CN114652180A - Food processor - Google Patents

Abstract

The present invention provides a food processor comprising: the grinding device comprises a body, a container, a driving piece, a transmission assembly and a grinding assembly, wherein the body is provided with an accommodating part; the container is arranged in the body, is positioned in the accommodating part and is used for accommodating food materials; the driving piece is arranged on the body; the transmission assembly is connected with the driving piece; the grinding assembly is connected with the transmission assembly, and the grinding assembly moves relative to the container under the driving of the transmission assembly so as to grind the food materials in the container. Through the grinding process of the grinding assembly, the food materials are ground into powder, mud, paste or paste, the fiber part in the food materials is not easily damaged in the grinding process, the cooked food materials are chewy, more cells can be broken in the grinding process, a large amount of colloid components are released by the broken cells, the taste of the food materials is further improved, and the use experience of a user on a food processor is facilitated.

Description

Food processor

Technical Field

The invention belongs to the technical field of food processing equipment, and particularly relates to a food processor.

Background

When the food processor cuts up food materials, fiber parts in the food materials are also cut up, so that the food materials are not chewy, the taste of the food materials is poor, and the use experience of a user on the food processor is reduced.

Disclosure of Invention

The present invention is directed to solving one of the technical problems of the prior art or the related art.

In view of the above, the present invention provides a food processor, comprising: a body provided with an accommodating part; the container is arranged in the body, is positioned in the accommodating part and is used for accommodating food materials; the driving piece is arranged on the body; the transmission assembly is connected with the driving piece; the grinding assembly is connected with the transmission assembly and driven by the transmission assembly to move relative to the container so as to grind the food materials in the container.

The present invention provides a food processor comprising: body, container, driving piece, drive assembly and grinding component are equipped with accommodation space in the portion of holding, eat the material and can place in the portion of holding, and the portion of holding of eating the material makes to eat material difficult everywhere of splashing. The driving piece can drive the transmission assembly to move, and then drives the grinding assembly to move through the transmission assembly, and the grinding assembly moves relative to the container, so that the grinding assembly grinds the food materials in the container. Through setting up drive assembly and grinding assembly and being connected, can rationally set up grinding assembly's position to and can change transmission mode through drive assembly, make the position distribution of each part in the food processor more reasonable.

Through grinding assembly's grinding process for eating the material and being ground into likepowder, mud form, paste or pastelike, the fibre part among the grinding process edible material is difficult for being destroyed, makes the edible material after the culinary art more chewy, and grinding process can make more cell fracture moreover, and a large amount of colloid composition are released to ruptured cell, further promotes the taste of eating the material, is favorable to promoting the user to experience the use of food processor.

The external force applied to the food material is generated by grinding or rolling, the meat grains and tissues slide and separate in the direction vertical to the rolling direction under the rolling action of the food material with larger volume, so that the meat grains and tissues with smaller volume are formed, and after multiple times of rolling, the cells in the fine meat grains and tissues can be broken and the intracellular tissues and flavor components are released.

The food material is placed on the container, on one hand, the grinding assembly applies pressure to the food material, and meanwhile, the food material is rolled; the surface of the grinding assembly and the container can have a linear velocity of relative motion, so that the food material is also subjected to shearing force between the surface of the grinding roller and the surface of the container while being rolled, and the separation between cell tissues is accelerated.

In addition, according to the food processor in the above technical solution provided by the present invention, the following additional technical features may also be provided:

in one possible design, the transmission assembly includes: the first transmission piece is connected with the driving piece and drives the grinding assembly to move relative to the side wall of the container.

In this design, the grinding component moves relative to the side wall of the container, so that the grinding component grinds the food materials between the grinding component and the side wall of the container, and the grinding component can grind the food materials at each position in the container in the moving process, thereby effectively improving the grinding effect of the food materials in the container.

In one possible design, the first transmission member includes: the first connecting piece is connected with the driving piece, and the axis of the first connecting piece is superposed with the axis of the output shaft of the driving piece; the second connecting piece is connected to the grinding assembly, and the first connecting piece can drive the second connecting piece to rotate so that the second connecting piece drives the grinding assembly to move relative to the side wall of the container.

In this design, the driving piece can be the motor, the output shaft of motor can drive the second connecting piece and rotate, the axis coincidence of the output shaft of second connecting piece and motor, first connecting piece is connected with the second connecting piece, and the axis of second connecting piece does not coincide with the axis of the output shaft of motor, thereby under the drive of first connecting piece, the second connecting piece can encircle first connecting piece and rotate, circular motion is to the second connecting piece promptly, make the second connecting piece drive the circumferential direction removal of the relative container of grinding component, grinding component offsets with each department lateral wall of container, thereby eat material to everywhere in the container and grind.

In one possible design, the transmission assembly further includes: the second transmission part is arranged on the body, the second transmission part limits a rotating area, and the second connecting part is located in the rotating area and rotates along the second transmission part so that the second connecting part drives the grinding assembly to rotate.

In this design, the manner of rotation of the grinding assembly is defined. Specifically, when the first connecting piece drives the second connecting piece to do circular motion, the second connecting piece rotates along the second transmission piece, in other words, the second transmission piece can limit the second connecting piece to do circular motion, so that the second connecting piece is required to rotate relative to the second transmission piece while doing circular motion, that is, the second connecting piece does circular motion and rotation simultaneously. The second connecting piece is connected in grinding assembly, and the second connecting piece can drive grinding assembly both to do circular motion relative to the lateral wall of container, also can drive grinding assembly rotation, and grinding assembly realizes the function of revolution and rotation simultaneously promptly. When the grinding assembly grinds the food in the container, the grinding assembly extrudes and grinds the food passing between the grinding assembly and the container.

In the grinding process, the rotation of the grinding assembly enables the food material to pass through the space between the grinding assembly and the container, specifically, the rotating grinding assembly can play a guiding role on the food material, so that the food material is guided into the space between the grinding assembly and the container, the grinding assembly can avoid the food material from being stacked on one side of the grinding assembly under the guiding role of the food material, and the grinding effect on the food material is improved.

In one possible design, the first connector includes: the plate body is fixed on the output shaft of the driving piece; the connecting hole is arranged on the plate body; the second connector includes: the connecting rod penetrates through the connecting hole and is connected with the grinding assembly; the first gear is arranged on the connecting rod; the second transmission part is a gear ring, and the first gear is meshed with the gear ring.

In this design, the plate body and the output shaft fixed connection of driving piece, specifically, first connecting piece can be by platelike structure, can set up two connecting holes at the plate body interval, and the output shaft of driving piece penetrates to in one of them connecting hole, and the output shaft and the connecting hole of driving piece are interference fit for the output shaft and the connecting hole of driving piece closely cooperate, and the output shaft and the plate body of driving piece can rotate in step, avoid the output shaft and the plate body relative rotation of driving piece. Another connecting hole is worn to locate by the connecting rod, and the connecting rod can be at the connecting hole internal rotation, and the connecting rod can plate body rotation relatively promptly. The output shaft of driving piece drives first connecting piece and rotates, and first connecting piece drives the connecting rod and is circumferential motion, and circumferential motion is also done to the first gear on the first connecting rod, and first gear meshes with the ring gear mutually, and when circumferential motion was done to first gear, the relative ring gear of first gear rotated, and first gear drives the connecting rod and rotates, and the connecting rod drives grinding component and both is circumferential motion, also can self rotate, effectively improves the grinding effect to eating the material.

In one possible design, the first connecting member is a second gear; the second connector includes: the connecting rod penetrates through the connecting hole and is connected with the grinding assembly; the third gear is arranged on the connecting rod; the second transmission part is a gear ring, and the third gear is meshed with the gear ring.

In this design, the output shaft fixed connection of second gear and driving piece, specifically, the output shaft of driving piece can be interference fit with the second gear, make the output shaft and the second gear of driving piece closely cooperate, the output shaft and the plate body of driving piece can rotate in step, avoid the output shaft and the plate body relative rotation of driving piece, also can set up the screw hole on the gear, then through a tight bolted connection in screw hole and butt in the output shaft of driving piece, make the difficult output shaft rotation of relative driving piece of second gear.

The second gear can drive the third gear and make circumferential motion, and the third gear meshes with the ring gear mutually, and when circumferential motion was done to the third gear, the relative ring gear of third gear rotated, and the third gear drives the connecting rod and rotates, and the connecting rod drives grinding component and both does circumferential motion, also can self rotate, effectively improves the grinding effect to eating the material.

In one possible design, the second connector and the grinding assembly are at least two.

In this design, the quantity of first connecting piece and grinding component can be one, two or a plurality of, and through the quantity that increases grinding component, can effectively improve the grinding speed to eating the material, shorten the user and wait to eat the time of material processing machine processing and eat the material, through improving the grinding speed to eating the material, food is difficult to appear the oxidation, is favorable to improving the taste of eating the material, and then improves the user and experiences the use of food processor.

In one possible design, the sidewall of one of the at least two abrasive assemblies abuts the sidewall of the remaining of the at least two abrasive assemblies.

In this design, for example when there are two grinding assemblies, the side walls of the two grinding assemblies abut each other, i.e. the grinding assemblies can abut against the side wall of the container and also oppose the side wall of the other grinding assembly. The food material is ground between the grinding assembly and the side wall of the container and also can be ground by the two grinding assemblies which are abutted against each other, so that the food material can pass through the two abutted grinding assemblies, the grinding of the food material at each position in the container is facilitated, and the grinding efficiency of the food material is improved.

In one possible design, the drive assembly is removably attached to the grinding assembly.

In this design, the manner of connection of the drive assembly and the grinding assembly is specifically defined. The container can be put in the containing part, the container can be placed in the containing part after food materials are placed in the container, and the container can be taken out of the containing part after the food material processing machine grinds the food materials, so that the food materials in the container can be taken out conveniently. When the container needs to be taken out, the transmission assembly can be detached from the grinding assembly, so that the interference of the transmission assembly on the taking-out process of the container is avoided, and the convenience of taking and placing the container by a user is improved. Specifically, a connecting rod in the transmission assembly is detachably connected with the container.

In one possible design, the food processor further comprises: the threaded part is arranged on the transmission assembly; the grinding assembly is arranged in the threaded hole, and the threaded portion can be in threaded connection with the threaded hole.

In this design, the screw thread portion on the drive assembly and the screw hole threaded connection on the grinding assembly can improve the dismouting convenience to drive assembly. Specifically, set up screw thread portion at the lower extreme of connecting rod, the connecting rod is opposite with connecting rod circumferential motion's direction for the unscrewing direction of screw hole, for example, the connecting rod is circumferential motion along clockwise, and the connecting rod is anticlockwise for the unscrewing direction of screw hole, so when circumferential motion is done to the connecting rod, the connecting rod has the trend of screwing with the screw hole, avoids connecting rod and grinding component separation, improves the stability of food processor during operation.

In one possible design, the grinding assembly is a grinding roller provided with a cavity, part of the transmission assembly is located in the cavity, and the transmission assembly is connected with the bottom wall of the cavity.

In the design, the grinding roller is of a hollow structure, so that the material consumption of the grinding roller is reduced, and the production cost can be reduced. Moreover, the grinding roller is of a hollow structure, so that the weight of the grinding roller is relatively strong, the weight of the whole food processor is further reduced, and the convenience of moving the food processor by a user is improved. The lower extreme of connecting rod is connected with the diapire of cavity, and specifically, the lower extreme of connecting rod is connected with the central point of cavity diapire to make the grinding roller can be stably along the lateral wall of container and be circumferential motion.

In one possible design, the body includes: a main body part; and a base connected to the main body part, wherein an accommodating part is formed between the main body part and the base.

In this design, driving piece and drive assembly can set up in the main part, and the main part is connected with the base for food processor is overall structure, and the user of being convenient for moves. The base can bear the container, and when the container received the effort, the container will act on the base with the effort for the container need not contact with user's furniture parts, thereby avoids the container to cause the damage to user's furniture parts, is favorable to improving the user and experiences the use of food processor.

In one possible design, the food processor further comprises: the base is located to the elastic component, and the container is located to the second end of elastic component.

In this design, the elastic component can promote the container for the container can offset with grinding assembly, so set up the elastic component between container and base, be for playing the cushioning effect to transmission assembly, when container and base rigid connection, when eating the clearance between material process grinding assembly and the container, the clearance increase between grinding assembly and the container lateral wall can cause the condition emergence that transmission assembly deflected, and the container causes transmission assembly card to die or damage. Set up the elastic component in the bottom of container, when eating the clearance between material process grinding component and the container for the container is promoted and is compressed the elastic component to one side of base, thereby avoids transmission assembly to take place to deflect, effectively reduces transmission assembly's spoilage.

In one possible design, the food processor further comprises: the positioning part is arranged on the base, the container can be assembled on the positioning part, and the elastic piece is arranged on the positioning part.

In this design, location portion can fix a position the container, and when assembling the container to location portion, the food processing subassembly can be suitable for the edible material to extrude in the container, does not need the user to adjust the position of container on the body, improves the assembly convenience to the container.

In one possible design, the positioning part is a groove body, and part of the container can be embedded in the groove body.

In this design, the constant head tank can fix a position the container, and when assembling the container to the constant head tank, the food processing subassembly can be suitable for the edible material to the container in and extrude, does not need the position of user adjustment container on the body, improves the assembly convenience to the container. Moreover, the constant head tank can carry on spacingly to the container, and when food material in the food processing subassembly extrusion container, the constant head tank is to the limiting displacement of container for the container is difficult for breaking away from the mounted position, makes food material in the food processing subassembly can the container steadily extrude, and the user need not frequently adjust the position of container, is favorable to improving the user and experiences the use of food processor.

The elastic piece is arranged in the groove body, so that the elastic piece is not easy to expose, and the attractiveness of the food processor is effectively improved.

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 shows one of the schematic structural views of a food processor of an embodiment of the present invention;

FIG. 2 shows a cross-sectional view in the direction A-A in FIG. 1;

FIG. 3 shows a second schematic structural view of a food processor of an embodiment of the present invention;

FIG. 4 shows a third block diagram of a food processor according to an embodiment of the present invention;

FIG. 5 shows a fourth schematic view of a food processor of an embodiment of the present invention;

FIG. 6 shows a fifth schematic view of the structure of the food processor of the embodiment of the present invention;

FIG. 7 shows a cross-sectional view in the direction B-B in FIG. 6;

FIG. 8 shows a sixth schematic view of the food processor of an embodiment of the present invention;

FIG. 9 shows a seventh structural schematic of the food processor of the embodiment of the present invention;

FIG. 10 shows an eighth schematic structural view of a food processor of an embodiment of the present invention;

FIG. 11 shows a ninth schematic structural diagram of a food processor of an embodiment of the present invention;

FIG. 12 shows a cross-sectional view in the direction C-C of FIG. 11;

FIG. 13 shows ten of the schematic structural views of the food processor of the embodiment of the present invention;

fig. 14 shows eleven schematic structural views of a food processor of an embodiment of the present invention.

Wherein, the correspondence between the reference numbers and the part names in fig. 1 to 14 is:

100 body, 110 containing part, 120 main part, 130 base, 131 positioning part, 200 container, 300 driving piece, 400 transmission component, 410 first transmission piece, 411 first connection piece, 412 second connection piece, 413 connection rod, 414 first gear, 415 third gear, 420 second transmission piece, 500 grinding component, 510 threaded hole, 600 elastic piece.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, a more particular description of the invention will be rendered by reference to the appended drawings. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

A food processor provided in accordance with some embodiments of the present invention is described below with reference to fig. 1-14.

The first embodiment is as follows:

referring to fig. 1, 2 and 3, an embodiment of the present invention provides a food processor including: the grinding machine comprises a body 100, a container 200, a driving member 300, a transmission assembly 400 and a grinding assembly 500, wherein the body 100 is provided with a containing part 110; the container 200 is arranged on the body 100, the container 200 is positioned in the accommodating part 110 and is used for accommodating food materials; the driving member 300 is disposed on the body 100; the transmission assembly 400 is connected with the driving member 300; the grinding assembly 500 is connected to the transmission assembly 400, and under the driving of the transmission assembly 400, the grinding assembly 500 moves relative to the container 200, so that the grinding assembly 500 grinds the food material in the container 200.

The accommodating space is arranged in the accommodating part 110, food materials can be placed in the accommodating part 110, and the accommodating effect of the accommodating part 110 on the food materials enables the food materials not to be splashed easily. The driving member 300 can drive the transmission assembly 400 to move, and then the transmission assembly 400 drives the grinding assembly 500 to move, and the grinding assembly 500 moves relative to the container 200, so that the grinding assembly 500 grinds the food material in the container 200. Through setting up drive assembly 400 and being connected with grinding assembly 500, can rationally set up grinding assembly 500's position to and can change transmission mode through drive assembly 400, make the position distribution of each part in the food processor more reasonable.

Through grinding assembly 500's grinding process for eating the material and being ground into likepowder, muddy, paste or pasty, the fibre part among the grinding process eating the material is difficult for being destroyed, makes the edible material after the culinary art more chewy, and grinding process can make more cell fracture moreover, and a large amount of colloid composition are released to the cell of fracture, further promotes the taste of eating the material, is favorable to promoting the user to experience the use of food processor.

The external force applied to the food material is generated by grinding or rolling, the meat grains and tissues slide and separate in the direction vertical to the rolling direction under the rolling action of the food material with larger volume, so that the meat grains and tissues with smaller volume are formed, and after multiple times of rolling, the cells in the fine meat grains and tissues can be broken and the intracellular tissues and flavor components are released.

The food material is placed on the container 200, on one hand, the grinding assembly 500 applies pressure to the food material while rolling the food material; wherein there may be a linear velocity of relative motion between the surface of the grinding assembly 500 and the container 200, such that the food material is rolled while being subjected to a shearing force between the surface of the roller and the surface of the container 200, thereby accelerating the separation between the cellular tissues.

The food processor makes the large-sized flaky or blocky food materials gradually become muddy, pasty or pasty through the action of external force. The particle diameter of the non-fiber part of the food materials in the pasty or pasty food materials is not more than 1.5 mm; whereas for the fiber fraction food material, the median fiber length reduction was less than 65% compared to the pre-treated food material.

The food material changes the granularity and the fiber length under the action of external force, and the action of the external force comprises a shearing force and a friction force besides the action of pressure in a common form.

The food processor mechanically acts on the food materials through external force, so that the food materials are broken and separated into small-volume particles from blocks or slices with larger volume, the cells of the food materials are further broken under the action force to release tissues and flavor components in the cells, a large amount of colloid components can be released, and meanwhile, the fiber components of the food materials are less damaged in the processing process, so that the meat balls made by using the food processor in the embodiment have the characteristics of strength and good elasticity.

As shown in fig. 1, 2 and 5, further, the transmission assembly 400 includes: the first transmission member 410, the first transmission member 410 is connected to the driving member 300, and the first transmission member 410 drives the grinding assembly 500 to move relative to the sidewall of the container 200.

The grinding assembly 500 moves relative to the side wall of the container 200, so that the grinding assembly 500 grinds the food material between the grinding assembly 500 and the side wall of the container 200, and in the moving process of the grinding assembly 500, the grinding assembly 500 can grind the food material at each position in the container 200, thereby effectively improving the grinding effect of the food material in the container 200.

As shown in fig. 1, 2 and 5, further, the first transmission member 410 includes: a first connecting piece 411 and a second connecting piece 412, wherein the first connecting piece 411 is connected with the driving piece 300, and the axis of the first connecting piece 411 is coincident with the axis of the output shaft of the driving piece 300; the second connecting member 412 is connected to the polishing assembly 500, and the first connecting member 411 can drive the second connecting member 412 to rotate, so that the second connecting member 412 drives the polishing assembly 500 to move relative to the sidewall of the container 200.

The driving member 300 can be a motor, the output shaft of the motor can drive the second connecting member 412 to rotate, the axis of the output shaft of the second connecting member 412 and the motor coincides, the first connecting member 411 is connected with the second connecting member 412, and the axis of the second connecting member 412 does not coincide with the axis of the output shaft of the motor, thereby under the driving of the first connecting member 411, the second connecting member 412 can rotate around the first connecting member 411, that is, the second connecting member 412 does circular motion, so that the second connecting member 412 drives the grinding assembly 500 to move circumferentially relative to the container 200, the grinding assembly 500 abuts against the side walls of the container 200, thereby grinding the food materials in the container 200.

The second embodiment:

as shown in connection with fig. 1, 2 and 5, the transmission assembly 400 includes: the first transmission member 410, the first transmission member 410 is connected to the driving member 300, and the first transmission member 410 drives the grinding assembly 500 to move relative to the sidewall of the container 200.

The first transmission member 410 includes: a first connecting piece 411 and a second connecting piece 412, wherein the first connecting piece 411 is connected with the driving piece 300, and the axis of the first connecting piece 411 is coincident with the axis of the output shaft of the driving piece 300; the second connecting member 412 is connected to the polishing assembly 500, and the first connecting member 411 can drive the second connecting member 412 to rotate, so that the second connecting member 412 drives the polishing assembly 500 to move relative to the sidewall of the container 200.

The transmission assembly 400 further includes: the second transmission member 420 is disposed on the body 100, the second transmission member 420 defines a rotation area, and the second connecting member 412 is located in the rotation area and rotates along the second transmission member 420, so that the second connecting member 412 drives the grinding assembly 500 to rotate.

In this embodiment, the manner of rotation of the grinding assembly 500 is defined. Specifically, when the first connecting element 411 drives the second connecting element 412 to perform a circular motion, the second connecting element 412 rotates along the second transmission element 420, in other words, the second transmission element 420 can limit the second connecting element 412 to perform a circular motion, so that the second connecting element 412 needs to rotate relative to the second transmission element 420 while performing a circular motion, that is, the second connecting element 412 performs a circular motion and self-rotation simultaneously. The second connecting member 412 is connected to the grinding assembly 500, and the second connecting member 412 can drive the grinding assembly 500 to perform a circular motion relative to the sidewall of the container 200 and also can drive the grinding assembly 500 to rotate, i.e., the grinding assembly 500 can simultaneously perform the revolution and rotation functions. When the grinding assembly 500 grinds the food material in the container 200, the grinding assembly 500 squeezes and grinds the food material passing between the grinding assembly 500 and the container 200.

In the grinding process, the rotation of the grinding assembly 500 enables the food material to pass through the space between the grinding assembly 500 and the container 200, specifically, the rotating grinding assembly 500 can guide the food material, so that the food material is guided into the space between the grinding assembly 500 and the container 200, the guide effect of the grinding assembly 500 on the food material can prevent the food material from being accumulated on one side of the grinding assembly 500, and the grinding effect on the food material is improved.

As shown in fig. 1, 5, 6, 7, 8, and 9, in one embodiment, the first connector 411 includes: a plate body fixed to an output shaft of the driving member 300 and a connection hole; the connecting hole is arranged on the plate body; the second connector 412 includes: the connecting rod 413 and the first gear 414, the connecting rod 413 is arranged in the connecting hole in a penetrating way, and the connecting rod 413 is connected to the grinding assembly 500; the first gear 414 is provided on the connecting rod 413; second transmission 420 is a ring gear with which first gear 414 meshes.

In this embodiment, the plate body is fixedly connected to the output shaft of the driving member 300, specifically, the first connecting member 411 may be a plate-shaped structure, two connecting holes may be disposed at an interval on the plate body, the output shaft of the driving member 300 penetrates into one of the connecting holes, the output shaft of the driving member 300 is in interference fit with the connecting holes, so that the output shaft of the driving member 300 is tightly fitted with the connecting holes, the output shaft of the driving member 300 and the plate body can rotate synchronously, and the output shaft of the driving member 300 and the plate body are prevented from rotating relatively. The connecting rod 413 penetrates through another connecting hole, and the connecting rod 413 can rotate in the connecting hole, namely the connecting rod 413 can rotate relative to the plate body. The output shaft of driving piece 300 drives first connecting piece 411 and rotates, first connecting piece 411 drives connecting rod 413 and does circumferential motion, first gear 414 on first connecting rod 413 also does circumferential motion, first gear 414 meshes with the ring gear mutually, when circumferential motion is done at first gear 414, the relative ring gear of first gear 414 rotates, first gear 414 drives connecting rod 413 and rotates, connecting rod 413 drives grinding component 500 both to do circumferential motion, also can self-rotation, effectively improve the grinding effect to eating the material.

As shown in fig. 11, 12, 13 and 14, in another embodiment, the first connecting member 411 is a second gear; the second connector 412 includes: a connecting rod 413 and a third gear 415, wherein the connecting rod 413 is arranged in the connecting hole in a penetrating manner, and the connecting rod 413 is connected to the grinding assembly 500; the third gear 415 is provided on the connection rod 413; second gear 420 is a ring gear and third gear 415 is in mesh with the ring gear.

In this embodiment, the second gear is fixedly connected to the output shaft of the driving member 300, specifically, the output shaft of the driving member 300 and the second gear are in interference fit, so that the output shaft of the driving member 300 and the second gear are tightly fitted, the output shaft of the driving member 300 and the plate body can synchronously rotate, the output shaft of the driving member 300 and the plate body are prevented from rotating relatively, a threaded hole 510 can also be formed in the gear, and then the second gear is connected to the threaded hole 510 through a tightening bolt and abuts against the output shaft of the driving member 300, so that the second gear is not easy to rotate relatively to the output shaft of the driving member 300.

The second gear can drive third gear 415 and be circumferential motion, and third gear 415 meshes with the ring gear mutually, and when third gear 415 was circumferential motion, the relative ring gear of third gear 415 rotated, and third gear 415 drives connecting rod 413 and rotates, and connecting rod 413 drives grinding component 500 both to be circumferential motion, also can self rotate, effectively improves the grinding effect to eating the material.

Example three:

in the above embodiment, as shown in fig. 10 and 14, the number of the second connecting member 412 and the grinding assembly 500 is at least two.

In this embodiment, the number of the first connecting part 411 and the grinding assembly 500 can be one, two or more, by increasing the number of the grinding assembly 500, the grinding speed of the food material can be effectively increased, the time for the user to wait for the food material processing machine to process the food material is shortened, and by increasing the grinding speed of the food material, the food is not easy to oxidize, which is beneficial to improving the taste of the food material, and further, the use experience of the user on the food processing machine is improved.

Further, the sidewall of one of the at least two grinding assemblies 500 abuts the sidewall of the remaining grinding assemblies 500 of the at least two grinding assemblies 500.

For example, when there are two grinder assemblies 500, the sidewalls of the two grinder assemblies 500 abut each other, i.e., the grinder assemblies 500 can abut the sidewalls of the container 200 and also oppose the sidewalls of the other grinder assembly 500. The food materials are ground between the grinding assemblies 500 and the side wall of the container 200 and also ground by the two offset grinding assemblies 500, so that the food materials can pass through the two offset grinding assemblies 500, the food materials at all positions in the container 200 can be ground, and the grinding efficiency of the food materials is improved.

Example four:

in the embodiment described above, and as shown in conjunction with fig. 5 and 7, the drive assembly 400 is removably coupled to the grinding assembly 500.

In this embodiment, the manner in which the drive assembly 400 and the grinding assembly 500 are coupled is specifically defined. The container 200 can be placed in the accommodating portion 110, the container 200 can be placed in the accommodating portion 110 after the food material is placed in the container 200, and the container 200 can be taken out of the accommodating portion 110 after the food material processor grinds the food material, so that the food material in the container 200 can be taken out conveniently. When the container 200 needs to be taken out, the transmission assembly 400 can be firstly detached from the grinding assembly 500, so that the interference of the transmission assembly 400 on the taking-out process of the container 200 is avoided, and the convenience for a user to take and place the container 200 is improved. Specifically, the connection rod 413 provided in the driving assembly 400 is detachably connected to the container 200.

As shown in fig. 5 and 7, further, the food processor further includes: a threaded portion and a threaded hole 510, the threaded portion being provided in the transmission assembly 400; threaded aperture 510 is provided in grinding assembly 500, and the threaded portion is threadably engaged with threaded aperture 510.

The threaded portion on the transmission assembly 400 is in threaded connection with the threaded hole 510 on the grinding assembly 500, so that the convenience of assembling and disassembling the transmission assembly 400 can be improved. Specifically, a threaded portion is provided at the lower end of the connecting rod 413, and the loosening direction of the connecting rod 413 relative to the threaded hole 510 is opposite to the circumferential movement direction of the connecting rod 413, for example, the connecting rod 413 moves circumferentially clockwise, and the loosening direction of the connecting rod 413 relative to the threaded hole 510 is counterclockwise, so that when the connecting rod 413 moves circumferentially, the connecting rod 413 and the threaded hole 510 tend to be screwed, the connecting rod 413 is prevented from being separated from the grinding assembly 500, and the stability of the food processor during operation is improved.

As shown in fig. 5 and 7, further, the grinding assembly 500 is a grinding roller, the grinding roller is provided with a cavity, a part of the transmission assembly 400 is located in the cavity, and the transmission assembly 400 is connected to the bottom wall of the cavity.

The grinding roller is of a hollow structure, so that the material consumption of the grinding roller is reduced, and the production cost can be reduced. Moreover, the grinding roller is of a hollow structure, so that the weight of the grinding roller is relatively strong, the weight of the whole food processor is further reduced, and the convenience of moving the food processor by a user is improved. The lower end of the connection rod 413 is connected to the bottom wall of the chamber, and particularly, the lower end of the connection rod 413 is connected to the central position of the bottom wall of the chamber, so that the grinding roller can stably move circumferentially along the side wall of the container 200.

Example five:

as shown in fig. 1, 2 and 4, in the above embodiment, the body 100 includes: the base 130 is connected to the body 120, and the accommodating portion 110 is formed between the body 120 and the base 130.

The driving member 300 and the transmission assembly 400 can be disposed on the main body 120, and the main body 120 is connected to the base 130, so that the food processor has an integral structure and is convenient for a user to move. The base 130 can bear the weight of the container 200, and when the container 200 receives acting force, the container 200 will act on the base 130 with the acting force, so that the container 200 does not need to contact with furniture parts of a user, thereby avoiding the container 200 from damaging the furniture parts of the user, and being beneficial to improving the use experience of the user on the food processor.

Specifically, the base 130 is detachably connected to the body part 120.

Specifically, the connection between the base 130 and the main body 120 is limited, and the user needs to take the container 200 out of the accommodating portion in order to conveniently take the processed food out of the container 200. When the grinding assembly 500 interferes with the process of taking out the container 200, the base 130 can be detached from the main body 120, so that the grinding assembly 500 and the container 200 can be conveniently separated, interference of the grinding assembly 500 with the process of taking out the container 200 is avoided, and a user can take out the container 200 and take out the food materials in the container 200.

Base 130 can be dismantled in main part 120, and the user of being convenient for clears up the food processor, and the user of also being convenient for accomodates the food processor, is favorable to improving the user and experiences the use of food processor.

Can lock base 130 in main part 120 through the screw, set up the through-hole on base 130, main part 120 sets up the screw hole, and the screw passes through the through-hole on base 130 and connects in the screw hole on main part 120 to be fixed in main part 120 with base 130, be convenient for realize carrying out the dismouting to main part 120 and base 130 through threaded connection's mode.

Further, the body portion 120 includes: the equipment comprises an equipment part and a bearing part, wherein the bearing part is arranged at the first end of the equipment part and is connected with a base 130, and an accommodating part is arranged between the second end of the equipment part and the base 130.

The equipment part is internally provided with an installation space, the driving assembly and the food processing assembly 400 can be positioned in the installation space, the upper part of the bearing part is connected with the first end of the equipment part, the lower part of the bearing part is connected with the base 130, and the equipment part and the base 130 are connected through the bearing part, so that the food processor is of an integral structure, and the parts are not easy to separate.

Specifically, if both ends of the device portion are connected to the base 130 through the carrying portions, the size of the food processor is large, the user is not convenient to store the food processor, and the carrying process of the user to the food processor is laborious due to the fact that the carrying portions are added to increase the weight of the food processor. Therefore, the bearing part can be arranged on one side of the equipment part, the size of the food processor is reduced, the weight of the food processor is not easy to increase, and the food processor is convenient to move by a user.

The bearing part is of a hollow structure, so that the weight of the whole food processor can be further reduced.

As shown in fig. 7 and 10, the food processor further includes: the elastic member 600, a first end of the elastic member 600 is disposed on the base 130, and a second end of the elastic member 600 is disposed on the container 200.

The elastic member 600 can push the container 200, so that the container 200 can abut against the grinding assembly 500, and the elastic member 600 is arranged between the container 200 and the base 130 to buffer the transmission assembly 400, when the container 200 is rigidly connected with the base 130 and food passes through a gap between the grinding assembly 500 and the container 200, the gap between the grinding assembly 500 and the side wall of the container 200 is increased, the transmission assembly 400 can deflect, and the container 200 can cause the transmission assembly 400 to be jammed or damaged. The elastic member 600 is disposed at the bottom of the container 200, so that when the food material passes through the gap between the grinding assembly 500 and the container 200, the container 200 is pushed toward one side of the base 130 and compresses the elastic member 600, thereby preventing the transmission assembly 400 from deflecting and effectively reducing the damage rate of the transmission assembly 400.

As shown in fig. 10, further, the food processor further includes: the positioning portion 131, the positioning portion 131 is provided on the base 130, the container 200 can be assembled to the positioning portion 131, and the elastic member 600 is provided on the positioning portion 131.

The positioning part 131 can position the container 200, and when the container 200 is assembled to the positioning part 131, the food processing assembly can be suitable for squeezing food materials in the container 200, so that a user does not need to adjust the position of the container 200 on the body 100, and the assembly convenience of the container 200 is improved.

Further, the positioning part 131 is a groove body into which the partial container 200 can be inserted.

The constant head tank can be fixed a position container 200, and when assembling container 200 to the constant head tank, the food processing subassembly can be suitable for the edible material to the container 200 and extrude, does not need the user to adjust the position of container 200 on body 100, improves the assembly convenience to container 200. Moreover, the constant head tank can carry on spacingly to container 200, and when the edible material in the food processing subassembly extrusion container 200, the constant head tank is to container 200's limiting displacement for container 200 is difficult for breaking away from the assembled position, makes the edible material in the food processing subassembly can container 200 extrude steadily, and the user need not frequently adjust the position of container 200, is favorable to improving the user and experiences the use of food processor.

The elastic member 600 is disposed in the groove body, so that the elastic member 600 is not easily exposed, and the aesthetic degree of the food processor is effectively improved.

The specific embodiment is as follows:

the food processor in this embodiment is a device for repeatedly crushing food materials by using a grinding roller, and at least comprises a grinding roller for applying crushing action to food materials, at least one transmission assembly 400 for driving the grinding roller to rotate, and a container 200 for containing food materials, wherein the grinding roller is connected with a driving member 300 through the transmission assembly 400, so as to realize the rotation of the grinding roller, and further realize the crushing of the food materials.

The roller rotates around the axis of the container 200 and also rotates around the axis of the roller.

The grinding assembly 500 is matched with the container 200, so that the surface of the grinding roller is tightly attached to the container 200, and the food in the container 200 is repeatedly ground; on the other hand, the grinding rollers can rotate around the axes, so that the outer surfaces of the grinding rollers and the inner surface of the container 200 form relative motion, the food is subjected to the shearing force formed by the outer surfaces of the grinding rollers and the inner surface of the container 200, and the separation of the cell tissues of the food is accelerated.

The driving member 300 may include both a motor and a speed reducing mechanism.

In one embodiment, the driving member 300 is connected to the plate-shaped first connecting member 411 and drives the second connecting member 412 to rotate, and the gear of the second connecting member 412 is engaged with the gear ring, so that when the connecting rod 413 rotates, the other gear will simultaneously rotate in the gear ring and rotate around the axis of the first connecting member 411, and further, the gear drives the grinding roller to rotate and revolve.

In another embodiment, the first connecting member 411 is provided as a gear, and the motor drives the gear to rotate, and the gear on the connecting rod 413 rotates while rotating around the rotation center of the gear on the output shaft of the motor.

On one hand, the grinding roller is tightly attached to the inner wall of the container 200, so that the food materials are directly rolled on the grinding roller and the inner wall of the container 200; on the other hand, when the two grinding rollers are arranged, the surfaces of the two grinding rollers are attached tightly, so that the food materials can be rolled between the grinding rollers; and, by the pressing pressure between the grinding roller and the grinding roller, a large reaction force between the grinding roller and the inner wall of the container 200 can be overcome, thereby reducing the stress of the connection rod 413 between the gear and the grinding roller.

The food processor further comprises an elastic member 600 disposed between the bottom of the container 200 and the base 130, the elastic member 600 is a compression spring, the elastic member 600 is used for elastically supporting the bottom of the container 200, and the elastic member 600 provides a pre-pressure to the bottom of the container 200, so that after the container 200 is cushioned by the food material between the grinding roller and the container 200, the container 200 obtains a small downward moving space by compressing the elastic member 600, thereby preventing rigid contact from being jammed.

On one hand, the gears do autorotation motion around the respective axes and do revolution motion around the axes of the central wheel; by adopting the transmission mode, a smaller transmission ratio can be obtained, so that the motor is decelerated, and the torque is increased.

In the food processor of the embodiment, the driving member 300 drives one or more grinding rollers to rotate and revolve, and the grinding rollers and the inner wall of the container 200 grind food materials; by pressing and kneading the large-area surface of the grinding roller with the inner wall of the container 200, the fiber structure of the food material is less damaged, but the non-fiber part of the food material can be effectively separated and broken.

The food processor can make the large-volume flaky or blocky food materials gradually become into a mud, paste or paste state under the action of external force. The particle diameter of the non-fiber part of the food materials in the pasty or pasty food materials is not more than 1.5 mm; and wherein the median fiber length reduction for the fiber portion food material is less than 65% compared to the food material before treatment.

The food material changes the granularity and the fiber length under the action of external force, and the action of the external force comprises a shearing force and a friction force besides the action of pressure in a common form.

The food processor mechanically acts on the food materials through external force, so that the food materials are broken and separated into small-volume particles from blocks or slices with larger volume, the cells of the food materials are further broken under the action force to release tissues and flavor components in the cells, a large amount of colloid components can be released, and meanwhile, the fiber components of the food materials are less damaged in the processing process, so that the meat balls made by using the food processor in the embodiment have the characteristics of strength and good elasticity; the mashed garlic and mashed shrimp made by the food processor in the embodiment have the characteristics of fine and smooth appearance, strong flavor and durability, so that the mouthfeel and edible value of food materials are improved to the maximum extent.

In the present invention, the term "plurality" means two or more unless explicitly defined otherwise. The terms "mounted," "connected," "fixed," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a removable connection, or an integral connection; "coupled" may be direct or indirect through an intermediary. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

The embodiments described in the above embodiments are only some of the embodiments of the present invention, and not all of them. All other embodiments, which can be derived by a person skilled in the art from these embodiments without inventive step, are within the scope of the present invention. Although the present invention has been described in detail with reference to the above embodiments, those skilled in the art may still make various combinations, additions, deletions or other modifications of the features of the embodiments of the present invention according to the situation without conflict, so as to obtain different technical solutions without substantially departing from the spirit of the present invention, and these technical solutions also fall within the protection scope of the present invention.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

In the description herein, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means 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.

Claims (15)

1. A food processor, comprising:

a body provided with an accommodating part;

the container is arranged in the body, is positioned in the accommodating part and is used for accommodating food materials;

the driving piece is arranged on the body;

the transmission assembly is connected with the driving piece;

the grinding assembly is connected with the transmission assembly, and driven by the transmission assembly, the grinding assembly moves relative to the container so as to grind the food materials in the container.

2. The food processor of claim 1, wherein the transmission assembly comprises:

the first transmission piece is connected with the driving piece and drives the grinding assembly to move relative to the side wall of the container.

3. The food processor of claim 2, wherein the first transmission member includes:

the first connecting piece is connected with the driving piece, and the axis of the first connecting piece is superposed with the axis of the output shaft of the driving piece;

the first connecting piece can drive the second connecting piece to rotate, so that the second connecting piece drives the grinding assembly to move relative to the side wall of the container.

4. The food processor of claim 3, wherein the transmission assembly further comprises:

the second transmission part is arranged on the body, a rotating area is limited by the second transmission part, and the second connecting part is positioned in the rotating area and rotates along the second transmission part so as to drive the grinding assembly to rotate.

5. The food processor of claim 4, wherein the first connector includes:

a plate fixed to an output shaft of the driving member;

the connecting hole is arranged on the plate body;

the second connector includes:

the connecting rod penetrates through the connecting hole and is connected with the grinding assembly;

the first gear is arranged on the connecting rod;

the second transmission part is a gear ring, and the first gear is meshed with the gear ring.

6. The food processor of claim 4,

the first connecting piece is a second gear;

the second connector includes:

the connecting rod penetrates through the connecting hole and is connected with the grinding assembly;

the third gear is arranged on the connecting rod;

the second transmission part is a gear ring, and the third gear is meshed with the gear ring.

7. The food processor of claim 3,

the second connecting piece and the grinding assembly are at least two.

8. The food processor of claim 7,

the side wall of one grinding assembly in at least two grinding assemblies is abutted against the side wall of the rest of the at least two grinding assemblies.

9. The food processor of claim 1,

the transmission assembly is detachably connected to the grinding assembly.

10. The food processor of claim 1, further comprising:

the threaded part is arranged on the transmission assembly;

the threaded hole is formed in the grinding assembly, and the threaded portion can be in threaded connection with the threaded hole.

11. The food processor of claim 1,

the grinding assembly is a grinding roller, the grinding roller is provided with a cavity, part of the transmission assembly is located in the cavity, and the transmission assembly is connected with the bottom wall of the cavity.

12. The food processor of claim 1, wherein the body comprises:

a main body portion;

and a base connected to the main body, wherein the accommodating portion is formed between the main body and the base.

13. The food processor of claim 12, further comprising:

the first end of the elastic piece is arranged on the base, and the second end of the elastic piece is arranged on the container.

14. The food processor of claim 13, further comprising:

a positioning portion provided on the base, the container being capable of being assembled to the positioning portion.

15. The food processor of claim 14,

the positioning part is a groove body.

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