CN217610670U - Food processor - Google Patents

Abstract

The utility model discloses a food processor, include: cooking cup, stirring bowl, drive shaft, stirring piece, support cover and lid subassembly. The upper end of the cooking cup is provided with a cup opening; the stirring bowl is arranged in the cooking cup and is provided with a shaft penetrating channel which is vertically communicated; the driving shaft is arranged in the cooking cup and penetrates through the shaft penetrating channel; the stirring piece is connected with the driving shaft and is rotatably arranged in the stirring bowl; the supporting sleeve is positioned at the bottom of the cooking cup, the bottom of the stirring bowl is abutted against the supporting sleeve, and the supporting sleeve is sleeved on the outer side of the driving shaft; the cover body assembly can be covered on the cup opening in an opening and closing manner. From this, support the cover and can carry out spacingly to the drive shaft when carrying out stable support to the stirring bowl to can make the stirring bowl keep steadily at food processor during operation through ending stirring bowl bottom, increase the security.

Description

Food processor

Technical Field

The utility model relates to a domestic appliance field, concretely relates to food processor.

Background

The existing household food processor has multiple functions, generally has a stirring function, and can be used for making soybean milk, squeezing fruit juice, making rice paste, mincing meat paste, shaving ice and the like. The stirring function is generally through the rotatory realization of (mixing) shaft drive stirring sword, when eating the material to the difference and handling, the resistance that the stirring sword received is different, and the power of conduction to the (mixing) shaft is also different, and the (mixing) shaft can take place to swing at the free end when receiving great resistance, makes the stirring sword take place to rock, and then makes the stirring bowl also can follow and rock, reduces the stability reduction food processor life of food processor during operation, leads to the fact the potential safety hazard even.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, the utility model provides a food processor, food processor can make the drive shaft steady operation when the stirring piece stirs food to carry out good support to the stirring bowl, and then improve the stability of food processor during operation, improve the security.

According to the utility model discloses food processor, food processor includes: cooking cup, stirring bowl, drive shaft, stirring piece, support cover and lid subassembly. The upper end of the cooking cup is provided with a cup opening; the stirring bowl is arranged in the cooking cup and is provided with a shaft penetrating channel which is vertically penetrated; the driving shaft is arranged in the cooking cup and penetrates through the shaft penetrating channel; the stirring piece is connected with the driving shaft and is rotatably arranged in the stirring bowl; the supporting sleeve is positioned at the bottom of the cooking cup, the bottom of the stirring bowl is abutted against the supporting sleeve, and the supporting sleeve is sleeved on the outer side of the driving shaft; the cover body assembly can be covered on the cup mouth in an opening and closing mode.

According to the utility model discloses food processor, stirring bowl set up in cooking cup, and the axle passageway of wearing in the stirring bowl is worn to establish by the drive shaft, and stirring spare rotationally sets up in stirring bowl to stirring spare links to each other with the drive shaft above wearing the axle passageway, supports the cover and is in cooking cup's bottom, supports the top of cover and ends with the bottom of stirring bowl, and supports the ways and establish in the outside of drive shaft. The drive shaft can drive the stirring piece in the cooking cup and rotate to stir the operation to food, support the top of cover and the bottom of stirring bowl and only to support and to provide the support to the stirring bowl, make the stirring bowl stably be fixed in inside the cooking cup, and because support the ways and establish in the drive shaft outside, can carry on spacingly to the drive shaft, and make the drive shaft steadily rotate, thereby prevent that the drive shaft from taking place to swing when the atress is great, make stirring piece and cooking cup inner wall take place to collide with. From this, support the cover and can carry out spacingly to the drive shaft when carrying out stable support to the stirring bowl to can make the stirring bowl keep steadily at food processor during operation through ending stirring bowl bottom, increase the security.

In some embodiments, the food processor further comprises: and the bearing is positioned in the supporting sleeve and is matched with the driving shaft. From this, can make the support sleeve reduce the resistance between support sleeve and the drive shaft when carrying on spacingly to the drive shaft, make the drive shaft rotate more smoothly to increase food processor's food stirring efficiency.

Further, the bearing is two, two vertical interval distribution, two accompany the spacer tube between the bearing, still be equipped with the seal cover in the support cover, the seal cover is located the top of bearing, the seal cover is established in the drive shaft. Thereby, the sealing performance can be increased while the rotation of the driving shaft is more stable, thereby increasing the service life of the food processor.

In some embodiments, the bottom of the stirring bowl is formed with a positioning groove surrounding the shaft penetrating channel, the top end of the positioning groove is communicated with the shaft penetrating channel, the bottom end of the positioning groove is open, and the top of the support sleeve is clamped in the positioning groove. From this, can fix a position the position of stirring bowl in the cooking cup to can prevent that the stirring bowl from rotating under the drive of stirring piece, increase the stirring efficiency of food.

In some embodiments, the supporting sleeve is cylindrical, the top end of the supporting sleeve is a square step, and the top end of the driving shaft protrudes from the square step. Therefore, the support sleeve can provide more stable support for the mixing bowl.

In some embodiments, the food processor further comprises a heating assembly for heating the liquid containing cavity; an upper outlet is formed in the bottom of the cover body assembly and is opposite to the shaft penetrating channel. Therefore, the food can be heated when the food processor stirs the food, and the cover body assembly does not need to be opened to add water in the cooking process, so that the food processor is more convenient to use.

Further, the stirring member includes: water filling pipe, knife rest and blade. The lower end of the water adding pipe is a water outlet, the upper end of the water adding pipe is a water inlet, the water adding pipe extends into the shaft penetrating channel from the top end of the shaft penetrating channel and is connected with the driving shaft, and the water inlet is over against the lower part of the upper outlet; the cutter rest is sleeved outside the water adding pipe, the upper end of the cutter rest is connected to the outer peripheral wall of the water adding pipe, and when the stirring piece is arranged in the stirring bowl, the shaft penetrating channel is located between the cutter rest and the water adding pipe; the blade is at least one piece, the blade is connected on the periphery wall of knife rest. From this, can realize that the stirring piece adds water to the flourishing liquid cavity of cooking cup bottom by last export when stirring the food in the stirring bowl through the filler pipe, increase food processor's culinary art efficiency.

Optionally, the stirring piece further comprises a positioning pipe connected with the upper end of the water feeding pipe, the upper end of the positioning pipe is provided with an opening, and the area of the opening is larger than the areas of the water inlet and the upper outlet; the cover body assembly further comprises a water receiving sealing ring, the upper outlet and the outer side of the positioning pipe are sleeved with the water receiving sealing ring, and the water receiving sealing ring abuts against the upper end of the water adding pipe. From this, through the opening with the setting of water receiving sealing washer can prevent that rivers from getting into the stirring bowl when the lid subassembly flows out and soak food, make food processor have good culinary art effect.

Furthermore, the driving shaft protrudes out of the outer wall of the supporting sleeve and is provided with a stop rib, the driving shaft passes through the water outlet and is inserted into the water adding pipe, the lower end of the water adding pipe is stopped and supported on the stop rib, the pipe wall of the water adding pipe is provided with a side water outlet hole, and at least part of the side water outlet hole is higher than the driving shaft. From this, the stirring piece can be fixed on the position muscle through the lower extreme end that will add the water pipe, makes the stirring piece obtain the restriction in the axial to it is more stable to make the stirring piece move when carrying out the whipping operation to food.

In some embodiments, the mixing bowl comprises: the inner ring plate is connected with the outer edge of the first bowl bottom plate, and the part surrounded by the first inner ring plate is the shaft penetrating channel; the first inner ring plate is sleeved outside the driving shaft, a part of the stirring piece is matched in the stirring bowl, and the upper end of the first inner ring plate is lower than the upper end of the first outer ring plate. From this, behind cooking cup heating production steam, steam can flow through the inboard axle passageway that wears of first interior crown plate, by first interior crown plate upper end entering stirring bowl to when realizing that cooking cup boils, heat the food in the stirring bowl through steam, thereby realize once cooking the purpose that realizes multiple culinary art effect, improve food processor's culinary art efficiency.

In some embodiments, the mixing bowl has a first skirt on an edge thereof; the inner side of the cup wall of the cooking cup is provided with a circumferential ring groove, the ring groove is positioned at the top of the cooking cup, and the bottom surface of the ring groove forms a first step; a clamping groove which is recessed downwards is arranged on part of the bottom surface of the annular groove, and the bottom surface of the clamping groove forms a second step; the first skirt edge of the stirring bowl is arranged on the second step. From this, the cooperation of first shirt rim of accessible and annular supports the stirring bowl, increases the stability of stirring bowl in the cooking cup.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic perspective view of a food processor according to an embodiment of the present invention.

Fig. 2 is a sectional view of a part of the structure of the food processor according to the embodiment of the present invention.

Fig. 3 is an exploded view of a part of the structure of a food processor according to an embodiment of the present invention.

Fig. 4 is a partially enlarged view of a portion a in fig. 2.

Fig. 5 is a bottom view of a mixing bowl of a food processor in accordance with an embodiment of the present invention.

Fig. 6 is a perspective view of a support sleeve of a food processor according to an embodiment of the present invention.

Fig. 7 is a sectional view of a stirring member of a food processor according to an embodiment of the present invention.

Fig. 8 is a partially enlarged view at B in fig. 2.

Fig. 9 is a schematic perspective view of a mixing bowl of a food processor according to an embodiment of the present invention.

Fig. 10 is a schematic perspective view of a steaming bowl of a food processor according to an embodiment of the present invention.

Fig. 11 is a perspective view of a mixing bowl of a food processor according to another embodiment of the present invention.

Fig. 12 is a schematic perspective view of a cooking cup of a food processor according to another embodiment of the present invention.

Reference numerals are as follows:

a food processor 100,

A cooking cup 10,

A cup mouth 11,

A liquid containing cavity 12,

A first step 13,

A second step 14,

A mixing bowl 20,

A shaft penetrating channel 21,

A positioning groove 22,

A first bowl bottom plate 23,

A first inner ring plate 24,

A first outer ring plate 25,

A first skirt 26,

A drive shaft 30,

A position stopping rib 31,

A stirring piece 40,

A water adding pipe 41, a water outlet 411, a water inlet 412, a side water outlet 413,

A knife rest 42,

A blade 43,

A positioning tube 44, an opening 441,

A supporting sleeve 50,

A sealing sleeve 51,

A cover body assembly 60,

An upper outlet 61,

A water receiving sealing ring 62,

A bearing 70,

A spacing pipe 71,

A heating component 80,

A steaming bowl 90,

A second bowl bottom plate 91,

A second inner ring plate 92,

A second outer ring plate 93.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "top," "bottom," "inner," "outer," "axial," "radial," "circumferential," and the like are used in the orientation or positional relationship indicated in the drawings for convenience in describing the present invention and to simplify the description, and are not intended to indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention. Furthermore, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood as a specific case by those skilled in the art.

A food processor 100 according to an embodiment of the present invention is described below with reference to fig. 1 to 12.

As shown in fig. 1 to 3, according to the food processor 100 of the embodiment of the present invention, the food processor 100 includes: the food processing cup 10, the stirring bowl 20, the driving shaft 30, the stirring piece 40, the supporting sleeve 50 and the cover body assembly 60.

Wherein, the upper end of the cooking cup 10 is provided with a cup mouth 11. The mixing bowl 20 is arranged in the cooking cup 10, and the mixing bowl 20 is provided with a shaft penetrating channel 21 which is vertically penetrated. The driving shaft 30 is arranged in the food processing cup 10, and the driving shaft 30 is arranged at the shaft penetrating channel 21 in a penetrating way. The mixing member 40 is connected to the drive shaft 30 and is rotatably disposed within the mixing bowl 20. The supporting sleeve 50 is positioned at the bottom of the cooking cup 10, the bottom of the stirring bowl 20 is abutted against the supporting sleeve 50, and the supporting sleeve 50 is sleeved on the outer side of the driving shaft 30. The lid assembly 60 can be opened and closed to cover the cup opening 11.

Specifically, the mixing bowl 20 is arranged in the food processing cup 10, the driving shaft 30 penetrates through the shaft penetrating channel 21 in the mixing bowl 20, the mixing part 40 is rotatably arranged in the mixing bowl 20, the mixing part 40 is connected with the driving shaft 30 above the shaft penetrating channel 21, the supporting sleeve 50 is arranged at the bottom of the food processing cup 10, the top of the supporting sleeve 50 is stopped against the bottom of the mixing bowl 20, and the supporting sleeve 50 is sleeved outside the driving shaft 30. Drive shaft 30 can drive stirring piece 40 in cooking cup 10 and rotate, in order to stir food, the top of supporting cover 50 and the bottom of stirring bowl 20 end to support and can provide the support to stirring bowl 20, make stirring bowl 20 stably be fixed in cooking cup 10 inside, and because support cover 50 covers and establish in the 30 outsides of drive shaft, can carry on spacingly to drive shaft 30, and make drive shaft 30 steady rotation, thereby prevent that drive shaft 30 from taking place the swing when the atress is great, make stirring piece 40 and cooking cup 10 inner wall take place to collide with.

Simultaneously, lid body subassembly 60 can make the inside enclosure space that forms of cooking cup 10 through the lid on rim of a cup 11, when stirring piece 40 stirs food, can prevent food from the spill in the stirring cup to improve the clean and tidy nature of desktop.

According to the utility model discloses food processor 100, support cover 50 can carry out stable support to stirring bowl 20 while spacing to drive shaft 30 to can make stirring bowl 20 keep steadily at food processor 100 during operation through ending stirring bowl 20 bottom, increase the security.

As shown in fig. 4, in some embodiments, the food processor 100 further comprises: a bearing 70 is located within the support sleeve 50, the bearing 70 being engaged with the drive shaft 30.

Specifically, the bearing 70 has an inner ring and an outer ring, the inner ring of the bearing 70 is fitted to the drive shaft 30, the outer ring of the bearing 70 is fitted to the inner wall of the support sleeve 50, and rolling members are provided between the inner ring and the outer ring of the bearing 70, so that the support sleeve 50 can support the drive shaft 30 and the drive shaft 30 can smoothly rotate by the rolling members, thereby reducing the rotational resistance of the drive shaft 30 and reducing power consumption.

Thus, the support sleeve 50 can limit the position of the drive shaft 30 while reducing the resistance between the support sleeve 50 and the drive shaft 30, thereby increasing the food stirring efficiency of the food processor 100.

The type of the bearing 70 in the support sleeve 50 is not particularly limited, and the bearing 70 may be a roller bearing 70, a ball bearing 70, or the like, and may be selected according to actual needs.

Wherein, the inner ring of the bearing 70 is in interference fit with the driving shaft 30, the outer ring of the bearing 70 and the supporting sleeve 50. This increases the stability of the fixing of the bearing 70, and thus makes the rotation of the drive shaft 30 smoother.

As shown in fig. 4, further, there are two bearings 70, two bearings 70 are vertically spaced apart from each other, a spacer tube 71 is sandwiched between the two bearings 70, a sealing sleeve 51 is further disposed in the support sleeve 50, the sealing sleeve 51 is located above the upper bearing 70, and the sealing sleeve 51 is sleeved on the driving shaft 30.

That is, when the support sleeve 50 is sleeved on the driving shaft 30, the two bearings 70 are separated by the spacing tube 71, so that the two bearings 70 are respectively located at two ends in the support sleeve 50, and the bearings 70 spaced from each other at this time can make the rotation of the driving shaft 30 have better concentricity, so that the rotation thereof is more stable.

And when drive shaft 30 takes place to rotate for supporting sleeve 50, can drive the inner circle of bearing 70 and rotate, bearing 70 is inside to have lubricating grease, when water gets into inside bearing 70, water can take place the contact with lubricating grease, the rotatory friction through bearing 70 can make lubricating grease take place emulsion reaction, lead to bearing 70 rotational resistance grow, influence the smooth rotation of drive shaft 30, and water can lead to the inside metal corrosion that takes place of bearing 70, lead to bearing 70 to damage, seal cover 51 that is located the top of top bearing 70 can prevent that water from getting into bearing 70, improve bearing 70's life.

Accordingly, the sealing performance may be increased while the rotation of the driving shaft 30 is more stabilized, thereby increasing the lifespan of the food processor 100.

As shown in fig. 5-6, in some embodiments, the bottom of the mixing bowl 20 is formed with a positioning slot 22 surrounding the shaft penetrating channel 21, the top end of the positioning slot 22 is communicated with the shaft penetrating channel 21, the bottom end is open, and the top of the support sleeve 50 is clamped in the positioning slot 22.

That is, when the mixing bowl 20 is installed in the food processing cup 10, the top of the support sleeve 50 can be clamped in the positioning groove 22 at the bottom of the mixing bowl 20 to fix the mixing bowl 20. When the food processor 100 cooks food in the mixing bowl 20 via the mixing element 40, the mixing bowl 20 may have a tendency to rotate in the same direction as the mixing element 40 due to the resistance of the food in the mixing bowl 20, with the mixing bowl 20 being held in place by the retaining groove 22.

From this, can fix a position stirring bowl 20 in cooking cup 10 to can prevent that stirring bowl 20 from rotating under the drive of stirring piece 40, increase the stirring efficiency of food.

It should be noted that, the shape of the positioning slot 22 at the bottom of the mixing bowl 20 and the shape of the top of the supporting sleeve 50 are not limited specifically, and it is only necessary to ensure that the cross-sectional shape of the positioning slot 22 is the same as the cross-sectional shape of the supporting sleeve 50. For example, the positioning slot 22 may be a square slot and correspondingly, the top of the support sleeve 50 is also a square protrusion for fixing the mixing bowl 20.

In some embodiments, the supporting sleeve 50 has a cylindrical shape, and the top end of the supporting sleeve 50 has a square step, and the top end of the driving shaft 30 protrudes from the square step. When food is whipped by the stirring member 40, the positioning groove 22 at the bottom of the stirring bowl 20 is blocked on the square step, so that the stirring bowl can be prevented from rotating. The stirring bar 40 can be driven by the tip of the driving shaft 30 projecting from the square step. Thus, the support sleeve 50 can provide more stable support for the mixing bowl 20 while ensuring smooth operation of the mixing element 40.

As shown in FIG. 2, in some embodiments, the bottom of the cooking cup 10 forms a liquid containing chamber 12, and the food processor 100 further comprises a heating assembly 80 for heating the liquid containing chamber 12. The bottom of the cover body assembly 60 is provided with an upper outlet 61, and the upper outlet 61 is arranged opposite to the shaft penetrating channel 21.

Specifically, when the lid assembly 60 is closed over the cooking cup 10, the upper outlet 61 can discharge water into the liquid containing chamber 12. When food processor 100 cooks food, heating element 80 at the bottom of cooking cup 10 heats water in flourishing liquid chamber 12 through the heating in order to produce steam, thereby make steam heat food in to stirring bowl 20, after heating element 80 worked for a period of time, water in flourishing liquid chamber 12 was consumed, but food is not cooked yet and is accomplished, at this moment, go up export 61 through lid body component 60 and add water to flourishing liquid chamber 12 in, thereby realize the moisturizing operation, can make cooking cup 10 continuously produce steam, thereby save the user and open lid body component 60 and carry out watered operation to flourishing liquid chamber 12.

Accordingly, the food can be heated when the food processor 100 stirs the food, and the cover assembly 60 does not need to be opened to add water during cooking, thereby making the use of the food processor 100 more convenient.

As shown in fig. 7, further, the stirring member 40 includes: water feed pipe 41, blade holder 42 and blade 43. The lower end of the water adding pipe 41 is a water outlet 411, the upper end of the water adding pipe 41 is a water inlet 412, the water adding pipe 41 extends into the shaft penetrating channel 21 from the top end of the shaft penetrating channel 21 and is connected with the driving shaft 30, and the water inlet 412 is over against the lower part of the upper outlet 61. The tool holder 42 is sleeved outside the water feeding pipe 41, the upper end of the tool holder 42 is connected to the outer peripheral wall of the water feeding pipe 41, and when the stirring element 40 is arranged in the stirring bowl 20, the shaft penetrating channel 21 is located between the tool holder 42 and the water feeding pipe 41. The blade 43 is at least one piece, and the blade 43 is attached to the outer peripheral wall of the holder 42.

Specifically, the blade holder 42 is connected to the water supply pipe 41, the blade 43 is connected to the blade holder 42, the water supply pipe is connected to the drive shaft 30, and the stirring bar 40 is rotated by the drive of the drive shaft 30 to stir the food. When the mixing element 40 is mounted on the drive shaft 30, the lower end of the tool holder 42 is positioned within the mixing bowl 20, and the mixing element 40 is rotated by the drive shaft 30. The water inlet 412 of the water adding pipe 41 is over against the lower part of the upper outlet 61, when the cover assembly 60 adds water to the cooking cup 10 through the upper outlet 61, water flows into the water inlet 412 through the upper outlet 61 and flows out from the water outlet 411 through the water adding pipe 41, so as to complete the water adding operation of the cooking cup 10. The water feed pipe 41 can supply power to the blade 43 while being connected to the driving shaft 30, and can allow water to pass through, so that the structure of the stirring member 40 is more simplified.

Therefore, the food in the mixing bowl 20 can be stirred by the mixing part 40, and water can be added into the liquid containing cavity 12 at the bottom of the cooking cup 10 through the upper outlet 61 through the water adding pipe 41, so that the cooking efficiency of the food processor 100 is improved.

As shown in fig. 7-8, optionally, the stirring member 40 further includes a positioning tube 44 connected to the upper end of the water feeding tube 41, and the upper end of the positioning tube 44 has an opening 441, and the area of the opening 441 is larger than the areas of the water inlet 412 and the upper outlet 61. The cover assembly 60 further includes a water receiving sealing ring 62, the water receiving sealing ring 62 is sleeved outside the upper outlet 61 and the positioning tube 44, and the water receiving sealing ring 62 abuts against the upper end of the water feeding tube 41.

That is, when the stirring part 40 is installed in the food cup 10, the positioning pipe 44 at the upper end of the water feeding pipe 41 is located opposite to the upper outlet 61, and when the cover body assembly 60 performs the water feeding operation, the area of the opening 441 of the positioning pipe 44 is larger than that of the upper outlet 61, so that the water flow can be introduced into the water inlet 412, thereby increasing the water feeding efficiency. Moreover, the water receiving sealing ring 62 sleeved outside the upper outlet 61 and the positioning pipe 44 can provide sealing for the water adding pipe 41 during water adding operation, so as to prevent water from splashing. Because the cooking cup 10 adds cold water when adding water, if the cold water spills out from the water adding pipe 41 and enters the mixing bowl 20, the temperature will be reduced, the cooking time will be prolonged, and even the taste of the food will be affected.

Therefore, the opening 441 and the water receiving sealing ring 62 are arranged to prevent water from entering the mixing bowl 20 to soak food when flowing out from the cover assembly 60, so that the food processor 100 has a good cooking effect.

As shown in fig. 2, further, a stop rib 31 is disposed on the outer wall of the driving shaft 30 protruding from the supporting sleeve 50, the driving shaft 30 is inserted into the water feeding pipe 41 through the water outlet 411, the lower end of the water feeding pipe 41 is stopped against the stop rib 31, a side water outlet hole 413 is disposed on the pipe wall of the water feeding pipe 41, and at least a portion of the side water outlet hole 413 is higher than the driving shaft 30. Therefore, the stirring part 40 can be fixed by abutting the lower end of the water adding pipe 41 on the stop rib 31, so that the stirring part 40 is limited in the axial direction, and the stirring part 40 can run more stably when the food is stirred.

As shown in fig. 2-3, in some embodiments, the food processor 100 further comprises: the steaming bowl 90 is detachably arranged in the cooking cup 10, and at least the lower half part of the steaming bowl 90 has no hole. Therefore, the food can be steamed by the steaming bowl 90, and the function of the food processor 100 is enriched.

As shown in fig. 9-10, further, mixing bowl 20 includes: a first bowl bottom plate 23, a first inner ring plate 24, and a first outer ring plate 25. The steaming bowl 90 includes: a second bowl bottom plate 91, a second inner ring plate 92 and a second outer ring plate 93.

The first bowl bottom plate 23 is annular, the lower edge of the first inner ring plate 24 is connected to the inner edge of the first bowl bottom plate 23, and the lower edge of the first outer ring plate 25 is connected to the outer edge of the first bowl bottom plate 23.

The second bowl bottom plate 91 is annular, the lower edge of the second inner annular plate 92 is connected with the inner edge of the second bowl bottom plate 91, and the lower edge of the second outer annular plate 93 is connected with the outer edge of the second bowl bottom plate 91.

The second inner ring plate 92 is fitted around the first inner ring plate 24 with an annular gap therebetween, and the first outer ring plate 25 is fitted around the second outer ring plate 93. The bottom of the cooking cup 10 is provided with a driving shaft 30, the first inner ring plate 24 is sleeved outside the driving shaft 30, the stirring piece 40 is connected with the driving shaft 30, a part of the stirring piece 40 is fitted into the stirring bowl 20, and the upper end of the first inner ring plate 24 is lower than the upper end of the first outer ring plate 25. The upper outlet 61 of the cover assembly 60 is directly above the first inner annular plate 24.

Specifically, when the mixing bowl 90 is located in the food processing cup 10, the first outer ring plate 25 of the mixing bowl 20 is sleeved outside the second outer ring plate 93 of the mixing bowl 90, and the second inner ring plate 92 of the mixing bowl 90 is sleeved outside the first inner ring plate 24, that is, the mixing bowl 90 is located between the first inner ring plate 24 and the first outer ring plate 25 of the mixing bowl 20, and is overlapped on the first skirt edge 26 through the second skirt edge so as to be fixed in the mixing bowl 20. An annular gap is formed between the first inner annular plate 24 and the second inner annular plate 92, and when the bottom of the cooking cup 10 is heated, the generated steam can enter the mixing bowl 20 and the steaming bowl 90 through the annular gap to cook food.

Wherein, a part of the stirring element 40 is fitted into the stirring bowl 20 through the annular gap, that is, the stirring element 40 is sleeved outside the first inner annular plate 24 and can rotate in the annular gap. The stirring member 40 is connected to the driving shaft 30 and outputs power thereto through the driving shaft 30 to perform a stirring operation of the food.

The last export 61 of lid subassembly 60 is located first interior crown plate 24 top, when adding water for flourishing liquid cavity 12 through last export 61, rivers accessible first interior crown plate 24 gets into the flourishing liquid cavity 12 of cooking cup 10 in, can not cause the influence to the culinary art effect of the food in stirring bowl 20 and the steaming bowl 90 when adding water.

From this, evaporate bowl 90 and arrange in stirring bowl 20, after cooking cup 10 heats production steam, steam can get into stirring bowl 20 and evaporate bowl 90 through the annular space between second inner ring plate 92 and the first inner ring plate 24 to when realizing that cooking cup 10 boils, heat the food in stirring bowl 20 and the steaming bowl 90 through steam, thereby realize once cooking the purpose that realizes multiple culinary art effect, improve food processor 100's cooking efficiency.

Optionally, the steaming bowl 90 is detachably connected to the cooking cup 10 or the mixing bowl 20 by a second outer ring plate 93, and the upper end of the second inner ring plate 92 is lower than the upper end of the second outer ring plate 93. Alternatively, the second inner annular plate 92 may be removably attached to the cover assembly 60 with the upper end of the second outer annular plate 93 being lower than the upper end of the second inner annular plate 92. On the mixing bowl 20, the upper end of the first inner ring plate 24 is lower than the upper end of the first outer ring plate 25.

Specifically, the following scheme can be included:

scheme 1: the second outer ring plate 93 of the steaming bowl 90 is removably attached to either the food processing cup 10 or the mixing bowl 20. Before the user cooks through steaming bowl 90, will steam bowl 90 and put into cooking cup 10, steam bowl 90 can be connected fixedly with cooking cup 10 or stirring bowl 20, then will need to carry out the food that steams and put into steaming bowl 90, close lid body assembly 60 lid on cooking cup 10 in order to cook. After cooking is completed, the cover assembly 60 is opened to allow the food in the steaming bowl 90 to be taken out. When steaming bowl 90 steams food, because lid subassembly 60 lid closes on cooking cup 10, steaming bowl 90 and cooking cup 10 or stirring bowl 20 are fixed, lid subassembly 60 can restrict steaming bowl 90 in upper and lower direction to improve the stability of steaming bowl 90 in cooking cup 10. The first inner ring plate 24 of the mixing bowl 20 is lower than the upper end of the first outer ring plate 25.

The upper end of the second inner ring plate 92 is lower than the upper end of the second outer ring plate 93, so that the steam entering the mixing bowl 20 from the cooking cup 10 enters the steaming bowl 90 through the inner side of the second inner ring plate 92, and the food in the steaming bowl 90 is steamed. The upper end of the first inner ring plate 24 on the mixing bowl 20 is lower than the upper end of the first outer ring plate 25, so that space can be provided for steam to enter the mixing bowl 20, and the fluidity of the steam in the cooking cup 10 can be improved.

Scheme 2: the steaming bowl 90 is removably attached to the cover assembly 60. Before the user cooks through steaming bowl 90, put into steaming bowl 90 with the food that will steam, then will steam bowl 90 and lid body subassembly 60 and be connected, close on cooking cup 10 with lid body subassembly 60 again in order to cook food. After cooking is completed, the cover assembly 60 is opened, and the steaming bowl 90 is detached from the cover assembly 60 to take out the food. When the steaming bowl 90 steams food, the steaming bowl 90 is connected with the cover body assembly 60, and the cover body assembly 60 covers the cooking cup 10, so that the steaming bowl 90 can be prevented from shaking, and the stability of the steaming bowl 90 in the cooking cup 10 is improved. The first inner ring plate 24 of the mixing bowl 20 is lower than the upper end of the first outer ring plate 25.

And the upper end of the second outer ring plate 93 is lower than the upper end of the second inner ring plate 92, so that the steam entering the mixing bowl 20 from the cooking cup 10 enters the steaming bowl 90 through the outer side of the second outer ring plate 93, and the food in the steaming bowl 90 is steamed. The upper end of the first inner ring plate 24 on the mixing bowl 20 is lower than the upper end of the first outer ring plate 25, so that space can be provided for steam to enter the mixing bowl 20, and the fluidity of the steam in the cooking cup 10 can be improved.

Thereby, space is provided for steam to enter the mixing bowl 20 and the steaming bowl 90 for heating and steaming food.

In other embodiments, as shown in fig. 11-12, the rim of the mixing bowl 20 has a first skirt 26. The annular groove that circumference set up is equipped with to the wall inboard of cooking cup 10, and the annular groove is located cooking cup 10's top, and the bottom surface of annular constitutes first step 13. A clamping groove which is recessed downwards is arranged on part of the bottom surface of the ring groove, and the bottom surface of the clamping groove forms a second step 14. The first skirt 26 of the mixing bowl 20 rests on the second step 14. Therefore, the mixing bowl 20 can be supported by the matching of the first skirt edge 26 and the ring groove, and the stability of the mixing bowl 20 in the food processing cup 10 is increased.

Other components of the food processor 100, such as the control module and operation, according to embodiments of the present invention are known to those of ordinary skill in the art and will not be described in detail herein.

In the description herein, references to the description of the terms "embodiment," "example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (11)

1. A food processor, comprising:

the cooking cup (10), the upper end of the cooking cup (10) is provided with a cup opening (11);

the stirring bowl (20) is arranged in the cooking cup (10), and the stirring bowl (20) is provided with a shaft penetrating channel (21) which is vertically penetrated;

the driving shaft (30), the driving shaft (30) is arranged in the cooking cup (10), and the driving shaft (30) is arranged at the shaft penetrating channel (21) in a penetrating way;

the stirring piece (40) is connected with the driving shaft (30) and is rotatably arranged in the stirring bowl (20);

the supporting sleeve (50), the supporting sleeve (50) is positioned at the bottom of the cooking cup (10), the bottom of the stirring bowl (20) is abutted against the supporting sleeve (50), and the supporting sleeve (50) is sleeved on the outer side of the driving shaft (30);

the cover body assembly (60) can be covered on the cup opening (11) in an opening and closing mode through the cover body assembly (60).

2. The food processor of claim 1, further comprising: a bearing (70) located within the support sleeve (50), the bearing (70) cooperating with the drive shaft (30).

3. The food processor of claim 2, wherein the number of the bearings (70) is two, the two bearings (70) are vertically spaced apart from each other, a spacer tube (71) is sandwiched between the two bearings (70), a sealing sleeve (51) is further disposed in the support sleeve (50), the sealing sleeve (51) is located above the bearings (70), and the sealing sleeve (51) is sleeved on the driving shaft (30).

4. The food processor of claim 1, wherein the bottom of the mixing bowl (20) is formed with a positioning groove (22) surrounding the shaft penetrating channel (21), the top end of the positioning groove (22) is communicated with the shaft penetrating channel (21), the bottom end is open, and the top of the support sleeve (50) is clamped in the positioning groove (22).

5. The food processor of claim 4, wherein the support sleeve (50) is cylindrical and the top end of the support sleeve (50) is a square step from which the top end of the drive shaft (30) protrudes.

6. The food processor of claim 1, wherein the base of the cooking cup (10) forms a liquid holding chamber (12), the food processor (100) further comprising a heating assembly (80) for heating the liquid holding chamber (12);

an upper outlet (61) is formed in the bottom of the cover body assembly (60), and the upper outlet (61) is arranged right opposite to the shaft penetrating channel (21).

7. A food processor according to claim 6, wherein the stirring member (40) comprises:

the lower end of the water adding pipe (41) is a water outlet (411), the upper end of the water adding pipe (41) is a water inlet (412), the water adding pipe (41) extends into the shaft penetrating channel (21) from the top end of the shaft penetrating channel (21) and is connected with the driving shaft (30), and the water inlet (412) is over against the lower part of the upper outlet (61);

the tool rest (42) is sleeved outside the water feeding pipe (41), the upper end of the tool rest (42) is connected to the outer peripheral wall of the water feeding pipe (41), and when the stirring piece (40) is arranged in the stirring bowl (20), the shaft penetrating channel (21) is positioned between the tool rest (42) and the water feeding pipe (41);

a blade (43), the blade (43) being at least one piece, the blade (43) being attached to the peripheral wall of the blade holder (42).

8. The food processor of claim 7, wherein the stirring member (40) further comprises a positioning pipe (44) connected to an upper end of the water feeding pipe (41), an upper end of the positioning pipe (44) having an opening (441), the opening (441) having an area larger than the water inlet (412), the upper outlet (61);

the cover body assembly (60) further comprises a water receiving sealing ring (62), the upper outlet (61) and the outer side of the positioning pipe (44) are sleeved with the water receiving sealing ring (62), and the water receiving sealing ring (62) abuts against the upper end of the water adding pipe (41).

9. The food processor of claim 8, wherein a stop rib (31) is arranged on the outer wall of the driving shaft (30) protruding out of the support sleeve (50), the driving shaft (30) is inserted into the water feeding pipe (41) through the water outlet (411), the lower end of the water feeding pipe (41) is stopped against the stop rib (31), a side water outlet (413) is arranged on the pipe wall of the water feeding pipe (41), and the side water outlet (413) is at least partially higher than the driving shaft (30).

10. The food processor of claim 1,

the mixing bowl (20) comprises: the bowl bottom plate structure comprises a first bowl bottom plate (23), a first inner ring plate (24) and a first outer ring plate (25), wherein the first bowl bottom plate (23) is annular, the lower edge of the first inner ring plate (24) is connected with the inner edge of the first bowl bottom plate (23), the lower edge of the first outer ring plate (25) is connected with the outer edge of the first bowl bottom plate (23), and the part surrounded by the first inner ring plate (24) is the shaft penetrating channel (21);

the first inner ring plate (24) is sleeved outside the driving shaft (30), a part of the stirring piece (40) is matched into the stirring bowl (20), and the upper end of the first inner ring plate (24) is lower than the upper end of the first outer ring plate (25).

11. The food processor of claim 10, wherein the rim of the mixing bowl (20) has a first skirt (26);

a circumferential ring groove is formed in the inner side of the cup wall of the cooking cup (10), the ring groove is located at the top of the cooking cup (10), and the bottom surface of the ring groove forms a first step (13);

a clamping groove which is recessed downwards is arranged on part of the bottom surface of the ring groove, and the bottom surface of the clamping groove forms a second step (14);

the first skirt (26) of the mixing bowl (20) rests on the second step (14).

Images