CN216823132U - Even egg device and cooking machine - Google Patents

Abstract

The application discloses even egg device and cooking machine. The egg homogenizing device comprises an egg cup assembly, a gear ring, a planet carrier, a sun gear and a driving assembly. The egg cup assembly is assembled on the planet carrier and comprises egg cup teeth. The egg cup teeth are meshed with the sun gear and the gear ring. The egg cup assembly, the planet carrier, the sun gear and the gear ring form a planetary gear transmission mechanism. The driving assembly drives the planetary gear transmission mechanism to enable the egg cup assembly to rotate and revolve. So set up, because the egg cup subassembly the planet carrier the sun gear with the ring gear constitutes planetary gear drive, from this, under drive assembly's effect, the egg cup subassembly can rotation and revolution, so, egg white and albumen mix more evenly, even egg is effectual, convenient operation, the egg cup subassembly is direct to mesh with ring gear and sun gear, rotation and revolution in-process stability are higher, even egg device's simple structure, also can effectual protection egg.

Description

Even egg device and cooking machine

Technical Field

The application relates to the technical field of small household appliances, in particular to an egg homogenizing device and a food processor.

Background

The common egg cooking method is to heat the egg in water and finally cook the egg into clear egg white and clear egg yolk. This does not meet the needs of the consumer. In order to meet the requirements of consumers, golden eggs appear on the market. The making process of the golden eggs is as follows: firstly, mixing egg white and yolk of raw eggs, and then cooking the eggs mixed with the egg white and the yolk to obtain the golden eggs. The egg white and the egg yolk are uniformly mixed by an egg homogenizing device.

The mixing effect of the yolk and the egg white determines the quality of the golden eggs, so that the demand for better mixing the egg white and the yolk exists in the industry.

SUMMERY OF THE UTILITY MODEL

An object of this application is to provide even egg device and cooking machine. Even egg device can make the effectual of egg white and yolk mixture, simple structure moreover.

The application provides a device for homogenizing eggs. The egg homogenizing device comprises an egg cup assembly, a gear ring, a planet carrier, a sun gear and a driving assembly. The egg cup assembly is assembled on the planet carrier and comprises egg cup teeth. The egg cup teeth are meshed with the sun gear and the gear ring. The egg cup assembly, the planet carrier, the sun gear and the gear ring form a planetary gear transmission mechanism. The driving assembly drives the planetary gear transmission mechanism to enable the egg cup assembly to rotate and revolve. So set up, because the egg cup subassembly the planet carrier the sun gear with the ring gear constitutes planetary gear drive, from this, the egg cup subassembly both had been regarded as planetary gear drive's component part, as the part that holds the egg again, the structure of egg cup subassembly and even egg device is all simple, moreover, under drive assembly's effect, the egg cup subassembly can rotation and revolution, so, egg white and albumen mix more evenly, even egg is effectual, and convenient operation, the egg cup subassembly is direct with ring gear and sun gear meshing, rotation and revolution in-process, the stability of egg cup subassembly is higher, also can effectual protection egg at even egg in-process not broken.

Optionally, the egg cup assembly comprises a cup cover and a cup body, and the cup cover and the cup body are buckled through a first buckling structure and enclose an egg containing cavity. The first buckle structure comprises a notch, a hook arm and a buckle ear. The buckling lug comprises a buckling lug hole; the notch and the hook arm are arranged on one of the cup body and the cup cover at intervals; the other one is provided with the buckling lug at intervals. The hook arm is including being located hook portion in the notch, hook portion with detain ear hole lock, it is located to detain the ear in the notch. So set up, hook portion and the knot ear hole lock of hook arm, in addition, hook portion and knot ear all are located in the notch, consequently, the bowl cover with the cup lock is firm, finally can fine play the effect of spacing egg. Finally, under the condition that the first buckle structure of the structure is matched with the second buckle structure and the limiting structure for use, the egg cup component is simple in structure, and the egg white and egg yolk mixing effect is better.

Optionally, the bowl cover includes outer bowl cover and is located interior bowl cover in the outer bowl cover, the hook arm with the notch set up in outer bowl cover, the edge of interior bowl cover is provided with holds the breach of hook arm. So set up, hook arm and breach cooperation can make the equipment between outer bowl cover and the interior bowl cover more convenient, and the deuterogamy second buckle structure can make the equipment between outer bowl cover and the interior bowl cover comparatively firm.

Optionally, the egg cup assembly includes a lid and a cup. The cup cover comprises an outer cup cover and an inner cup cover. The inner cup cover and the outer cup cover are assembled through a second clamping structure, and the inner cup cover is located in the outer cup cover. The cup body comprises an outer cup body and an inner cup body. The inner cup body is positioned in the outer cup body, and a limiting structure is arranged between the inner cup body and the outer cup body. The limiting structure limits the inner cup body and the outer cup body to rotate relatively in the circumferential direction. The outer cup cover is assembled through a first buckle structure and the outer cup body to achieve buckling of the cup cover and the cup body, the cup cover compresses the inner cup body, and the inner cup cover and the inner cup body are enclosed to form the egg containing cavity. As set up above, through the equipment between outer bowl cover and the interior bowl cover of second buckle structure realization, from this, egg cup subassembly's production manufacturing and equipment are convenient, dismouting when also being convenient for wash, make through limit structure can not relative rotation and realize the equipment between bowl cover and the cup between interior cup and the outer cup, and enclose into the egg after the equipment and hold the chamber and compress tightly interior cup ensures that the egg does not rock at egg cup subassembly rotation and revolution in-process, and bowl cover are also relatively fixed, also are convenient for place and take out the egg, and in a word, through setting up second buckle structure, first buckle structure and limit structure, they can make egg cup subassembly realize the equipment and hold functions such as egg with simple structure as a whole.

Optionally, the second fastening structure includes a fastening block and a matching hole, the fastening block is disposed on one of the outer cup cover and the inner cup cover, the matching hole is disposed on the other of the outer cup cover and the inner cup cover, a matching block is disposed in the matching hole, the fastening block includes a connecting portion and a fastening portion extending from the connecting portion in a radial direction of the egg cup assembly, and the fastening portion is fastened with the matching block; and/or, limit structure includes bulge and depressed part, the depressed part holds the bulge, outer cup is including holding the outer cup cavity of interior cup, the bulge set up in one of the inner wall of outer cup cavity with the interior cup external surface of interior cup, the depressed part set up in the other one of the inner wall of outer cup cavity with the interior cup external surface of interior cup. As set up above, second buckle structure is including detaining piece and mating holes to detain mutually through the cooperation piece of detaining the portion of detaining of piece and mating holes, outer bowl cover and interior bowl cover assembly are simple, and it is firm after the equipment. Limit structure includes bulge and depressed part, and unsmooth cooperation through bulge and depressed part not only can play location and guide effect to the equipment between outer cup and the interior cup, is convenient for outer cup and interior cup equipment, can restrict outer cup and interior cup in circumference relative rotation moreover, can also with second buckle structure and first buckle structure cooperation make egg cup subassembly realizes the equipment and holds functions such as egg with simple structure

Optionally, the length of the connecting portion along the circumferential direction of the egg cup assembly is greater than the length of the buckle portion along the circumferential direction of the egg cup assembly. So set up, the length of connecting portion is longer than the length of detaining the portion, not only is convenient for the mould manufacturing interior bowl cover, moreover, also can make interior bowl cover and outer bowl cover lock firm.

Optionally, the bowl cover includes presses the splenium, first buckle structure is in press the splenium to take place unblock under the condition of deformation. According to the above-mentioned setting, through pressing the splenium makes first buckle structure unblock, finally makes the bowl cover separable for the cup, the simple structure of bowl cover and cup, and the unblock is simple between bowl cover and the cup, conveniently takes out the egg.

Optionally, the outer surface of the cup body is provided with the egg cup teeth. So set up, because the egg cup tooth is located the surface of cup, like this, be convenient for set up bowl cover and cup structure (if follow-up first buckle structure) of detaining mutually and make the bowl cover buckle in the cup more easily, in addition, the surface that the egg cup tooth is located the cup not only makes the simple structure of egg cup subassembly, moreover more easily with ring gear and sun gear meshing, also makes egg cup subassembly motion stability to a certain extent.

Optionally, the planet carrier comprises a planet carrier base and limiting seats arranged around the planet carrier base at intervals in the circumferential direction, and an accommodating space is formed between every two adjacent limiting seats; the egg homogenizing device comprises a limiting piece assembled with the limiting seat, and the limiting piece comprises a limiting notch sunken towards the inside of the limiting piece; the egg cup assembly is located in the accommodating space and the limiting notch and is limited by the limiting notch. So set up, be located through egg cup subassembly in accommodation space and by spacing of spacing breach, the motion of egg cup subassembly is more stable in rotation and revolution, for example, egg cup subassembly can not be at the axial float.

On the other hand, the embodiment of the application discloses a food processor, which comprises any one of the above components, wherein the food processor comprises a base, the base comprises a base cavity, and the inner wall of the base cavity is provided with the gear ring; the planet carrier is positioned in the base cavity and can rotate in the base cavity; the driving assembly drives the sun gear to rotate so as to realize rotation and revolution of the egg cup assembly. So set up, the cooking machine has at least the beneficial effect of even egg device, moreover, even egg device makes the simple structure of cooking machine, even egg device motion stability.

Optionally, the food processor includes the stirring piece, at least the egg cup subassembly with the planet carrier as a whole with the stirring piece is removable to be used, and in the use condition by drive assembly drive. So set up, the cooking machine not only realizes even egg function, can also realize stirring function, and the cooking machine function increases, increases user experience.

Drawings

Fig. 1 is an exploded view of a food processor according to an embodiment of the present application;

fig. 2 is an exploded view of the food processor shown in fig. 1 between a base, a planet carrier, a sun gear and a limiting member;

FIG. 3 is a schematic view of the base, planet carrier, egg cup assembly and sun gear of FIG. 2 assembled together;

FIG. 4 is a schematic view of an egg being placed in an egg cup assembly;

fig. 5 is an exploded view of an egg cup assembly shown at an angle according to embodiments of the present application;

fig. 6 is an exploded view of the egg cup assembly shown at another angle according to embodiments of the present application;

fig. 7 is a partial cross-sectional view of an egg cup assembly shown in accordance with an embodiment of the present application;

fig. 8 is a schematic diagram illustrating the use of the food processor as a meat grinder according to an embodiment of the present application.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like 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 "first," "second," and similar terms in the description and in the claims does not indicate any order, quantity, or importance, but rather is used to distinguish one element from another. Also, the use of the terms "a" or "an" and the like do not denote a limitation of quantity, but rather denote the presence of at least one. "plurality" or "a number" means two or more. Unless otherwise indicated, "front", "rear", "lower" and/or "upper" and the like are for convenience of description and are not limited to one position or one spatial orientation. 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. 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.

The application provides even egg device and cooking machine. Even egg device can make egg white and albumen misce bene, moreover, simple structure. For convenience of description, the function of mixing egg white and the egg cup is referred to as the egg homogenizing function in the present application. The egg homogenizing device comprises an egg cup assembly, a gear ring, a planet carrier, a sun gear and a driving assembly. The egg cup assembly is assembled on the planet carrier and comprises egg cup teeth. The egg cup teeth are meshed with the sun gear and the gear ring, and the egg cup assembly, the planet carrier, the sun gear and the gear ring form a planetary gear transmission mechanism. The driving component drives the planetary gear transmission mechanism to enable the egg cup component to rotate and revolve. So set up, because the egg cup subassembly the planet carrier the sun gear with the ring gear constitutes planetary gear drive, from this, the egg cup subassembly both had been regarded as planetary gear drive's component part, as the part that holds the egg again, the structure of egg cup subassembly and even egg device is all simple, moreover, under drive assembly's effect, the egg cup subassembly can rotation and revolution, so, egg white and albumen mix more evenly, even egg is effectual, and convenient operation, the egg cup subassembly is direct with ring gear and sun gear meshing, rotation and revolution in-process, the stability of egg cup subassembly is higher, also can effectual protection egg at even egg in-process not broken.

The following describes the related structures of the egg homogenizing device and the food processor in detail with reference to the accompanying drawings.

Referring to fig. 1, 2, 3 and 4, the food processor includes an egg cup assembly 10, a base 20, a planet carrier 30, a sun gear 40 and a driving assembly 50. The base 20 serves as a carrier for mounting the planet carrier 30, the egg cup assembly 10 and the like, and includes a base cavity 201. The gear ring 2011 is arranged in the base cavity 201. The ring gear 2011 is provided in the following manner: 1) as shown, teeth are formed on the inner surface of the base cavity 201 to constitute a ring gear; the 2-ring gear is assembled as a separate component to the base 20 within the base cavity 201, for example, on the inner wall of the base cavity 201 or at another location, and in any case, can be the gear transmission mechanism. In the embodiment of the present application, the base 20 includes a base 202 and a cover 203, and the base 202 is provided with the base cavity 201. The cover 203 can cover the base 202. The planet carrier 30 is located in the base cavity 201 and can rotate in the base cavity 201. The sun gear 40 includes a sun gear 401 and a sun gear shaft 402 in the present embodiment. The sun gear 40 generally has two configurations: 1) the sun gear 401 and the sun gear shaft 402 are integrally formed; 2) the sun gear 401 and the sun gear shaft 402 are independent members, and the sun gear 401 and the sun gear shaft 402 are assembled to form the sun gear 40. The egg cup assembly 10 functions in this application to place the egg 70 and to enable rotation and revolution, and any egg cup assembly 10 that can perform both functions can be used in this application. In an embodiment of the present application, the egg cup assembly 10 is assembled to the planet carrier 30, including the egg cup teeth 212. The cup teeth 212 are engaged with the sun gear 40 and the ring gear 2011. Fig. 3 shows the sun gear 40, the gear ring 2011 and the egg cup teeth 212 of the egg cup assembly 10 engaged, and fig. 1 and 4 show the egg cup teeth 212 of the egg cup assembly 10 engaged with the gear ring 2011. The driving assembly 50 is connected with the sun gear 40 and drives the sun gear 40 to rotate, and further, the egg cup assembly 10 realizes the self-transmission and the revolution through the action of the planetary gear transmission mechanism. In the embodiment of the present application, the driving unit 50 is connected to the sun gear 40 by being connected to the sun gear shaft 402, and further, the driving unit 40 rotates, and finally, the egg cup unit 10 can rotate and revolve, so that the driving unit 50 does not have to be limited in structure, how it is connected to the sun gear 40, and the driving unit 40 can rotate, depending on the operation of the driving unit 50.

As the driving assembly 50 drives the sun gear 40 to rotate, under the condition that the egg cup assembly 10 is meshed with the sun gear 40 and the gear ring 2011, the sun gear 40 rotates to drive the egg cup assembly 10 to realize self-transmission and revolution, and further, the egg white and the egg white of the egg inside the egg cup assembly 10 are uniformly mixed in the rotating process, so that the mixing effect is good. In addition, because egg cup subassembly 10 meshes with sun gear 40 and the ring gear 2011 on the inner wall of the base cavity 201 of base 20, like this, egg cup subassembly 10 can better rotation and revolution in the rotation process to, the motion is stable, under the condition as cooking machine application, can make the structure of egg cup subassembly, the structure of even egg device and cooking machine's simple structure.

As described above, the egg cup assembly 10 is not limited in structure based on the function of the egg cup assembly 10, and may be configured to accommodate the egg 70 and to revolve and rotate, and the structure of the egg cup assembly 10 according to an embodiment of the present invention will be described below.

Referring to fig. 5 and 6 in combination with fig. 2, 3 and 4, the egg cup assembly 10 includes a lid 1 and a cup body 2. The outer surface of the cup body 2 is provided with the egg cup teeth 212, and in the embodiment, the egg cup teeth 212 are positioned on the outer surface of the outer cup body 21. So set up, because egg cup tooth 212 is located cup 2's surface, like this, be convenient for set up bowl cover 1 and cup 2 structure (if follow-up first buckle structure) of detaining mutually and make bowl cover 1 lock in cup 2 more easily, in addition, egg cup tooth 212 is located the surface of cup not only makes egg cup subassembly 10's simple structure, moreover more easily meshes with ring gear 2011 and sun gear 40, also makes egg cup subassembly 10 motion stability to a certain extent.

The cup cover 1 and the cup body 2 are buckled through the first buckle structure 3 to form an egg containing cavity 4. The structure of the first snap structure 3 in one embodiment is described below with reference to the accompanying drawings.

Referring to fig. 5, 6 and 7, the first locking structure 3 includes a notch 31, a hook arm 32 and a locking lug 33. The notch 31 and the hook arm 32 are spaced apart from each other on the outer lid 11, for example, on the edge of the outer lid 11. The buckling lug 33 is arranged on the outer cup body 21. As can be seen from fig. 5 and 6 in conjunction with fig. 4 and 3, the notches 31 and the hook arms 32 are three groups, and are spaced around the circumference of the cup cover 1, and correspondingly, there are three fastening lugs 33. Skilled persons will appreciate that the number of the notches 31, the number of the hook arms 32, and the number of the fastening lugs 33 are not limited, and in addition, the notches 31 and the hook arms 32 may also be disposed on the outer cup 21, for example, the rim of the outer cup 21, and the fastening lugs 33 may be disposed on the outer cup lid 11. The fastening lug 33 includes a fastening lug hole 331. The hook arm 32 includes a hook 321 located within the notch 31. As shown in fig. 7, the hook 321 is engaged with the ear hole 331, and after the engagement, the ear 33 is located in the notch 31. So set up, hook portion 321 and the buckle lug hole 331 lock of hook arm 32, in addition, hook portion 321 and buckle lug 33 all are located in notch 31, consequently, bowl cover 1 with the cup 2 lock is firm, finally can fine play the effect of spacing egg, effectively protects the egg. Finally, under the condition that the first buckling structure 3, the second buckling structure 13 and the limiting structure 23 are matched for use, the structure of the egg cup assembly 10 is simple, and the egg white and egg yolk mixing effect is better.

The cup cover 1 and the cup body 2 respectively have various structures. The structure of a lid 1 and a cup 2 according to an embodiment of the present application will be described below with reference to the accompanying drawings.

With continued reference to fig. 5 and 6 in conjunction with fig. 7, in one embodiment, the hook arm 32 and the notch 31 are disposed on the outer cup lid 11, and the edge of the inner cup lid 12 is provided with a notch 121 for receiving the hook arm 32. So set up, hook arm 32 and breach 121 cooperation can make the equipment between outer bowl cover 11 and the interior bowl cover 12 more convenient, and the deuterogamy second buckle structure 13 can make the equipment between outer bowl cover 11 and the interior bowl cover 12 comparatively firm.

Please refer to fig. 5, fig. 6, fig. 7 and fig. 2 in combination with fig. 1 and fig. 4. Fig. 5 and 6 illustrate the egg cup assembly 10 in an exploded condition at various angles. Fig. 2 and 1 illustrate the assembly of lid 1 and cup 2. Fig. 4 shows the lid 1 and cup 2 in an unfastened condition with an egg 70 placed in the cup 2. The cup cover 1 comprises an outer cup cover 11 and an inner cup cover 12, the inner cup cover 12 and the outer cup cover 11 are assembled through a second buckling structure 13, and the inner cup cover 12 is located in the outer cup cover 11. The second buckling structure 13 is not limited, and the inner cup cover 12 and the outer cup cover 11 can be assembled together. The cup body 2 comprises an outer cup body 21 and an inner cup body 22. The inner cup body 22 is positioned in the outer cup body 21, a limiting structure 23 is arranged between the inner cup body 22 and the outer cup body 21, and the limiting structure 23 limits the relative rotation of the inner cup body 22 and the outer cup body 21 in the circumferential direction. Therefore, the inner cup 22 and the outer cup 21 do not rotate relatively during the rotation and revolution of the egg cup assembly 10. Outer bowl cover 11 through first buckle structure 3 with outer cup 21 equipment in order with bowl cover 1 with cup 2 lock, after the lock, bowl cover 1 compresses tightly interior cup 22, interior bowl cover 12 with interior cup 22 encloses into the egg and holds chamber 4. Fig. 2 shows the cap 1 and cup 2 in a snap-fit state, and fig. 4 shows an egg 70 in the egg receiving cavity 4. As set forth above, the assembly between the outer cup cover 11 and the inner cup cover 12 is realized through the second buckling structure 13, therefore, the egg cup component 10 is convenient to produce, manufacture and assemble, is convenient to disassemble and assemble during cleaning, the inner cup body 22 and the outer cup body 21 cannot relatively rotate through the limiting structure 23, and the assembly between the cup cover 1 and the cup body 2 is realized through the first buckling structure 3, and encloses the egg accommodating cavity 4 after being assembled and tightly presses the inner cup body 22, so as to ensure that the egg 70 does not shake (but the egg white and the egg yolk can be mixed) in the rotation and revolution processes of the egg cup assembly 10, the cup cover 1 and the cup body 2 are relatively fixed, the egg 70 is convenient to place and take out, in a word, by providing the second snap structure 13, the first snap structure 3 and the limiting structure 23, they can make the egg cup assembly 10 achieve the functions of assembling and accommodating the egg 70 and the like with a simple structure as a whole. It should be noted that, although the outer cup 21 and the outer cup 11 are described above as being fastened by the first fastening structure 3, it can be understood by a skilled person that, in the case where the outer cup 11 and the outer cup 21 are fastened by the first fastening structure 3, the outer cup 11 and the inner cup 12 are fastened by the second fastening structure 13, and the limiting structure 23 is provided between the outer cup 21 and the inner cup 22, the first fastening structure may be the first fastening structure 3, or may be a fastening structure of another structure.

The first buckling structure 3 can be unlocked to separate the cup cover 1 relative to the cup body 2 so as to be taken out after the egg 70 is shaken well, and how to unlock can be determined according to the specific structure of the first buckling structure 3. As follows, the unlocking structure employed by some embodiments of the present application is described.

The cup cover 1 comprises a pressing portion 111, and the first buckling structure 3 is unlocked when the pressing portion 111 deforms. According to the above-mentioned setting, through pressing the splenium 111 makes 3 unblocks of first buckle structure, finally makes bowl cover 1 separable for cup 2, and the simple structure of bowl cover 1 and cup 2, the unblock is simple between bowl cover and the cup, conveniently takes out egg 70. The pressing portion 111 may be provided in various configurations, and the configuration of the pressing portion 111 used in the embodiment of the present application will be described below.

Referring to fig. 2 and 4 in combination with fig. 3 and 5, in some embodiments, at least the outer cap 11 includes a pressing portion 111 in the outer cap 11 and the inner cap 12. The first buckle structure 3 is unlocked under the condition that the pressing part 111 deforms, and after unlocking, the cup cover 1 and the cup body 2 can be separated, so that the state shown in fig. 4 is presented, and the egg 70 is taken out under the state. The press section 111 is shown in fig. 5, 1, 2, 3 and 4 as thin strips of unequal length, so that the press section 111 is easily recognizable to the consumer. At least the outer cup cover 11 comprises a pressing part 111, which specifically means: 1) only the pressing portion 111 of the outer cup cover is made of a deformable material, and the pressing portion 111 has a preset stroke relative to the inner cup cover 12, but in this case, the outer cup cover 11 may be made of a deformable material as a whole; 2) the outer cup cover 11 and the inner cup cover 12 are both provided with the pressing part 111, and only the pressing part 111 is made of a variable material; of course, in this case, the outer lid 11 and the inner lid 12 may be integrally formed of a deformable material. With any structure, after the pressing portion 111 is pressed to deform the pressing portion 111, the first locking structure 3 can be unlocked.

The structure of the second engagement structure 13 is not limited to the above-described function of the second engagement structure 13, and the structure of the second engagement structure 13 according to the embodiment of the present application will be described below with reference to the drawings.

Referring to fig. 5, fig. 6 and fig. 7 in combination with fig. 2, the second locking structure 13 includes a locking block 131 and a mating hole 132. In the figures, the fastening block 131 is arranged on the inner cup cover 12, and the mating hole 132 is arranged on the outer cup cover 11. In some embodiments, the fastening block 131 may be disposed on the outer cap 11, and the mating hole 132 may be disposed on the inner cap 12. In either arrangement, a mating block 1321 is disposed within the mating bore 132. The fastening block 131 includes a connecting portion 1311 and a fastening portion 1312 formed by extending from the connecting portion 1311 in a radial direction of the egg cup assembly 10, the fastening portion 1312 is fastened to the fitting block 1321, fig. 7 illustrates a state where the fastening portion 1312 and the fitting block 1321 are fastened, and fig. 4 illustrates the fastening block 131 located in the fitting hole 132. As described above, the second engaging structure 13 includes the fastening block 131 and the engaging hole 132, and is engaged with the fastening portion 1312 of the fastening block 131 and the engaging block 1321 of the engaging hole 132, so that the outer lid 11 and the inner lid 12 are easily assembled and are firmly fixed after the assembly.

With continued reference to fig. 5 and 6, in one embodiment, the length of the connecting portion 1311 in the circumferential direction of the egg cup assembly 10 is greater than the length of the buckle portion 1312 in the circumferential direction of the egg cup assembly 10. With such an arrangement, the length of the connecting portion 1311 is longer than that of the fastening portion 1312, which not only facilitates the mold manufacturing of the inner cup lid 12, but also enables the inner cup lid 12 and the outer cup lid 11 to be fastened firmly.

The limiting structure 23 in the embodiment of the present application is used to prevent the inner cup 22 and the outer cup 21 from rotating relatively, and any structure capable of achieving such a function can be used in the present application. One configuration of the stopper structure 23 is described below.

Referring to fig. 5 and 6, in one embodiment, the position limiting structure 23 includes a protrusion 231 and a recess 232. The recess 232 receives the protrusion 231. In fig. 6, the outer cup 21 includes an outer cup cavity 211 that receives the inner cup 22. The protrusion 231 protrudes from the inner wall of the outer cup cavity 211 toward the inside of the outer cup cavity 211 in the radial direction to be located inside the outer cup cavity 211, and thus, in fig. 5, the outer surface of the outer cup 21 is recessed as viewed from the outer surface of the outer cup 21. The concave portion 232 is disposed on the outer surface 221 of the inner cup 22, so that the outer surface 221 of the inner cup 22 is uneven. As shown in fig. 5 and 6, the recess 232 is recessed from the outer surface 221 of the inner cup toward the inside of the inner cup 22. The skilled person will appreciate that for the purpose of restricting the relative rotation of the outer cup 21 and the inner cup 22 in the circumferential direction by a male-female fit, in other embodiments, the inner cup 22 may be provided with the protrusion, and the outer cup 21 with the recess, in which case the protrusion protrudes from the outer surface of the inner cup to the outside of the inner cup. Further, although in fig. 5 and 6, the convex portion 231 is provided at the lower end of the inner wall of the outer cup cavity 211 and the concave portion 232 is provided at the lower end of the inner cup outer surface 221, it will be understood by those skilled in the art that the convex portion 231 and the concave portion 232 may be provided at other positions for the purpose of restricting the relative rotation of the outer cup 21 and the inner cup 22 in the circumferential direction by the concave-convex fitting. As set forth above, the concave-convex matching between the convex portion 231 and the concave portion 232 not only can play a role in positioning and guiding the assembly between the outer cup body 21 and the inner cup body 22, thereby facilitating the assembly between the outer cup body 21 and the inner cup body 22, but also can limit the relative rotation between the outer cup body 21 and the inner cup body 22 in the circumferential direction, and can match with the second buckling structure 13 and the first buckling structure 3, so that the egg cup assembly 10 can realize the functions of assembly and egg 70 accommodation with a simple structure.

Referring to fig. 2 and 3 in combination with fig. 1 and 4, in one embodiment, the planet carrier 30 includes a planet carrier base 301 and limiting seats 302 spaced around the circumference of the planet carrier base 301, and an accommodating space 303 is formed between adjacent limiting seats 302. The shape of the receiving space 303 is determined according to the shape of the egg cup assembly 10. The egg homogenizing device comprises a limiting piece 60 assembled with the limiting seat 302, and the limiting piece 60 comprises a limiting notch 601. Although three egg cup assemblies 10 are illustrated in the embodiment of the present application, there are three corresponding retaining notches 601, and the retaining notches 601 correspond to the retaining openings of the egg cup assemblies 10 in a one-to-one correspondence. However, the skilled person will understand that the number of the limiting notches 601 is not limited, for example, it can be one, two, four, etc. How the limiting member 60 is assembled with the limiting base 302 is not limited, for example, in the embodiment of the present application, the limiting base 302 is provided with a fastening hole 3021, the limiting member 60 is provided with a fastening pin 602, and the fastening pin 602 is fastened with the fastening hole 3021. In the embodiment of the present application, the stopper 60 includes an assembling portion 603 and an arm 604. The assembling portion 603 is inserted into the sun gear shaft 402 of the sun gear 40. The fastening leg 602 is disposed at an end of the supporting arm 604 far from the assembling portion 603. The number of the support arms 604 is three, and the support arms are uniformly arranged around the assembling portion 603, so that the adjacent support arms 604 enclose the limiting notch 601, and the egg cup assembly 10 is located in the accommodating space 303 and the limiting notch 601 and is limited by the limiting notch 601. With such an arrangement, the egg cup assembly 10 is located in the accommodating space 303 and is limited by the limiting notch 601, so that the egg cup assembly 10 moves more stably in rotation and revolution, for example, the egg cup assembly 10 does not move in an axial direction.

Referring to fig. 8 in combination with fig. 1, in one embodiment, the food processor includes a stirring member 80, and at least the egg cup assembly 10 and the planet carrier 30 as a whole are replaceable with the stirring member 80, and are driven by the driving assembly 50 in a use condition. That is, in this case, the consumer uses either the egg homogenizing function or the stirring function, and based on this, only the egg cup assembly 10 and the carrier 30 as a whole may be replaced, and the stirring member 80 is mounted to the sun gear 40; it is also possible that the egg cup assembly 10, the planet carrier 30 and the sun gear 40 are replaced as a whole, and the stirring element 80 is rotatably connected with the shaft at the bottom of the base cavity 201. So set up, the cooking machine not only realizes even egg function, can also realize stirring function, and the cooking machine function increases, increases user experience. The stirring function is like mincing meat, juicing and the like. Of course, the skilled artisan will appreciate that the drive assembly 50 may be located on the top of the base 20 as illustrated, on the bottom of the base 20, or even within the base in some cases, in which case the base corresponds to the housing.

With reference to fig. 8 in combination with fig. 1, the stirring element 80 is a meat chopper, and the base 20 includes a base 202 and a cover 203 covering the base 202. The driving assembly 50 is assembled to the cover 203 and located outside the cavity of the base, and includes a motor. The motor drives the stirring member 80 to rotate or drives the sun gear 40 to rotate. So set up, the cooking machine realizes the minced steak function and the function of even egg, and moreover, drive assembly 50 is located the top that is located base 20 behind the lid 203, and the consumer operation of being convenient for promotes user experience.

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 (10)

1. An egg homogenizing device is characterized by comprising an egg cup component (10), a gear ring (2011), a planet carrier (30), a sun gear (40) and a driving component (50);

the egg cup assembly (10) is assembled on the planet carrier (30) and comprises egg cup teeth (212); the egg cup teeth (212) are meshed with the sun gear (40) and the gear ring (2011), and the egg cup assembly (10), the planet carrier (30), the sun gear (40) and the gear ring (2011) form a planetary gear transmission mechanism;

the driving assembly (50) drives the planetary gear transmission mechanism to enable the egg cup assembly (10) to rotate and revolve.

2. Egg homogenizing device according to claim 1, characterized in that the egg cup assembly (10) comprises a cup lid (1) and a cup body (2), the cup lid (1) and the cup body (2) being fastened by a first snap structure (3) and enclosing an egg accommodating cavity (4);

the first buckling structure (3) comprises a notch (31), a hook arm (32) and a buckling lug (33), and the buckling lug (33) comprises a buckling lug hole (331); the notch (31) and the hook arm (32) are arranged on one of the cup body (2) and the cup cover (1) at intervals; the other is provided with at interval the knot ear (33), hook arm (32) are including being located hook portion (321) in notch (31), hook portion (321) with detain ear hole (331) lock, knot ear (33) are located in notch (31).

3. Egg homogenizing device according to claim 2, characterized in that the cup lid (1) comprises an outer cup lid (11) and an inner cup lid (12) located inside the outer cup lid (11), the hook arm (32) and the notch (31) are arranged in the outer cup lid (11), and a notch (121) accommodating the hook arm (32) is arranged at the edge of the inner cup lid (12).

4. Egg homogenizing device according to claim 1, characterized in that the egg cup assembly (10) comprises a cup lid (1) and a cup body (2), the cup lid (1) comprises an outer cup lid (11) and an inner cup lid (12), the inner cup lid (12) and the outer cup lid (11) are assembled by a second snap structure (13), and the inner cup lid (12) is located inside the outer cup lid (11);

the cup body (2) comprises an outer cup body (21) and an inner cup body (22), the inner cup body (22) is positioned in the outer cup body (21), a limiting structure (23) is arranged between the inner cup body and the outer cup body (21), and the limiting structure (23) limits the inner cup body (22) and the outer cup body (21) to rotate relatively in the circumferential direction;

outer bowl cover (11) through first buckle structure with outer cup (21) equipment is in order to realize bowl cover (1) with cup (2) lock, bowl cover (1) compresses tightly interior cup (22), interior bowl cover (12) with interior cup (22) enclose into egg and hold chamber (4).

5. The egg homogenizing device according to claim 4, wherein the second buckling structure (13) comprises a buckling block (131) and a matching hole (132), the buckling block (131) is arranged on one of the outer cup cover (11) and the inner cup cover (12), the matching hole (132) is arranged on the other of the outer cup cover (11) and the inner cup cover (12), a matching block (1321) is arranged in the matching hole (132), the buckling block (131) comprises a connecting portion (1311) and a buckling portion (1312) formed by extending from the connecting portion (1311) along the radial direction of the egg cup assembly (10), and the buckling portion (1312) is buckled with the matching block (1321);

and/or, limit structure (23) includes bulge (231) and depressed part (232), depressed part (232) hold bulge (231), outer cup (21) is including holding outer cup cavity (211) of interior cup (22), bulge (231) set up in one of outer cup cavity's (211) inner wall and interior cup external surface (221) of interior cup (22), the depressed part set up in the other one of outer cup cavity's (211) inner wall and interior cup external surface (221) of interior cup (22).

6. Egg homogenizing device according to claim 5, characterized in that the length of the connecting portion (1311) in the circumferential direction of the egg cup assembly (10) is larger than the length of the buckle portion (1312) in the circumferential direction of the egg cup assembly (10).

7. Egg homogenizing device according to any one of claims 2 to 6, characterized in that the cup lid (1) comprises a pressing portion (111), the first snap structure (3) being unlocked in case of deformation of the pressing portion (111);

and/or the outer surface of the cup body (2) is provided with the egg cup teeth (212).

8. The egg homogenizing device according to claim 1, wherein the planet carrier (30) comprises a planet carrier base (301) and limiting seats (302) arranged around the planet carrier base (301) at intervals in the circumferential direction, and accommodating spaces (303) are formed between the adjacent limiting seats (302);

the egg homogenizing device comprises a limiting piece (60) assembled with the limiting seat (302), and the limiting piece (60) comprises a limiting notch (601) sunken towards the inside of the limiting piece (60);

the egg cup assembly (10) is positioned in the accommodating space (303) and the limiting notch (601) and is limited by the limiting notch (601).

9. A food processor comprising the egg homogenizing device of any one of claims 1 to 8, the food processor comprising a base (20), the base (20) comprising a base cavity (201), the gear ring (2011) being disposed within the base cavity (201); the planet carrier (30) is positioned in the base cavity (201) and can rotate in the base cavity (201);

the driving assembly (50) drives the sun gear (40) to rotate so as to realize the rotation and revolution of the egg cup assembly (10).

10. The food processor of claim 9, characterized in that the food processor comprises a stirring member (80), at least the egg-cup assembly (10) and the planet carrier (30) as a whole are exchangeable for use with the stirring member (80), and the egg-cup assembly (10) or the stirring member (80) is driven by the driving assembly (50) in a use condition.

Images