CN214387258U - Food processor - Google Patents

Abstract

An embodiment of the utility model provides a food processor, food processor includes: the food container comprises a body and a container, wherein the container can be taken and placed in the body and is used for containing food materials; the food processing assembly is arranged on the body and can process food materials in a moving way; a sealing assembly sealingly closed over the open end of the container. Through set up seal assembly on the open end at the container, be about to eat the export of material and external contact sealed to can seal fresh-keeping, promote user's use experience to eating the material after eating the material processing procedure and eating the material processing and accomplishing.

Description

Food processor

Technical Field

The embodiment of the utility model relates to a food processing equipment technical field particularly, relates to a food processor.

Background

At present, food processing apparatus among the prior art utilizes the device of beating to beat the edible material and beat in order to make into filling material etc. with edible material, if the user need not be right to the filling material culinary art edible immediately, then need put into the refrigerator with the filling material and keep fresh, however, filling material preparation completion back needs the user in time to keep fresh, consequently, when food processing apparatus handles edible material, needs the edible material such as user to handle and accomplish and put into the refrigerator and can handle other things after preserving, reduces user's use and experiences.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model aims at solving one of the technical problem that exists among the prior art at least.

To this end, a first aspect of an embodiment of the present invention provides a food processor.

In view of this, according to the first aspect of the embodiments of the present invention, there is provided a food processor, which includes a body, a container, a food processing assembly and a sealing assembly, wherein the container can be taken and placed in the body, the container is used for containing food materials, the food processing assembly is disposed in the body, the food processing assembly can movably process the food materials, and the sealing assembly is hermetically covered on the open end of the container.

The embodiment of the utility model provides a food processor includes body, container, food processing subassembly and seal assembly, particularly, the container is used for holding edible material, and the container can get to put on the body, that is to say, when eating the material and wait to process the processing, wait to process to eat the material and place in the container, food processing subassembly is waited to process to eat the material and is processed to accomplish the back at the processing, the container can be followed this internal extraction, thereby when handling edible material, be convenient for get before edible material processing and processing after getting. The food processing assembly is arranged on the body and can movably process food materials in the container, so that the food materials are processed. Further, the food processor also comprises a sealing assembly, specifically, the sealing assembly can be hermetically covered on the open end of the container, that is, in the hammering processing process of the food processing assembly on the food material, the food material is sealed in the container by the sealing assembly, so that the external air cannot enter the container, the oxidation problem in the food material processing process can be reduced, and the purpose of keeping the food material fresh is achieved. In addition, after the food processing assembly finishes processing the food materials, if the user does not perform subsequent processing on the food materials temporarily, the food materials do not need to be taken out of the container and put into a refrigerator, and fresh keeping can be achieved. Many times, the user handles to eat the material and accomplishes the back, can not carry out subsequent processing to eating the material immediately, then can take out to eat the material and put into the refrigerator and keep fresh from the container, perhaps the user opens food processing apparatus before leaving home and eats the material processing, go out to go back and carry out subsequent processing, then can't keep fresh to eating the material at this in-process, through setting up seal assembly on the opening end at the container, it is sealed with the export of external contact to be about to eat the material, thereby can be eating material processing procedure and eat material processing and accomplish the back and seal fresh-keeping to eating the material, promote user's use and experience.

In addition, according to the utility model discloses above-mentioned technical scheme provides a food processor still has following additional technical characterstic:

in one possible design, the sealing assembly includes a first mounting hole through which the food processing assembly can process the food material.

In the design, the sealing assembly is limited to comprise the first mounting hole, and specifically, the food processing assembly passes through the first mounting hole to process the food material, so that the aim of keeping the food material fresh in the process of processing the food material by the food processing assembly is fulfilled. In detail, first mounting hole is seted up to the position that corresponds food processing assembly on seal assembly, specifically, food processing assembly includes the connecting piece and beats the piece, and the connecting rod passes first mounting hole and seal assembly sealing connection, beats the piece promptly and is sealed in the container to beat the piece and beat the in-process of handling to eating the material, seal assembly seals all the time and establishes on the container, and then realizes eating the material and keep fresh at the in-process of handling, further promotes user's use and experiences.

In one possible design, the sealing assembly and the container enclose a sealed cavity, and the food processor further comprises an air extraction assembly, wherein the air extraction assembly is communicated with the sealed cavity and is used for extracting air in the sealed cavity.

In this design, it still includes the subassembly of bleeding to have injectd food processor, particularly, the sealed lid of seal assembly is established on the open end of container to make and form a sealed chamber between seal assembly and the container, wherein, the subassembly and the sealed chamber intercommunication of bleeding, and the subassembly of bleeding can take out the air of sealed intracavity, thereby makes the sealed intracavity form the vacuum, further keeps fresh to eating the material. In addition, the air exhaust assembly can be opened manually or automatically, in detail, if the food processing assembly finishes processing the food materials, a user immediately carries out subsequent processing on the food materials, the air exhaust assembly does not need to be opened to carry out vacuum pumping processing on the sealed cavity, if the user goes out after the food processing machine is opened to process the food materials, and then the food materials processed by the food processing machine are subjected to subsequent processing after the food materials are returned, the air in the sealed cavity is exhausted by automatically opening the air exhaust assembly after the food processing assembly finishes processing the food materials, so that vacuum preservation is realized, different requirements of the user are further met, and the user experience is improved.

In one possible design, the sealing assembly further comprises a second mounting hole, and the air exhaust assembly is communicated with the sealing cavity through the second mounting hole.

In this design, it still includes the second mounting hole to have injectd seal assembly, particularly, the subassembly of bleeding is through second mounting hole and sealed chamber intercommunication, and then makes the subassembly of bleeding carry out evacuation processing through the second mounting hole to sealed chamber, and then realizes that the vacuum of eating the material is fresh-keeping.

In a possible design, the air exhaust assembly further comprises an air exhaust pump and an air exhaust channel, wherein one end of the air exhaust channel is hermetically connected with the air exhaust pump, and the other end of the air exhaust channel is communicated with the sealed cavity.

In this design, inject the concrete structure of subassembly of bleeding, particularly, the subassembly of bleeding includes aspiration pump and pumping channel, and aspiration pump and sealed chamber are connected respectively to pumping channel's both ends, open the aspiration pump, then bleed air through the air that pumping channel will seal the intracavity, realize eating the fresh-keeping of material.

In one possible embodiment, the air extraction assembly further comprises an exhaust channel, which is connected to the outlet of the air extraction pump for exhausting air, and a noise reduction device, which is arranged on the exhaust channel.

In this design, it still includes exhaust passage and the device of making an uproar to have injectd the air bleed subassembly, particularly, the aspiration pump still is provided with the export, exhaust passage and the export intercommunication of aspiration pump to can discharge through exhaust passage when the air that the aspiration pump will seal the intracavity, and through set up the device of making an uproar that falls on exhaust passage, can reduce the noise that the aspiration pump produced in the course of the work, further improve the noise problem that food processor produced in the course of the work, further promote user's use and experience.

Wherein, it is explainable to need to explain, food processor can also include pressure release hole and pressure release stopper, particularly, the pressure release hole sets up on seal assembly, and the pressure release stopper sets up in pressure release hole department, through setting up the pressure release stopper promptly, can open or seal and close the pressure release hole to can open when seal assembly seals up the end of opening of container, the pressure release stopper can further seal the pressure release hole, can prevent that the air from getting into sealed cavity from the pressure release hole, improve the fresh-keeping effect of edible material. In addition, when the user needs to take the food out of the container, the pressure relief plug can be taken out of the pressure relief hole, air enters the sealing cavity from the pressure relief hole, the sealing cavity is communicated with the atmospheric pressure, and the user can take the sealing assembly out of the container conveniently.

In one possible design, the container includes a bend portion disposed at the open end of the container in the circumferential direction and extending in a direction away from the container, and the sealing assembly further includes a latching portion that can latch onto the bend portion to enable the sealing assembly to be opened or the sealing cap to be fitted over the open end of the container.

In this design, it is defined that the container comprises a bend, wherein the bend is provided at the open end of the container, is provided in the circumferential direction of the container, and extends outwardly. Furthermore, the sealing assembly further comprises a buckling part which is buckled on the bending part, and the bending part is clamped in the buckling part, so that the sealing assembly is detachably connected with the container. Through setting up kink and buckling parts and mutually supporting, can further seal the sealed chamber when covering the dress on the container with seal assembly, prevent that the air from getting into sealed chamber from the position that seal assembly and container are connected, promote fresh-keeping effect. In addition, through setting up kink and buckling parts, realized being connected dismantled of seal assembly and container promptly to handling the food material at food processing assembly and accomplishing the back, the user of being convenient for takes out edible material from the container, further promotes the convenience that the user used food processor.

Wherein, it should be explained that, kink and container can be structure as an organic whole, and the kink is opened the outside bending type in the outer border of end by the container promptly, and integrative structure has good mechanical properties to can improve the joint strength between kink and the container, and then improve the cooperation intensity between seal assembly and the container, further improve the sealed effect in sealed chamber, improve the fresh-keeping effect to eating the material. In addition, buckling part and seal assembly also can set up to an organic whole structure, specifically according to actual need set up can.

In a possible design, the sealing assembly further includes a sealing element and a sealing groove, wherein the first mounting hole and the second mounting hole are disposed on the sealing element, the sealing groove is disposed on an inner sidewall of the first mounting hole along a circumferential direction of the first mounting hole and extends along a radial direction of the first mounting hole, and the food processing assembly passes through the first mounting hole and is in sealing connection with the sealing groove.

In this design, it still includes sealing member and seal groove to have injectd seal assembly, specifically speaking, first mounting hole and second mounting hole all set up on the sealing member, set up the seal groove in the position department at first mounting hole place, specifically, along the circumferential direction of first mounting hole, on the inside wall of first mounting hole, set up the seal groove, and the seal groove extends along the radial direction of first mounting hole, that is to say, set up the seal groove in the position department that food processing assembly and sealing member are connected, food processing assembly is when passing first mounting hole and sealing member and being connected, food processing assembly can realize the sealing connection between food processing assembly and the sealing member with the seal groove cooperation, and then guarantee the sealed effect in sealed chamber, reach the fresh-keeping purpose of edible material.

In one possible design, the food processing assembly includes a connector that passes through the first mounting hole, the connector snapping into the sealing groove.

In this design, specifically limited food processing subassembly and seal groove complex structure, specifically speaking, food processing subassembly still includes the connecting piece, and when food processing subassembly passed first mounting hole, the connecting piece can imbed in the seal groove to the card is established in the seal groove, realizes the sealed of hookup location between food processing subassembly and the seal part, further improves the sealed effect of food processing subassembly and seal part hookup location, and then improves the fresh-keeping effect of edible material.

Wherein, the connecting piece can be the flange, and the flange cover is established on food processing assembly's connecting rod, and when the connecting rod passed first mounting hole, the flange embedding sealed inslot realized sealedly.

In one possible design, the seal assembly further includes a mounting portion located at the second mounting hole and in sealed connection with the seal member, and the air exhaust passage communicates with the seal cavity through the mounting portion.

In this design, seal assembly still includes the installation department, and wherein, the installation department sets up in second mounting hole department, and the sealing member seals up the intercommunication through installation department and bleed passage promptly, and then strengthens the reliability of being connected between bleed passage and the seal assembly. In addition, through setting up installation department intercommunication bleed passage, can improve the leakproofness of bleed passage and sealing member hookup location, further promote the fresh-keeping effect of eating the material.

Wherein, the installation department can be made for metal material, also can adopt the plastics to support, specifically set up according to actual need can.

In one possible design, the mounting portion is of unitary construction with the seal.

In this design, specifically limited installation department and sealing member structure as an organic whole, integrative structure has good mechanical properties to can improve the joint strength of installation department and sealing member, and then prevent to handle the in-process of eating the material at food processing assembly, the installation department deviates from the sealing member, and leads to eating the problem of material sealing failure. And set up installation department and sealing member as an organic whole structure, can also further improve the leakproofness between bleed subassembly and the sealing member, improve the sealed effect of this position, and then promote the fresh-keeping effect of edible material.

In one possible design, the mounting portion is riveted to the seal.

In this design, rivet the installation department and press on the sealing member, can improve the joint strength of installation department and sealing member, and then prevent to handle the in-process at food processing assembly to eating the material, the installation department deviates from the sealing member, and leads to eating the problem of material sealing failure. And the installation part is riveted with the sealing element, the sealing performance between the air exhaust assembly and the sealing element can be further improved, the sealing effect of the position is improved, and the fresh-keeping effect of food materials is further improved.

In one possible design, the sealing member is a flexible member that can be deformed by movement of the food processing assembly into and out of the container.

In this design, inject the sealing member and be the flexible piece, particularly, in the in-process that food processing assembly handled eating the material, the sealing member can follow food processing assembly and take place deformation together, thereby can avoid making food processing assembly remove in first mounting hole because the unable deformation of sealing member, the poor problem of sealed chamber leakproofness that leads to, that is to say, through setting up the sealing member to the flexible piece, can be at the in-process of food processing assembly motion, the position that makes food processing assembly and sealing member be connected is relatively fixed, improve the leakproofness in sealed chamber, further guarantee the fresh-keeping effect of eating the material. In detail, the sealing member may be a silicone material, which can be formed into different shapes to match the moving position of the food processing assembly during the food processing by the food processing assembly being moved into and out of the container, for example, the sealing member is completely expanded when the food processing assembly is moved upwards, and the sealing member is changed into a folded state when the food processing assembly is moved downwards.

In one possible design, the air exhaust passage is an air exhaust pipe, when the food processing assembly is moved into the container, the distance between the air exhaust pump and the second mounting hole is L1, the length of the air exhaust pipe is L2, and L2 is more than or equal to L1.

In this design, it is the exhaust tube specifically to have injectd air exhaust passage, and the exhaust tube can be the flexible tube to make food processing assembly beat the in-process of handling to eating the material, the exhaust tube can follow the sealing member and deform together, and then prevents that the exhaust tube from deviating from in the second mounting hole on the sealing member, promotes food processor's operating stability and reliability. Further, the length of the exhaust pipe is limited, specifically, the length of the exhaust pipe is larger than or equal to the distance between the exhaust pump and the second mounting hole, so that the exhaust pipe can not be separated from the sealing piece in the hammering processing process of the food processing assembly on the food materials, and the reliability of the food processor in the working process is further ensured.

In one possible design, the food processor further comprises a drive device, which is connected to the food processing assembly and which is capable of driving the food processing assembly into and out of the receptacle.

In this design, the food processor further comprises a drive device connected to the food processing assembly, such that the drive device can drive the food processing assembly to move in and out of the container, thereby processing the food material. In detail, the food processing assembly enters and exits the container under the driving of the driving device, so that the food in the container can be beaten, the food in the container can be processed into stuffing and the like, and the food processing assembly can reciprocate under the driving of the driving device to process the food.

In one possible embodiment, the food processing assembly comprises at least two beating members, and the drive device comprises a drive member and a transmission assembly, wherein the transmission assembly is connected to the drive member, and the transmission assembly is used for driving any one of the at least two beating members to move.

In this design, it beats the piece for at least two specifically to have injectd food processing assembly, drive arrangement includes driving piece and transmission assembly, specifically speaking, the driving piece is connected with transmission assembly, thereby make transmission assembly can move under the drive of driving piece, furtherly, transmission assembly beats the piece with at least two arbitrary one of beating and is connected, thereby make transmission assembly motion can drive and beat a motion ground business turn over container, beat the processing to eating material, and the edible material in the container can rotate for food processing assembly, with the machining area of increase food processing assembly, and then make edible material processing more even, and need not to adjust the tiling position of edible material in the container at the in-process that food processing assembly handled edible material, improve edible material processing's efficiency, and then promote user's use experience. In addition, the food materials are beaten by the beating piece to obtain stuffing, the beating piece is acted on the surface of the food materials through multiple times of reciprocating motion to enable the food materials to be separated gradually, and the fiber parts of the food materials are separated but not completely broken, so that the food materials (such as meat) are easy to eat after being cooked, certain elasticity can be kept, the food materials are not easy to scatter after being eaten, and the taste of dishes is improved. And the food materials are partially separated but not completely separated through the beating of the beating piece, certain moisture is still wrapped inside the food materials, so that the moisture loss in the food materials is reduced in the cooking process, a large amount of elastic protein gel can be formed inside the food materials (such as meat), and the meat is rich in elasticity and the taste of the meat is improved. And from the microcosmic view, the cells of the food materials can be broken through multiple times of hammering of the hammering piece, the cells release proteins, and the gelation effect of the proteins in the cooking process is promoted, so that the food materials are bonded and have elasticity, the taste of the food materials is improved, and the use experience of users is improved.

In one possible embodiment, the transmission assembly comprises a transmission shaft, at least two gears and at least two racks, wherein the at least two gears are fixed to the transmission shaft, the at least two racks are respectively disposed on any one of the at least two hammering members, and each rack of the at least two racks is respectively engaged with each gear of the at least two gears.

In the design, a specific structure of the transmission assembly is defined, specifically, the transmission assembly comprises a transmission shaft, at least two gears and at least two racks, wherein the gears are fixed on the transmission shaft, the racks are arranged on the hammering piece, and the transmission process of the transmission assembly is realized by meshing the gears and the racks. In detail, the driving piece includes motor and output, and wherein, the one end of transmission shaft is connected to the output of motor to make the transmission shaft rotate under the drive of motor, because the gear is fixed on the transmission shaft, that is to say the transmission shaft rotates and can drive gear revolve, the gear can mesh with the rack mutually at pivoted in-process, thereby drive the piece motion of beating at the rack place, and then realize beating the piece and handle the process in order to obtain filling material etc. at up-and-down motion ground in-process to eating the material. The gear and the rack are matched for transmission, the structure is simple, the transmission is reliable, and the working stability and reliability of the food processor are further improved. In addition, the number of beating pieces can be set according to actual needs, and then the beating effect of food materials is guaranteed.

Wherein, need to explain, food processor still includes the bearing, sets up on the transmission shaft, can fix and support the transmission shaft to improve the transmission effect of transmission shaft.

Additional aspects and advantages in accordance with 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 an exploded view of a food processor according to an embodiment of the present invention;

figure 2 shows a schematic structural view of a food processor according to an embodiment of the present invention;

fig. 3 shows a schematic structural view of a food processor according to another embodiment of the present invention;

figure 4 shows a schematic structural view of a food processor according to yet another embodiment of the present invention;

figure 5 shows a schematic structural view of a food processor according to yet another embodiment of the present invention;

fig. 6 shows a schematic structural view of a seal assembly according to an embodiment of the invention;

fig. 7 shows a schematic structural view of a seal assembly according to another embodiment of the present invention;

fig. 8 shows a schematic structural view of a container according to an embodiment of the invention;

fig. 9 shows a schematic structural view of a container according to another embodiment of the present invention;

fig. 10 shows a schematic structural view of a food processing assembly according to an embodiment of the present invention.

Wherein, the correspondence between the reference numbers and the part names in fig. 1 to 10 is:

100 food processor, 110 container, 111 bending part, 120 food processing component, 131 first mounting hole, 132 sealing cavity, 133 second mounting hole, 134 buckling part, 135 sealing part, 136 mounting part, 137 sealing groove, 140 air extracting component, 141 air extracting pump, 142 air extracting channel and 150 connecting piece.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more clearly understood, the present invention will be described in further detail with reference to the accompanying drawings and detailed description. 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 100 provided according to some embodiments of the present invention is described below with reference to fig. 1 to 10.

The first embodiment is as follows:

as shown in fig. 1, 2, 3, 4 and 5, an embodiment of the first aspect of the present invention provides a food processor 100, where the food processor 100 includes a body, a container 110, a food processing assembly 120 and a sealing assembly, where the container 110 can be taken into and placed on the body, the container 110 is used for containing food materials, the food processing assembly 120 is disposed on the body, the food processing assembly 120 can movably process the food materials, and the sealing assembly is hermetically covered on an open end of the container 110.

The embodiment of the utility model provides a food processor 100 includes the body, container 110, food processing assembly 120 and seal assembly, particularly, container 110 is used for holding edible material, and container 110 can get to put on the body, that is to say, when eating the material pending processing, in the material is placed to container 110 to the pending edible material, food processing assembly 120 treats the processing edible material and carries out the processing, and after handling the completion, this internal extraction can be followed to container 110, thereby when handling edible material, be convenient for get before edible material processing and after the processing get to put. The food processing assembly 120 is disposed on the body, and the food processing assembly 120 can movably process the food material in the container 110, thereby completing the processing of the food material. Further, the food processor 100 further includes a sealing assembly, specifically, the sealing assembly can be hermetically covered on the open end of the container 110, that is, during the hammering processing of the food processing assembly 120 on the food material, the food material is sealed in the container 110 by the sealing assembly, so that the external air cannot enter the container 110, the oxidation problem occurring during the food material processing process can be reduced, and the purpose of keeping the food material fresh is achieved. In addition, after the food processing assembly 120 finishes processing the food material, if the user does not perform subsequent processing on the food material temporarily, the food material does not need to be taken out of the container 110 and put into a refrigerator, and fresh keeping can be achieved. Many times, the user handles to eat the material and accomplishes the back, can not carry out subsequent processing to eating the material immediately, then can take out to eat the material from container 110 and put into the refrigerator and keep fresh, perhaps the user opens food processing apparatus before leaving home and eats the material processing, go out to go back and carry out subsequent processing, then can't keep fresh to eating the material at this in-process, through set up seal assembly on the open end at container 110, it is sealed with the export of external contact to eat the material soon, thereby can eat the material processing in-process and eat the material and handle and accomplish the back and seal fresh-keeping to eating the material, promote user's use experience.

Example two:

as shown in fig. 6, on the basis of the above embodiment, further, the sealing assembly includes a first mounting hole 131, and the food processing assembly 120 can process the food material through the first mounting hole 131.

In this embodiment, the sealing assembly is defined to include the first mounting hole 131, and specifically, the food processing assembly 120 processes the food material through the first mounting hole 131, so as to achieve the purpose of keeping the food material fresh during the process of the food processing assembly 120 on the food material. In detail, first mounting hole 131 is seted up to the position that corresponds food processing assembly 120 on seal assembly, specifically, food processing assembly 120 includes connecting piece 150 and beats the piece, the connecting rod passes first mounting hole 131 and seal assembly sealing connection, beat the piece promptly and be sealed in container 110, thereby beat the piece and beat the in-process of handling to eating the material, seal assembly seals all the time and establishes on container 110, and then realize eating the material and keep fresh at the in-process of handling, further promote user's use experience.

Example three:

as shown in fig. 3 and 5, based on the above embodiment, further, the sealing assembly and the container 110 enclose a sealing cavity 132, and the food processor 100 further includes a suction assembly 140, wherein the suction assembly 140 is communicated with the sealing cavity 132 for sucking air out of the sealing cavity 132.

In this embodiment, the food processor 100 is further defined to further include an air-extracting assembly 140, specifically, the sealing assembly is sealed and disposed on the open end of the container 110, so that a sealed cavity 132 is formed between the sealing assembly and the container 110, wherein the air-extracting assembly 140 is in communication with the sealed cavity 132, and the air-extracting assembly 140 can extract air in the sealed cavity 132, so as to form a vacuum in the sealed cavity 132, and further preserve the food material. In addition, the air pumping assembly 140 can be manually opened or automatically opened, specifically, if the food material is immediately subjected to subsequent processing by the user after the food processing assembly 120 finishes processing the food material, the air pumping assembly 140 does not need to be opened to perform vacuum pumping processing on the sealed cavity 132, if the user goes out after the food processing machine 100 is opened to process the food material, and then performs subsequent processing on the food material processed by the food processing machine 100 after the food material is returned, the air in the sealed cavity 132 is pumped out by automatically opening the air pumping assembly 140 after the food processing assembly 120 finishes processing the food material, so that vacuum preservation is realized, different requirements of the user are further met, and user experience is improved.

Example four:

as shown in fig. 3 and 7, in addition to the above embodiment, the sealing assembly further includes a second mounting hole 133, and the air exhaust assembly 140 is communicated with the sealing cavity 132 through the second mounting hole 133.

In this embodiment, the sealing assembly further includes a second mounting hole 133, and specifically, the air pumping assembly 140 is communicated with the sealing cavity 132 through the second mounting hole 133, so that the air pumping assembly 140 can perform vacuum pumping treatment on the sealing cavity 132 through the second mounting hole 133, thereby achieving vacuum preservation of the food material.

Further, the pumping assembly 140 further comprises a pumping pump 141 and a pumping channel 142, wherein one end of the pumping channel 142 is hermetically connected to the pumping pump 141, and the other end of the pumping channel 142 is communicated with the sealed cavity 132.

In this embodiment, a specific structure of the air extracting assembly 140 is defined, specifically, the air extracting assembly 140 includes an air extracting pump 141 and an air extracting channel 142, two ends of the air extracting channel 142 are respectively connected to the air extracting pump 141 and the sealing cavity 132, and when the air extracting pump 141 is turned on, air in the sealing cavity 132 is extracted through the air extracting channel 142, so as to achieve the freshness preservation of the food material.

Further, the air extraction assembly 140 further includes an exhaust passage connected to an outlet of the air extraction pump 141 for exhausting air, and a noise reduction device disposed on the exhaust passage.

In this embodiment, it is defined that the air extracting assembly 140 further includes an exhaust passage and a noise reducing device, specifically, the air extracting pump 141 is further provided with an outlet, the exhaust passage is communicated with the outlet of the air extracting pump 141, so that when the air extracting pump 141 extracts the air in the sealed cavity 132, the air can be exhausted through the exhaust passage, and by providing the noise reducing device on the exhaust passage, the noise generated by the air extracting pump 141 during the working process can be reduced, the noise problem generated by the food processor 100 during the working process is further improved, and the use experience of the user is further improved.

Wherein, it should be noted that, food processor 100 can also include pressure release hole and pressure release stopper, particularly, the pressure release hole sets up on seal assembly, and the pressure release stopper sets up in pressure release hole department, through setting up the pressure release stopper promptly, can open or seal and close the pressure release hole to can seal up the end of opening of container 110 at seal assembly, the pressure release stopper can further seal up the pressure release hole, can prevent that the air from getting into sealed chamber 132 from the pressure release hole, improve the fresh-keeping effect of edible material. In addition, when the user needs to take the food material out of the container 110, the pressure relief plug can be taken out of the pressure relief hole, and air enters the sealing cavity 132 from the pressure relief hole, so that the sealing cavity 132 is communicated with the atmospheric pressure, and the user can take the sealing assembly out of the container 110 conveniently.

Example five:

as shown in fig. 1, 8 and 9, in addition to any of the above embodiments, the container 110 further includes a bending portion 111, the bending portion 111 is disposed at the open end of the container 110 along the circumferential direction and extends in a direction away from the container 110, and the sealing assembly further includes an engaging portion 134, the engaging portion 134 can be engaged with the bending portion 111 to enable the sealing assembly to open or seal the container 110 at the open end.

In this embodiment, it is defined that the container 110 includes the bent portion 111, wherein the bent portion 111 is provided at the open end of the container 110, is provided in the circumferential direction of the container 110, and extends outward. Further, the sealing assembly further includes a buckling portion 134, the buckling portion 134 is buckled on the bending portion 111, and the bending portion 111 is clamped in the buckling portion 134, so that the sealing assembly is detachably connected to the container 110. Through setting up kink 111 and buckling parts 134 and cooperating, can further seal chamber 132 when covering the seal assembly on container 110, prevent that the position that air is connected from seal assembly and container 110 from getting into seal chamber 132, promote fresh-keeping effect. In addition, through setting up kink 111 and buckling parts 134, realized being connected with dismantling of container 110 to the food processing subassembly 120 is after the food is handled to eating the material, is convenient for the user to take out eating the material from container 110, further promotes the convenience that the user used food processor 100.

It should be noted that, the bending portion 111 and the container 110 may be an integral structure, that is, the bending portion 111 is formed by bending the outer edge of the open end of the container 110 outwards, and the integral structure has good mechanical properties, so that the connection strength between the bending portion 111 and the container 110 can be improved, the matching strength between the sealing assembly and the container 110 is further improved, the sealing effect of the sealing cavity 132 is further improved, and the preservation effect of the food materials is improved. In addition, the buckling portion 134 and the sealing component may be integrated, and may be specifically configured according to actual needs.

Example six:

as shown in fig. 7, on the basis of the above embodiment, the sealing assembly further includes a sealing member 135 and a sealing groove 137, wherein the first mounting hole 131 and the second mounting hole 133 are disposed on the sealing member 135, the sealing groove 137 is disposed on an inner sidewall of the first mounting hole 131 along a circumferential direction of the first mounting hole 131 and extends along a radial direction of the first mounting hole 131, and the food processing assembly 120 passes through the first mounting hole 131 and is in sealing connection with the sealing groove 137.

In this embodiment, the sealing assembly further includes a sealing element 135 and a sealing groove 137, specifically, the first mounting hole 131 and the second mounting hole 133 are both disposed on the sealing element 135, the sealing groove 137 is formed at a position of the first mounting hole 131, specifically, the sealing groove 137 is formed on an inner sidewall of the first mounting hole 131 in a circumferential direction of the first mounting hole 131, and the sealing groove 137 extends in a radial direction of the first mounting hole 131, that is, the sealing groove 137 is formed at a position where the food processing assembly 120 is connected to the sealing element 135, when the food processing assembly 120 passes through the first mounting hole 131 and is connected to the sealing element 135, the food processing assembly 120 can cooperate with the sealing groove 137 to realize a sealed connection between the food processing assembly 120 and the sealing element 135, thereby ensuring a sealing effect of the sealing cavity 132 and achieving a food preservation purpose.

As shown in fig. 10, further, the food processing assembly 120 includes a connector 150, the food processing assembly 120 passes through the first mounting hole 131, and the connector 150 snaps into the sealing groove 137.

In this embodiment, a structure that the food processing assembly 120 is matched with the sealing groove 137 is specifically defined, specifically, the food processing assembly 120 further includes a connecting member 150, when the food processing assembly 120 passes through the first mounting hole 131, the connecting member 150 can be embedded into the sealing groove 137 and clamped in the sealing groove 137, so as to seal a connection position between the food processing assembly 120 and the sealing member 135, further improve a sealing effect of the connection position between the food processing assembly 120 and the sealing member 135, and further improve a fresh-keeping effect of food materials.

Wherein, the connecting member 150 may be a flange, the flange is sleeved on the connecting rod of the food processing assembly 120, and when the connecting rod passes through the first mounting hole 131, the flange is embedded in the sealing groove 137 to realize sealing.

Example seven:

as shown in fig. 6 and 7, in addition to the above embodiment, the sealing assembly further includes a mounting portion 136, the mounting portion 136 is located at the second mounting hole 133 and is connected to the sealing member 135 in a sealing manner, and the suction passage 142 is communicated with the sealing cavity 132 through the mounting portion 136.

In this embodiment, the sealing assembly further comprises a mounting portion 136, wherein the mounting portion 136 is disposed at the second mounting hole 133, i.e., the sealing member 135 is in sealing communication with the suction passage 142 through the mounting portion 136, thereby enhancing the reliability of the connection between the suction passage 142 and the sealing assembly. In addition, the installation part 136 is communicated with the air exhaust channel 142, so that the sealing performance of the connecting position of the air exhaust channel 142 and the sealing element 135 can be improved, and the fresh-keeping effect of the food materials is further improved.

The mounting portion 136 may be made of a metal material, or may be supported by a plastic material, and may be specifically configured according to actual requirements.

In one particular embodiment, further, the mounting portion 136 is a unitary structure with the seal 135.

In this embodiment, the mounting portion 136 and the sealing member 135 are specifically limited to be an integral structure, and the integral structure has good mechanical properties, so that the connection strength between the mounting portion 136 and the sealing member 135 can be improved, and further, the problem that the mounting portion 136 is separated from the sealing member 135 to cause sealing failure of the food material in the process of processing the food material by the food processing assembly 120 is prevented. And set up installation department 136 and sealing member 135 as an organic whole structure, can also further improve the leakproofness between bleed subassembly 140 and the sealing member 135, improve the sealed effect of this position, and then promote the fresh-keeping effect of edible material.

In another specific embodiment, further, the mounting portion 136 is riveted to the seal 135.

In this embodiment, the mounting portion 136 is riveted to the sealing member 135, so that the connection strength between the mounting portion 136 and the sealing member 135 can be improved, and the problem that the mounting portion 136 is separated from the sealing member 135 to cause the sealing failure of the food material in the process of processing the food material by the food processing assembly 120 is further prevented. And the mounting part 136 is riveted with the sealing element 135, the sealing performance between the air exhaust component 140 and the sealing element 135 can be further improved, the sealing effect at the position is improved, and the fresh-keeping effect of food materials is further improved.

Example eight:

as shown in fig. 2, 3, 4 and 5, in addition to the above embodiments, the sealing member 135 is a flexible member, and the flexible member can be deformed when the food processing assembly 120 moves into or out of the container 110.

In this embodiment, the sealing member 135 is defined as a flexible member, specifically, in the process of processing the food material by the food processing assembly 120, the sealing member 135 can deform along with the food processing assembly 120, so that the problem of poor sealing performance of the sealing cavity 132 caused by the fact that the food processing assembly 120 moves in the first mounting hole 131 due to the fact that the sealing member 135 cannot deform can be avoided, that is, by setting the sealing member 135 as a flexible member, the position where the food processing assembly 120 and the sealing member 135 are connected can be relatively fixed in the process of moving the food processing assembly 120, the sealing performance of the sealing cavity 132 is improved, and the preservation effect of the food material is further ensured. In detail, the sealing member 135 may be a silicone material, and the silicone material can be formed into different shapes to match the moving position of the food processing assembly 120 during the food processing of the food material by the food processing assembly 120 moving into or out of the container 110, for example, the sealing member 135 is completely expanded when the food processing assembly 120 moves upwards, and the sealing member 135 is changed into a folded state when the food processing assembly 120 moves downwards.

In a specific embodiment, further, the air exhaust channel 142 is an air exhaust tube, when the food processing assembly 120 is moved into the container 110, the distance between the air exhaust pump 141 and the second mounting hole 133 is L1, the length of the air exhaust tube is L2, L2 ≧ L1.

In this embodiment, it is specifically defined that the air exhaust channel 142 is an air exhaust pipe, and the air exhaust pipe may be a flexible pipe, so that the air exhaust pipe can deform along with the sealing member 135 in the process of hammering the food material in the food processing assembly 120, and further the air exhaust pipe is prevented from coming out of the second mounting hole 133 on the sealing member 135, thereby improving the operation stability and reliability of the food processing machine 100. Further, the length of the exhaust tube is limited, specifically, the length of the exhaust tube is greater than or equal to the distance between the exhaust pump 141 and the second mounting hole 133, so as to further ensure that the exhaust tube does not fall off the sealing member 135 during the hammering treatment of the food material by the food processing assembly 120, and further ensure the reliability of the food processor 100 during the operation.

Example nine:

on the basis of any of the above embodiments, further, the food processor 100 further comprises a driving device, which is connected to the food processing assembly 120 and can drive the food processing assembly 120 to move into or out of the container 110.

In this embodiment, the food processor 100 further comprises a drive device coupled to the food processing assembly 120 such that the drive device can drive the food processing assembly 120 into and out of the receptacle 110 for processing the food material. In detail, the food processing assembly 120 is driven by the driving device to move in and out of the container 110, so as to hammer the food material in the container 110, process the food material in the container 110 into stuffing, and process the food material in a reciprocating manner by the food processing assembly 120.

Further, the food processing assembly 120 comprises at least two beating members, and the driving device comprises a driving member and a transmission assembly, wherein the transmission assembly is connected to the driving member, and the transmission assembly is used for driving any one of the at least two beating members to move.

In this embodiment, the food processing assembly 120 is specifically defined as at least two hammering members, the driving means comprising a driving member and a transmission assembly, specifically, the driving member is connected with the transmission assembly, so that the transmission assembly can move under the driving of the driving member, and further, the transmission assembly is connected with any one of the at least two beating members, so that the transmission assembly can move to drive the beating members to move in and out of the container 110, the food material is beaten and the food material in the receptacle 110 can rotate relative to the food processing assembly 120, to increase the processing area of the food processing assembly 120, and then make edible material processing more even, and need not to adjust the tiling position of eating the material in container 110 at the in-process that food processing assembly 120 handled eating the material, improve the efficiency of eating material processing, and then promote user's use and experience. In addition, the food materials are beaten by the beating piece to obtain stuffing, the beating piece is acted on the surface of the food materials through multiple times of reciprocating motion to enable the food materials to be separated gradually, and the fiber parts of the food materials are separated but not completely broken, so that the food materials (such as meat) are easy to eat after being cooked, certain elasticity can be kept, the food materials are not easy to scatter after being eaten, and the taste of dishes is improved. And the food materials are partially separated but not completely separated through the beating of the beating piece, certain moisture is still wrapped inside the food materials, so that the moisture loss in the food materials is reduced in the cooking process, a large amount of elastic protein gel can be formed inside the food materials (such as meat), and the meat is rich in elasticity and the taste of the meat is improved. And from the microcosmic view, the cells of the food materials can be broken through multiple times of hammering of the hammering piece, the cells release proteins, and the gelation effect of the proteins in the cooking process is promoted, so that the food materials are bonded and have elasticity, the taste of the food materials is improved, and the use experience of users is improved.

Further, the transmission assembly comprises a transmission shaft, at least two gears and at least two racks, wherein the at least two gears are fixed on the transmission shaft, the at least two racks are respectively arranged on any one of the at least two hammering pieces, and each rack of the at least two racks is respectively meshed with each gear of the at least two gears.

In this embodiment, a specific structure of the transmission assembly is defined, specifically, the transmission assembly includes a transmission shaft, at least two gears and at least two racks, wherein the gears are fixed on the transmission shaft, the racks are disposed on the hammering member, and the transmission process of the transmission assembly is realized by the engagement of the gears and the racks. In detail, the driving piece includes motor and output, and wherein, the one end of transmission shaft is connected to the output of motor to make the transmission shaft rotate under the drive of motor, because the gear is fixed on the transmission shaft, that is to say the transmission shaft rotates and can drive gear revolve, the gear can mesh with the rack mutually at pivoted in-process, thereby drive the piece motion of beating at the rack place, and then realize beating the piece and handle the process in order to obtain filling material etc. at up-and-down motion ground in-process to eating the material. The gear and the rack are matched for transmission, so that the structure is simple, the transmission is reliable, and the working stability and reliability of the food processor 100 are further improved. In addition, the number of beating pieces can be set according to actual needs, and then the beating effect of food materials is guaranteed.

It should be noted that the food processor 100 further includes a bearing disposed on the transmission shaft, and the bearing can fix and support the transmission shaft and improve the transmission effect of the transmission shaft.

Further, any one of the at least two gears includes a non-toothed portion and a toothed portion, and the non-toothed portion of at least one of the at least two gears is at least partially disposed corresponding to the toothed portion of at least one of the remaining gears in the axial direction of the transmission shaft.

In this design, a staggered hammering process of different hammers of the at least two hammers is defined. Specifically, the gears include a toothed portion and a non-toothed portion, in the axial direction of the transmission shaft, the non-toothed portion of one of the at least two gears is at least partially disposed corresponding to the toothed portion of at least one of the other gears, that is, the toothed portion and the non-toothed portion of at least two of the at least two gears are disposed at an angle offset, for example, the at least two gears include a first gear and a second gear, in detail, the first gear and the second gear are disposed at an angle offset on the transmission shaft, that is, at least a part of the non-toothed portion of the first gear and at least a part of the toothed portion of the second gear are disposed corresponding to each other in the axial direction of the transmission shaft, so that when the first gear moves upward in engagement with the first rack, the non-toothed portion of the second gear is opposite to the second rack, so that the second gear cannot be engaged with the second rack, and the second beating member where the second rack is located is not constrained by the second gear, and falls down under the influence of gravity to beat the food materials. After the motor drives the transmission shaft to rotate by a certain angle, the second gear is meshed with the second rack to enable the second beating piece to move upwards, the toothless part of the first gear corresponds to the first rack, and the first beating piece where the first rack is located freely falls under the influence of gravity to beat the food materials. Rotate through the motor drive transmission shaft and realize that first beating piece and second beat the crisscross of beating the piece to eating the material and beat to make the edible material separate into less cubic gradually, and then beat the crisscross in-process of beating of piece at first beating and second, realize the processing of eating the material.

The food material beating device comprises a motor, a crank, a cam, a cylinder and a transmission shaft, wherein the transmission shaft is connected with the motor, the motor is connected with the crank, the cam is connected with the transmission shaft, the transmission shaft is connected with the transmission shaft, the crank is connected with the transmission shaft, the transmission shaft is connected with the transmission shaft, and the transmission shaft is connected with the transmission shaft.

Further, any one of the at least two hammering pieces comprises a connecting rod and a hammering portion, wherein the connecting rod is provided with a rack, and the hammering portion is arranged on the connecting rod.

In this embodiment, a specific structure of the beating member is defined, specifically, the beating member includes a connecting rod and a beating portion, specifically, a rack is provided on the connecting rod, so that the up-and-down reciprocating operation of the beating portion can be realized by the engagement of the rack on the connecting rod with the gear on the transmission shaft. In addition, can be connected connecting rod and the portion of beating can be dismantled to can change the portion of beating of different grade type according to the kind of eating the material, can select the portion of beating of different grade according to the kind of eating the material promptly, guarantee the processing effect of eating the material. In addition, through can dismantle with the connecting rod and beat the portion and be connected, can also be convenient for wash the portion of beating, further improve user's use and experience.

In the description of the present specification, the terms "connect", "mount", "fix", and the like are to be understood in a broad sense, for example, "connect" may be a fixed connection, a detachable connection, or an integral connection; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the description of the present specification, 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.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to 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.

Claims (14)

1. A food processor, comprising:

the body is provided with a plurality of grooves,

a container which can be taken and placed in the body and is used for containing food materials;

the food processing assembly is arranged on the body and can process food materials in a moving way;

a sealing assembly sealingly closed over the open end of the container;

the seal assembly includes:

a first mounting hole through which the food processing assembly can pass to process food material.

2. The food processor of claim 1, wherein the seal assembly and the container enclose a sealed cavity, the food processor further comprising:

and the air exhaust assembly is communicated with the sealing cavity and is used for exhausting air in the sealing cavity.

3. The food processor of claim 2, wherein the seal assembly further comprises:

and the air exhaust assembly is communicated with the sealing cavity through the second mounting hole.

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

an air pump;

and one end of the air exhaust channel is hermetically connected with the air exhaust pump, and the other end of the air exhaust channel is communicated with the sealed cavity.

5. The food processor of claim 4, wherein the suction assembly further comprises:

the exhaust channel is connected with an outlet of the air pump and used for exhausting air;

and the noise reduction device is arranged on the exhaust passage.

6. The food processor of claim 5,

the container includes:

a bending portion provided at an open end of the container in a circumferential direction and extending in a direction away from the container;

the seal assembly further comprises:

the buckling part can be buckled on the bending part, so that the sealing assembly can be opened or the sealing cover is arranged on the open end of the container.

7. The food processor of claim 6, wherein the seal assembly further comprises:

the first mounting hole and the second mounting hole are arranged on the sealing element;

the sealing groove is arranged on the inner side wall of the first mounting hole along the circumferential direction of the first mounting hole and extends along the radial direction of the first mounting hole, and the food processing assembly penetrates through the first mounting hole and is in sealing connection with the sealing groove.

8. The food processor of claim 7, wherein the food processing assembly comprises:

the food processing assembly penetrates through the first mounting hole, and the connecting piece is clamped in the sealing groove.

9. The food processor of claim 7, wherein the seal assembly further comprises:

the installation department is located second mounting hole department and with sealing member sealing connection, the bleed passage passes through the installation department with the seal chamber intercommunication.

10. The food processor of claim 9,

the mounting part and the sealing element are of an integral structure; or

The mounting portion is riveted to the sealing member.

11. The food processor of claim 7,

the sealing member is a flexible member that is deformable by movement of the food processing assembly into and out of the container.

12. The food processor of claim 11,

the air extracting channel is an air extracting pipe, when the food processing assembly is moved into the container, the distance between the air extracting pump and the second mounting hole is L1, the length of the air extracting pipe is L2, and L2 is more than or equal to L1.

13. A food processor as claimed in any one of claims 1 to 12, further comprising:

and the driving device is connected with the food processing assembly and can drive the food processing assembly to move into or out of the container.

14. The food processor of claim 13, wherein the food processing assembly includes at least two hammers, the drive device including:

a drive member;

and the transmission assembly is connected to the driving piece and is used for driving any one of the at least two beating pieces to move.

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