cutter, the obstruction of the materials to the rotation of the stirring cutter is reduced, the rotating speed of the stirring cutter is increased, and the crushing efficiency is improved; and first cutter and second cutter set up along circumference in turn for the weight distribution of knife rest department is more even, and is more steady when stirring sword rotates.

Further, the first tool is bent downwards relative to the tool rest, and the second tool is bent upwards relative to the tool rest and forms a flow guide surface for guiding the material to the position of the rotating track of the first tool. First cutter and second cutter direction of buckling are different, both increased the distance between each first cutter and between each second cutter respectively, provide crushing space for the material, make simultaneously to form the interval between first cutter and the second cutter, avoid the material to pile up between first cutter and second cutter, convenient washing, and first cutter and second cutter can guide respectively when rotating to eat the material and rotate, thereby form different swirl region, thereby can increase effectively crushing region, and simultaneously, when the second cutter rotates, the drainage face that the second cutter formed also can guide the kibbling material of second cutter to first cutter department, carry out the regrinding, avoid the unordered removal of material, thereby promote crushing efficiency.

Furthermore, the length of the first cutter in the extending direction is L1, the length of the second cutter in the extending direction is L2, and the ratio of L2 to L1 is 1: 1.5-1: 3. If the ratio between the L2 and the L1 is too large, namely the length of the second cutter is too long, the weight of the second cutter is increased, so that the load of a motor is too large, the rotating speed of the stirring cutter is reduced, the crushing efficiency is influenced, the length of the second cutter is too long, the contact area with materials is increased, the obstruction of the materials to the second cutter is also enhanced, and the rotating speed of the stirring cutter is also reduced; if the ratio between L2 and L1 is too small, that is the length of second cutter is too short, the rotation track area that the second cutter formed also reduces correspondingly, and the material volume that can hold in the rotation track area that the second cutter formed also reduces, and the second cutter can't contact most of materials and realize smashing, can influence crushing efficiency equally.

Further, the first cutter is provided with a first cutting edge and a first back which are opposite along the circumferential direction, the included angle between the first cutting edge and the adjacent second cutter is theta 1, and 60 degrees is more than theta 1 and less than 80 degrees. If the theta 1 is too large, the space between the first blade and the adjacent second cutter for the falling of the material crushed by the second cutter is increased, so that the time for the material crushed by the second cutter to contact with the first blade when falling is prolonged, and partial material cannot contact with the first blade easily, thereby resulting in incomplete material crushing; if theta 1 is too small, the space between the first blade and the adjacent second cutter for the crushed material of the second cutter to fall down is also reduced, so that the crushed material of the second cutter can fall to the blade face of the first cutter more easily and cannot be crushed by contacting with the first blade in time.

Furthermore, the first cutter is provided with a first cutting edge and a first back of a knife which are opposite to each other along the circumferential direction, the included angle between the first cutting edge and the adjacent second cutter is theta 1, the included angle between the first back of a knife and the adjacent second cutter is theta 2, and theta 1 is larger than or equal to theta 2. When the first cutter, the second cutter and the cutter rest are integrally formed, the included angle between the first cutting edge and the adjacent second cutter is not smaller than the included angle between the first cutter back and the adjacent second cutter, the first cutting edge is conveniently machined and polished, and the crushing efficiency of the first cutting edge on materials is ensured.

Further, the first tool has a first body connected to the tool holder and a second body connected to the first body, one of the first body and the second body being bent downward with respect to the tool holder, and the other extending in a horizontal direction. The bending part can enlarge the cutting range of the first cutter in the axial direction, and the horizontal part can enlarge the cutting range of the first cutter in the radial direction by the shortest length, so that the crushing effect of materials is improved.

Further, the first main body is bent downwards relative to the tool rest, and the second main body extends along the horizontal direction. The first main part of being connected with the knife rest is buckled downwards, can increase the distance of first main part and second cutter, avoids forming the intermediate layer between first cutter and the second cutter, and convenient the washing.

Further, the first tool is provided with a first mounting end connected with the tool rest, the second tool is provided with a second mounting end connected with the tool rest, and the first mounting end and the second mounting end are located on the same horizontal plane. Through with first cutter and second cutter when installing to the knife rest, the installation department all is located same horizontal plane department, and first cutter can not form the intermediate layer with the second cutter in the axial, smashes the in-process to the material, and the material can not pile up between first cutter and second cutter, makes the comminuted more thorough, avoids forming the dead angle simultaneously, convenient the washing.

Further, the first cutter, the second cutter and the cutter rest are integrally connected. The integrated connection can further eliminate gaps formed after the first cutter, the second cutter and the cutter rest are connected, so that material accumulation is avoided, meanwhile, the integral structure formed after the first cutter, the second cutter and the cutter rest are integrally formed and connected is high in strength, and is not easy to deform after colliding with materials, and the crushing effect is good; and with first cutter and second cutter body coupling to knife rest department, saved and be used for fixed subassembly, can reduce overall structure's quality, it is relative, the relative rotational speed of stirring sword when rotating also can improve, smashes the material more easily.

Further, the tool holder has a first tool holder mounting the first tool and a second tool holder mounting the second tool, the first tool holder forming a mounting slot for receiving the second tool holder. Through integrating first cutter and second cutter respectively, both guaranteed the holistic stability of first cutter and second cutter, simultaneously, when first knife rest and second knife rest were installed, can adjust the contained angle between first cutter and the adjacent second cutter in a flexible way, in time adjust the crushing effect to the material.

Drawings

FIG. 1 is a schematic cross-sectional view illustrating an exemplary embodiment of a food processor of the present invention;

FIG. 2 is a schematic structural diagram illustrating an exemplary embodiment of a stirring blade according to an embodiment of the present invention;

FIG. 3 is a schematic top view illustrating an exemplary embodiment of a stirring blade according to a first embodiment of the present invention;

FIG. 4 is a schematic structural diagram illustrating another exemplary embodiment of a stirring blade according to the first embodiment of the present invention;

FIG. 5 is an exploded view illustrating an exemplary embodiment of a stirring blade according to a second embodiment of the present invention;

fig. 6 is a schematic structural diagram illustrating an exemplary implementation of a stirring blade according to a second embodiment of the present invention.

Reference numerals:

1. the main machine comprises a main machine body, 2, a stirring cup, 3, a stirring knife, 31, a knife rest, 311, a first knife rest, 312, a second knife rest, 32, a first knife, 321, a first knife edge, 322, a first knife back, 323, a first main body, 324, a second main body, 325, a first mounting end, 33, a second knife, 331, a second mounting end, 4 and a motor.

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 the terms of orientation such as left, right, up, down, front and back in the embodiments of the present invention are only relative concepts or are referred to a normal use state of the product, i.e., a traveling direction of the product, and should not be considered as limiting.

In addition, the dynamic terms such as "relative movement" mentioned in the embodiments of the present invention include not only a positional change but also a movement in which a state changes without a relative change in position such as rotation or rolling.

Finally, it is noted that when an element is referred to as being "on" or "disposed" to another element, it can be on the other element or intervening elements may also be present. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or intervening elements may also be present.

Example one

As shown in fig. 1, a food processor with good crushing effect comprises a main machine 1 and a stirring cup 2 mounted to the main machine 1, wherein a stirring blade 3 is accommodated in the stirring cup 2, the stirring blade 3 comprises a blade carrier 31 and a plurality of first blades 32 and a plurality of second blades 33 connected to the blade carrier 31, the length of the first blades 32 is greater than that of the second blades 33, and the plurality of first blades 32 and the plurality of second blades 33 are alternately arranged along the circumferential direction; the length of the first cutter 32 is greater than that of the second cutter 33, the weight of the second cutter 33 is smaller than that of the first cutter 32, the weight of the whole stirring cutter 3 cannot be greatly increased while the number of cutters is increased, the load of a motor is reduced, the influence on the rotating speed of the stirring cutter 3 is avoided, the first cutter 32 and the second cutter 33 can respectively guide materials to rotate when rotating, the contact area of the second cutter 33 and the materials when rotating is smaller than that of the first cutter 32, the obstruction of the materials to the rotation of the stirring cutter 3 is reduced, the rotating speed of the stirring cutter 3 is increased, and the crushing efficiency is improved; and the first cutters 32 and the second cutters 33 are alternately arranged along the circumferential direction, so that the weight distribution at the position of the cutter frame 31 is more uniform, and the stirring cutter 3 is more stable when rotating.

As shown in fig. 2, the first tool 32 has a first mounting end 325 connected to the tool holder 31, the second tool 33 has a second mounting end 331 connected to the tool holder 31, and the first mounting end 325 and the second mounting end 331 are located at the same horizontal plane; when the first cutter 32 and the second cutter 33 are installed on the cutter rest 31, installation positions are located on the same horizontal plane, an interlayer cannot be formed between the first cutter 32 and the second cutter 33 in the axial direction, and materials cannot be accumulated between the first cutter 32 and the second cutter 33 in the process of crushing the materials, so that the materials are crushed more thoroughly, dead corners are avoided, and the cleaning is convenient.

Preferably, the first tool 32, the second tool 33 and the tool holder 31 are integrally connected; firstly, the integrated connection can further eliminate gaps formed after the first cutter 32, the second cutter 33 and the cutter rest 31 are connected, so that material accumulation is avoided, meanwhile, the integrated structure formed after the first cutter 32, the second cutter 33 and the cutter rest 31 are integrally formed and connected has high strength, is not easy to deform after colliding with materials, and has good crushing effect; and the first cutter 32 and the second cutter 33 are integrally connected to the cutter frame 31, so that a component for fixing is omitted, the quality of the whole structure can be reduced, and relatively, the relative rotating speed of the stirring cutter 3 during rotation is improved, and the materials are more easily crushed.

When the stirring knife 3 is installed, the first knife 32 and the second knife 33 are connected to the knife rest 31 in an integrated forming mode, the knife shaft of the stirring knife 3 is connected with the upper connector, the motor shaft of the motor 4 is connected with the lower connector, and the stirring knife 3 and the motor 4 are in transmission connection through the upper connector and the lower connector.

The first tool 32 is bent downwards relative to the tool holder and the second tool 33 is bent upwards relative to the tool holder and forms a flow directing surface for directing the material to the locus of rotation of said first tool 32. The bending directions of the first cutter 32 and the second cutter 33 are different, so that the distances between the first cutters 32 and the distances between the second cutters 33 are increased respectively, a crushing space is provided for materials, meanwhile, an interval is formed between the first cutter 32 and the second cutter 33, the materials are prevented from being accumulated between the first cutter 32 and the second cutter 33, the cleaning is convenient, the first cutter 32 and the second cutter 33 can guide the materials to rotate respectively when rotating, different vortex areas are formed, an effective crushing area can be increased, meanwhile, when the second cutter 33 rotates, the drainage surface formed by the second cutter 33 can guide the materials crushed by the second cutter 33 to the first cutter 32, secondary crushing is carried out, disordered movement of the materials is avoided, and the crushing efficiency is improved.

As shown in fig. 3, the first tool 32 has a first blade 321 and a first blade back 322 opposite to each other in the circumferential direction, an included angle between the first blade 321 and the adjacent second tool 33 is θ 1, an included angle between the first blade back 322 and the adjacent second tool 33 is θ 2, and θ 1 is greater than or equal to θ 2; when the first cutter 32 and the second cutter 33 rotate, in order to cut and crush the material, the first cutter 32 and the second cutter 33 are both contacted with the material through the blade positions of the first cutter 32 and the second cutter 33, so that the second blade back of the second cutter 33 adjacent to the first blade 321 and the second blade of the second cutter 33 adjacent to the first blade back 322 are both used, and the second cutter 33 falls between the second blade back and the first blade 321 after cutting and crushing the material through the second blade; when the first cutter 32, the second cutter 33 and the cutter rest are integrally formed, the included angle between the first cutter edge 321 and the adjacent second cutter 33 is not smaller than the included angle between the first cutter back 322 and the adjacent second cutter 33, the first cutter edge 321 is conveniently machined and polished, and the crushing efficiency of the first cutter edge 321 on materials is ensured.

The first cutter 32 has a first blade 321 and a first blade back 322 opposite to each other in the circumferential direction, and the included angle between the first blade 321 and the adjacent second cutter 33 is theta 1, 60 degrees < theta 1 < 80 degrees. If θ 1 is too large, the space between the first cutter 321 and the adjacent second cutter 33 for the crushed material of the second cutter 33 to fall off is also increased, so that the time for the crushed material of the second cutter 33 to contact the first cutter 321 when falling off is prolonged, and partial material cannot contact the first cutter 321 easily, thereby resulting in incomplete crushing of the material; if the theta 1 is too small, the space between the first cutter edge 321 and the adjacent second cutter 33 for the crushed materials of the second cutter 33 to fall down is also reduced, so that the crushed materials of the second cutter 33 can fall to the cutter face of the first cutter 32 more easily and cannot be in contact with the first cutter edge 321 to be crushed in time; preferably, θ 1 is 70 °.

Preferably, the number of the first cutters 32 and the number of the second cutters 33 are three, and after the first cutters 32 and the second cutters 33 are combined, the included angle between the adjacent cutters is smaller than 90 degrees, so that the probability of collision between materials and blades is increased, and the crushing effect is better; meanwhile, the first cutters 32 are bent downwards, the second cutters 33 are bent upwards, the stirring cutters 3 can enable the materials to have 3 chances of secondary collision within one rotation period, the number of the first cutters 32 and the number of the second cutters 33 are three, space is provided for the materials to fall from the second cutters 33 between every two adjacent first cutters 32, meanwhile, the falling materials can be timely crushed, and the crushing effect is better; it will be appreciated that when the first and

second cutters

32, 33 are three in number, the included angle between adjacent first and

second cutters

32, 33 is 120 °, θ 1 is preferably 70 °, θ 2 is selected to be 50 ° accordingly.

As shown in fig. 4, the first cutter 32 has a first body 323 connected to the holder 31 and a second body 324 connected to the first body 323, one of the first body 323 and the second body 324 being bent downward with respect to the holder 31 and the other extending in a horizontal direction; the bent portion can enlarge the cutting range of the first cutter 32 in the axial direction, and the horizontal portion can enlarge the cutting range of the first cutter 32 in the radial direction with the shortest length, so that the material crushing effect is improved.

Referring to fig. 2, the first body is bent downward relative to the tool holder, and the second body extends in a horizontal direction. The first main part of being connected with the knife rest is buckled downwards, can increase the distance of first main part and second cutter, avoids forming the intermediate layer between first cutter and the second cutter, and convenient the washing.

As shown in fig. 4, the first body 323 extends in a horizontal direction, and the second body 324 is bent downward relative to the first body 323; the first main body 323 is connected with the tool rest 31 and extends along the horizontal direction, so that the first main body 323 is conveniently connected with the tool rest 31, meanwhile, the second main body 324 is bent downwards relative to the first main body 323, namely, the second main body 324 is bent downwards relative to the tool rest 31, so that the first tool 32 is machined by only completing one-time bending of the second main body 324, the complexity of the production process is reduced, and meanwhile, the running power can be reduced when the stirring tool 3 runs; and because the first cutters 32 and the second cutters 33 are alternately arranged along the circumferential direction, and the second cutters 33 are bent upwards relative to the tool rest 31, the space between the first main body 323 and the second cutters 33 is large, and material accumulation is avoided.

It will be appreciated that, because the second tool 33 has a shorter length, the second tool 33 may extend straight upward at the second mounting end 331 when bent upward relative to the tool holder 31.

The length of the first cutter 32 in the extending direction is L1, the length of the second cutter 33 in the extending direction is L2, and the ratio of L2 to L1 is 1: 1.5-1: 3; if the ratio between the L2 and the L1 is too large, that is, the length of the second cutter 33 is too long, the weight of the second cutter 33 will also increase, which results in too large load of the motor, and the rotating speed of the stirring knife will decrease, which affects the crushing efficiency, and the length of the second cutter 33 is too long, which will also increase the contact area with the material, and the obstruction of the material to the second cutter 33 will also increase, which will also decrease the rotating speed of the stirring knife; if the ratio between the L2 and the L1 is too small, that is, the length of the second cutter 33 is too short, the rotating track area formed by the second cutter 33 is correspondingly reduced, the amount of the material which can be contained in the rotating track area formed by the second cutter 33 is also reduced, the second cutter 33 cannot contact most of the material to crush the material, and the crushing efficiency is also affected.

When the first body 323 of the first tool 32 extends in the horizontal direction and the second body 324 is bent downward relative to the first body 323, the length L1 of the first tool 32 in the extending direction is the sum of the length L11 of the first body 323 in the extending direction and the length L12 of the second body 324 in the extending direction; similarly, for the first main body of the first tool bent downward relative to the tool rest, when the second main body extends along the horizontal direction, the length of the first tool along the extending direction is also the sum of the length of the first main body along the extending direction and the length of the second main body along the extending direction.

It should be noted that variations of the above-described structure of the present embodiment can also be applied to other embodiments of the present invention.

Example two

As shown in fig. 1, 5 and 6, the first tool 32 has a first mounting end connected to the tool holder, the second tool 33 has a second mounting end connected to the tool holder, and the first mounting end and the second mounting end are located on the same horizontal plane; through with first cutter and second cutter when installing to the knife rest, the installation department all is located same horizontal plane department, and first cutter can not form the intermediate layer with the second cutter in the axial, smashes the in-process to the material, and the material can not pile up between first cutter and second cutter, makes the comminuted more thorough, avoids forming the dead angle simultaneously, convenient the washing.

In the present embodiment, the tool holder has a first tool holder 311 mounting the first tool 32 and a second tool holder 312 mounting the second tool 33, the first tool holder 311 forming a mounting slot receiving the second tool holder 312; the first tool 32 is connected to the first tool holder 311, the second tool 33 is connected to the second tool holder 312, and then the first tool holder 311 is mounted in the receiving groove of the second tool holder 312; by integrating the first cutter 32 and the second cutter 33 respectively, the stability of the whole of the first cutter 32 and the second cutter 33 is ensured, and meanwhile, when the first cutter holder 311 and the second cutter holder 312 are installed, the included angle between the first cutter 32 and the adjacent second cutter 33 can be flexibly adjusted, and the crushing effect on materials can be adjusted in time.

It will be appreciated that the number of the first cutters 32 and the number of the second cutters 33 are three, and when the first cutters 32 and the second cutters 33 are combined and the included angle between the first cutter 32 and the second cutter 33 is adjusted, the included angle between the first cutter edge and the adjacent second cutter is ensured to be not smaller than the included angle between the first cutter back and the adjacent second cutter, and the included angle between the first cutter edge and the adjacent second cutter is between 60 ° and 80 °.

When the stirring knife 3 is installed, the first knife 32 and the second knife 33 are respectively connected to the first knife rest 311 and the second knife rest 312, the knife shaft of the stirring knife 3 is connected with an upper connector, the motor shaft of the motor 4 is connected with a lower connector, and the stirring knife 3 and the motor 4 are in transmission connection through the upper connector and the lower connector.

The above description is only an example of the present application and is not intended to limit the present application. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the scope of the claims of the present application.

Claims

1. The utility model provides a smash effectual food preparation machine, includes the host computer and installs the stirring cup to the host computer, has held in the stirring cup and has stirred the sword, its characterized in that, stir the sword and include the knife rest and be connected to several first cutter and several second cutter of knife rest, the length of first cutter is greater than the length of second cutter and several first cutter and several the second cutter sets up along circumference in turn.

2. A food processor as claimed in claim 1, wherein the first tool is bent downwardly relative to the tool holder and the second tool is bent upwardly relative to the tool holder and forms a flow directing surface for directing material onto a locus of rotation of the first tool.

3. A food processor as claimed in claim 1 or 2, wherein the first tool has a length L1 along its extension, the second tool has a length L2 along its extension, and the ratio L2: L1 is 1:1.5 to 1: 3.

4. A food processor as claimed in claim 1 or 2, wherein the first tool has a first edge and a first back in the circumferential direction, the first edge being at an angle θ 1 to the adjacent second tool, 60 ° < θ 1 < 80 °.

5. The food processor with the good crushing effect as claimed in claim 1, wherein the first cutter has a first blade edge and a first blade back which are opposite to each other along the circumferential direction, the included angle between the first blade edge and the adjacent second cutter is theta 1, the included angle between the first blade back and the adjacent second cutter is theta 2, and theta 1 is more than or equal to theta 2.

6. A food processor as claimed in claim 1, wherein the first tool has a first body connected to the blade carrier and a second body connected to the first body, one of the first and second bodies being bent downwardly relative to the blade carrier and the other extending in a horizontal direction.

7. A food processor as claimed in claim 6, wherein the first body is bent downwardly relative to the blade carrier and the second body extends horizontally.

8. A comminution-efficient food processor as claimed in claim 1, wherein the first tool has a first mounting end connected to the tool holder and the second tool has a second mounting end connected to the tool holder, the first mounting end and the second mounting end being located at the same horizontal plane.

9. The food processor as defined in claim 8, wherein said first cutter, said second cutter and said blade holder are integrally formed and connected.

10. A reduced-size food processor as defined in claim 8, wherein said blade carrier has a first blade carrier mounting said first tool and a second blade carrier mounting said second tool, said first blade carrier defining a mounting slot for receiving said second blade carrier.