CN217852584U - Food processor - Google Patents

Abstract

The application discloses cooking machine. The food processor comprises a food material container, a shell, a host, a reciprocating motion mechanism and a slicing assembly. The shell is assembled at the top of the food material container and is provided with a food material channel. The food material channel comprises a channel outlet. The main machine comprises a motor. The slicing assembly is assembled on the shell, is positioned at the top of the food material container and comprises a slicing cutter head and a slicing cutter group. The slicing cutter head comprises a sheet-shaped food material outlet. Two ends of the sheet-shaped food material outlet are respectively provided with a blocking part. The slicing knife group is connected with the motor through the reciprocating motion mechanism and is movably arranged on the slicing knife disc and comprises slicing knives. The motor drives the reciprocating mechanism to drive the slicing knife group to do linear reciprocating motion, and the slicing knife cuts the food materials which are limited between the flaky food material outlet and the channel outlet by the blocking piece along with the linear reciprocating motion of the slicing knife group, so that the flaky food materials are obtained. Because the edible material is spacing, even soft edible material such as fresh meat also can be cut and be the slice edible material, and it is efficient to cut into slices, and the thickness of slice edible material is even.

Description

Food processor

Technical Field

The application relates to a small household electrical appliance technical field especially relates to cooking machine.

Background

The food processor generally comprises a main machine, a food material container and a slicing knife group. The slicing knife group comprises slicing knives. The main machine comprises a motor. The motor drives the slicing knife to rotate so as to cut the food materials such as meat and the like into the slice-shaped food materials.

The above food processor can cut frozen meat into slices. With the improvement of living standard, people expect the fresh meat to be cut, so that the development of a food processor which can cut the fresh meat into meat slices with uniform thickness is a technical problem to be solved.

SUMMERY OF THE UTILITY MODEL

The application aims to provide a food processor. The cooking machine can be eaten the cutting of soft edible material such as fresh meat and be the slice and eat the material, and it is efficient to cut into slices moreover, and it is even with the thickness that the slice was eaten the material to eat the material and can cut off completely.

The application provides a cooking machine. The cooking machine includes edible material container, casing, host computer, reciprocating motion mechanism and section subassembly, wherein: the shell is assembled at the top of the food material container and is provided with a food material channel, and the food material channel comprises a channel outlet. The main machine comprises a motor. The slicing assembly is assembled on the shell, is positioned at the top of the food material container and comprises a slicing cutter head and a slicing cutter group. The slicing knife group is connected with the motor through a reciprocating mechanism and is movably arranged on the slicing knife disc. The slicing assembly comprises a slicing knife. The slicing cutter disc comprises a sheet-shaped food material outlet. Blocking parts are respectively arranged at two ends of the sheet food material outlet. The stop is located in a path of movement of the slicing knife. The motor drives the reciprocating mechanism to drive the slicing knife group to do linear reciprocating motion, and the slicing knife moves linearly and reciprocally along with the slicing knife group to cut food materials limited between the sheet food material outlet and the channel outlet by the blocking piece, so that sheet food materials are obtained. The flaky food material falls into the food material container from the flaky food material outlet. According to the arrangement, the slicing knife moves linearly and reciprocally along with the slicing knife group to cut the food materials limited between the sheet-shaped food material outlet and the channel outlet by the blocking piece, so that the sheet-shaped food materials are obtained, the food materials are limited by the blocking piece and the outlet side wall together, even soft food materials such as fresh meat can be cut into the sheet-shaped food materials, the slicing efficiency is high, and in addition, the food materials can be cut off through the linear reciprocating movement of the slicing knife along with the slicing knife group, so that the slicing efficiency can also be improved; finally, the thickness of the sheet-shaped food material is also determined by the interval between the slicing knives and the slicing knives reciprocate linearly along with the slicing knife group, so that the thickness of the sheet-shaped food material is uniform.

In some embodiments, the food processor further comprises a container cover, a meat grinder assembly, and a speed reduction assembly assembled to the housing and forming a first working assembly with the housing and the slicing assembly. The speed reduction assembly includes an input shaft and a slice output shaft. The speed reduction assembly is connected with the motor through the input shaft and is connected with the reciprocating mechanism through the slice output shaft. The container lid and the meat chopper assembly constitute a second working assembly. The first working accessory and the second working accessory are used alternatively, under the condition that the second working accessory is used, the meat chopper assembly is located in the food material container, the container cover is assembled at the top of the food material container, the main machine is arranged on the container cover, and the motor drives the meat chopper assembly to rotate in the food material container. As set forth above, because can share the food material container with the host computer, just first work accessory with second work accessory can the alternate use, under the condition of using first work accessory, realizes the section function, under the condition of using second work accessory, realizes minced steak (minced steak or minced steak grain) function to, the cooking machine function is many.

In some embodiments, the slicing knife has a plurality of blades and the plurality of blades are parallel to each other. The blocking piece at each end comprises blocking strips arranged at intervals, the blocking pieces are arranged on the slicing cutter head, the blocking strips and the blades are alternately arranged, and the blocking strips are higher than the slicing blades; or the blocking piece at each end comprises a plurality of blocking strips arranged at intervals, the blocking piece is arranged on the shell, and the blocking strips and the blades are alternately arranged. According to the arrangement, the slicing knife and the blocking strips are multiple, so that slicing efficiency is high, the blocking strips and the blades are arranged alternately, the blocking strips are higher than the slicing knife, food can be better limited between the sheet food outlet and the channel outlet, a better blocking effect is achieved, cutting efficiency is further improved, food materials coming out of the channel outlet are cut at the sheet food outlet, and the food materials fall into a food material container from the sheet food outlet.

In some embodiments, the slicing knife group comprises a slicing knife holder provided with the slicing knife; the slicing knife rest and the slicing knife disc are provided with a guide mechanism, or the slicing knife rest and the shell are provided with a guide mechanism. According to the arrangement, the guide mechanism guides the slicing knife group, so that the slicing knife group can perform accurate linear reciprocating motion, and therefore slicing effect is good, for example, the thickness of the flaky food material is uniform, the flaky food material can be completely cut off, and the like.

In some embodiments, the slicing cutter head is provided with an auxiliary mounting hole penetrating through the slicing cutter head; the auxiliary mounting hole extends along the movement direction of the slicing knife, and the length of the auxiliary mounting hole is not less than the movement stroke of the slicing knife; the slicing knife group comprises a slicing knife rest for mounting the slicing knife, and the slicing knife rest comprises an assembly hole; the pilot hole runs through the section knife rest just is located directly over the supplementary mounting hole, reciprocating motion mechanism includes the second connecting piece, the pilot hole is worn to locate by the second connecting piece. As set up above, through setting up supplementary mounting hole with pilot hole and pilot hole are located directly over the supplementary mounting hole, like this the section knife tackle is assembled and is worn to locate in section blade disc and second connecting piece behind the pilot hole, the second connecting piece with the pilot hole can be seen through supplementary mounting hole, and then, whether the confirmation second connecting piece that can be very convenient and section knife rest assemble in place. In addition, under the condition that the length of the auxiliary mounting hole is not less than the movement stroke of the slicing knife, the mounting hole can be seen at any position, so that a consumer can conveniently assemble the second connecting piece of the reciprocating mechanism with the slicing knife rest at any position.

In some embodiments, the slicing knife group comprises a slicing knife rest for mounting the slicing knife, the reciprocating mechanism comprises a second connecting piece penetrating through the slicing knife rest, the end of the second connecting piece is a first connecting step, and the second connecting piece further comprises a first connecting section, a second connecting step and a second connecting section which are sequentially connected from the first connecting step. The first connecting step gradually increases from the end face of the second connecting piece to the first connecting section; the second connection step gradually increases from the first connection section to the second connection section. According to the above arrangement, the first connecting step is gradually increased and arranged as described above, and the second connecting step is gradually increased and arranged as described above, so that the second connecting piece and the slicing knife rest are guided in the penetrating process through gradual change, and the assembly is facilitated.

In some embodiments, the slicing knife assembly comprises a slicing knife holder provided with the slicing knife, and the reciprocating mechanism comprises a crank link assembly. The crank connecting rod component comprises a crank and a connecting rod. One end of the crank is connected with the motor, and the other end of the crank is connected with the connecting rod; the connecting rod is connected with the slicing knife rest. As set forth above, the reciprocating mechanism includes a crank link assembly, so that the slicing knife moves fast and slowly in the process of linear reciprocating motion, but does not move at a uniform speed, so that the stress of the food material (such as meat) changes, the food material can be sliced better, for example, the slicing efficiency is high, or the food material can be completely cut into slices, and especially, when the food material is fresh meat, the fascia of the meat can be cut better.

In some embodiments, the crank connecting rod assembly comprises a crank mounting bearing arranged on the connecting rod, and the other end of the crank is connected with the connecting rod through a first connecting piece and the crank mounting bearing in an inserting mode; and/or the crank connecting rod assembly comprises a connecting rod mounting bearing arranged on the slicing knife rest, and the connecting rod is connected with the slicing knife rest through a second connecting piece and the connecting rod mounting bearing in an inserting manner. As set forth above, through setting up the crank installation bearing, can not direct contact between crank and the connecting rod and wear etc. improve life, moreover, also can reduce the noise with the help of the effect (for example lubrication) of crank installation bearing. Through setting up connecting rod installation bearing can not wear because of direct contact between connecting rod and the section knife rest, improves life, moreover, with the help of connecting rod installation bearing's effect (for example lubrication), also can the noise reduction.

In some embodiments, the guiding mechanism comprises a guide rail and a guide groove, the guide groove is arranged on one of the slicing knife disc and the slicing knife rest, the guide rail is arranged on the other of the slicing knife disc and the slicing knife rest, and the guide rail and the guide groove are matched for guiding; or, the guide groove is arranged on one of the shell and the slicing knife rest, the guide rail is arranged on the other of the shell and the slicing knife rest, and the guide rail and the guide groove are matched to realize guiding. As set up above, utilize guide rail and guide slot to cooperate and realize the direction, the straight reciprocating motion that section knife tackle can be better, in addition, guide slot and guide rail constitute guiding mechanism, and guiding mechanism is simple, and then, simple structure between section blade disc and the section knife rest, perhaps, the simple structure of casing and section knife rest.

In some embodiments, the slicer knife includes a turnbuckle. The turnbuckles are arranged along the circumferential direction of the slicing cutter disc at intervals. The shell is provided with a matching buckle, and the slicing cutterhead is locked with the shell under the condition that the rotating buckle and the matching buckle are locked in a rotating mode. According to the arrangement, the slicing cutter head rotates to enable the rotary buckle and the matching buckle to be locked, and then the slicing assembly is locked with the shell, so that the slicing assembly is convenient to assemble and disassemble.

Drawings

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

fig. 2 is a cross-sectional view of a second food processor, according to an embodiment of the present application, equipped with a second working accessory;

fig. 3 is an exploded view of a second food processor according to an embodiment of the present application, the food processor being equipped with a first working accessory;

FIG. 4 is a schematic view of a lower housing shown according to an embodiment of the present application;

FIG. 5 is a cross-sectional view at an angle of the first working assembly shown in FIG. 3 without the inclusion of a slicer assembly;

FIG. 6 is a schematic view of the first working accessory of FIG. 3 at another angle without the slicer assembly;

FIG. 7 is an exploded view of a crank link assembly of a reciprocating mechanism shown in accordance with an embodiment of the present application;

FIG. 8 is a cross-sectional view of the crank link assembly of the reciprocating mechanism shown in FIG. 7;

FIG. 9 is an exploded view of a slicer assembly shown in accordance with an embodiment of the present application;

FIG. 10 is a perspective view of the slicer assembly shown in FIG. 9;

FIG. 11 is a cross-sectional view of the slicer assembly shown in FIG. 10;

FIG. 12 is a perspective view of the slicer disc of the slicer assembly shown in FIG. 9 with emphasis on illustrating the configuration of the front face of the slicer disc;

FIG. 13 is a schematic view of the slicer deck of the slicer assembly shown in FIG. 9 with emphasis on the back of the slicer deck;

FIG. 14 is a side view of the slicer knife deck of the slicer assembly shown in FIG. 9 with emphasis on illustrating the construction of the turnbuckle and the construction of the guide;

FIG. 15 is a schematic view of a slicing knife block shown in accordance with an embodiment of the present application;

FIG. 16 is a perspective view of the first working accessory shown at another angle according to an embodiment of the present application;

FIG. 17 isbase:Sub>A sectional view taken along line A-A of FIG. 16;

fig. 18 is an enlarged view of a portion a in fig. 17;

fig. 19 is a cross-sectional view of the first working accessory shown at another angle according to an embodiment of the present application.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of apparatus consistent with certain aspects of the present application, as detailed in the appended claims.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. Unless otherwise defined, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this application belongs. The terms "first," "second," and the like, as used in the description and in the claims, do not denote any order, quantity, or importance, but rather are used to distinguish one element from another. Also, the use of the terms "a" or "an" and the like do not denote a limitation of quantity, but rather denote the presence of at least one. "plurality" or "a number" means two or more. Unless otherwise indicated, "front," "back," "lower," and/or "upper," and the like are for convenience of description, and are not limited to one position or one spatial orientation. The word "comprising" or "comprises", and the like, means that the element or item listed as preceding "comprising" or "includes" covers the element or item listed as following "comprising" or "includes" and its equivalents, and does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. As used in this specification and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any and all possible combinations of one or more of the associated listed items.

Referring to fig. 1 in conjunction with fig. 2 and 3, fig. 1 discloses a first food processor, and fig. 2 and 3 disclose a second food processor. The difference between the first food processor and the second food processor is that: first kind of cooking machine can only cut into slices, and the second kind of cooking machine uses through first work accessory and the replacement of second work accessory to sharing host computer and edible material container can cut into slices, again can minced steak (minced steak or meat grain). Therefore, the second food processor includes the speed reduction unit 4 (the speed reduction unit 4 reduces the rotation speed of the motor 31), and the first food processor does not include the speed reduction unit 4, but the same applies to the second food processor, and therefore, the second food processor will be mainly described as follows.

Referring to fig. 1 and 3 in combination with fig. 5, 6, 9, 10, 16, 17 and 19, a food processor includes a food material container 1, a housing 2, a main body 3, a deceleration assembly 4 (the deceleration assembly 4 is not included in fig. 1), and a slicing assembly 5. In the embodiment of the present application, the second food processor is added with a function on the meat grinder, and the housing 2 is used in cooperation with the food material container 1, so that the housing 2 is assembled on the top of the food material container 1 and is provided with the food material channel 221. The housing 2 may have another configuration when not used with the meat chopper assembly 9 and the container cover 8 (the meat chopper assembly 9 and the container cover 8 constitute the second working part), but may have the above-described configuration as shown in fig. 1. The food material channel 221 comprises a feed opening 211 at the top surface of the housing 2. In order to make it easier for food material to enter the food material channel 221 from the feed opening 211, the food processor further comprises a pusher 7. By the action of the pushing member 7 pushing down the food material, the food material enters the food material passage 221 from the feed opening 211, and then moves toward the slicing assembly 5 to be finally cut. In the embodiment of the present application, the housing 2 includes an upper housing 21 and a lower housing 22. The upper shell 21 and the lower shell 22 can accommodate the speed reducing assembly 4 after being assembled into a whole, and the slicing assembly 5 can be installed. As shown in fig. 4, the lower case 22 is provided with a first through hole 229 and a food material passage 221. The first through hole 229 is used for the slicing output shaft 42 to pass through, the slicing output shaft 42 is connected with the slicing assembly 5, so that the slicing assembly 5 is driven to cut the food material under the action of the motor, and of course, in the second food processor, the speed reduction assembly 4 comprises the input shaft 41, the gear assembly 40, the slicing output shaft 42 and the standby output shaft 43. The rotation of the motor 31 drives the input shaft 41 to rotate, and the rotation of the input shaft 41 drives the gear assembly 40 to rotate. The gear assembly 40 in turn rotates the slicer output shaft 42 and the backup output shaft 43. Spare output shaft 43 is used for connecting like shredding the subassembly etc. can expand the function of cooking machine. Of course, the main purpose of the speed reduction assembly 4 is to reduce the speed of the motor 31 of the main body 3, and therefore, the structure is not limited to the above. As shown in fig. 1, in the case that the food processor does not include the speed reduction assembly 4, the motor 31 is connected to the input shaft 41, and the input shaft 41 is connected to the reciprocating mechanism. The input shaft 41 is not limited to the mounting to the housing 2, and as shown in fig. 1 and 5, the input shaft 41 is connected to the motor 31 via a lower clutch 411, and is assembled to the lower housing 22 via an upper bearing 412 and a lower bearing 413.

Referring to fig. 3, 5, 17 and 19, the main body 3 includes a motor 31. The speed reduction assembly 4 is assembled in the housing 2 and is connected to the reciprocating mechanism through the slice output shaft 42. The slicing assembly 5 is assembled on the housing 2 and positioned at the top of the food material container 1, so that the obtained sheet-shaped food material can fall into the food material container 1. The structure of the slicing assembly 5 is not limited, and for example, the slicing assembly can be assembled to the lower shell 22 of the shell 2 through a snap structure or the like.

Referring to fig. 9 and 10 in conjunction with fig. 11, 16, 17 and 18, the slicer assembly 5 includes a slicer knife deck 51 and a slicer knife group 52. The slicer knife disc 51 comprises a slice food outlet 511. The slicing knife group 52 includes a slicing knife holder 522 and a slicing knife 521 assembled to the slicing knife holder 522. In some embodiments, slicing knife 521 is removably attached to slicing knife holder 522 such that the slicing knife can be removed for cleaning or replacement. The slicing knife group 52 is connected to the slicing output shaft 42 through a reciprocating mechanism and is movably mounted on the slicing knife disc 51. The movable mounting is to enable the slicing knife 521 of the slicing knife group 52 to reciprocate linearly under the driving of the reciprocating mechanism, and in the embodiment of the present application, the slicing knife 521 and the slicing knife holder 522 move together as a whole. For the above purpose, the "connection by reciprocating mechanism" includes two cases in the embodiment of the present application: 1) The reciprocating mechanism connects the slicing knife holder 522 with the slicing output shaft 42, and the guide mechanism may be provided between the slicing knife holder 522 and the housing 2, for example;

2) The reciprocating mechanism connects the slicing knife holder 522 with the slicing output shaft 42, the guide mechanism is arranged between the slicing knife holder 522 and the slicing knife disc 51, and the structure of the guide mechanism is as described later. In some embodiments, the reciprocating mechanism may also be capable of achieving linear reciprocating motion without including a guiding mechanism, for example, the reciprocating mechanism is a rack-and-pinion mechanism, a rack in the rack-and-pinion mechanism is connected to the slicing knife rest, and the rack is linearly reciprocated to drive the slicing knife rest to linearly reciprocate, or the reciprocating mechanism is a screw mechanism, the screw is connected to the slicing knife disc or the housing, the slicing knife rest is provided with a threaded hole, and the threaded hole of the slicing knife rest is matched with the screw to achieve linear reciprocating motion. At the cooking machine include reciprocating motion mechanism with guiding mechanism's the condition under, guiding mechanism is right the section knife tackle direction makes section knife tackle can more accurate straight reciprocating motion to, it is effectual to cut into slices, for example, the thickness of slice food material is even, can be cut off etc. completely. There are a plurality of implementation manners of movable mounting, in the embodiment of the present application, the movable mounting is realized by using the balls 53 to cooperate with the related mechanisms, as will be described in detail later, of course, for better realization of movable mounting, the slicing knife set 52 further includes a pressing plate 54, and the pressing plate 54 is fixed on the slicing knife disc 51 through a screw 55. When the pressing plate 54 is included, a ball 53 (blade holder) is provided between the slicing tool holder 522 and the slicing cutter head 51, and the ball 53 is also provided between the slicing tool holder 522 and the pressing plate 54. The balls 53 are correspondingly installed in the ball installation holes 5220, so that after the slicing knife holder 522 and the slicing knife disc 51 are movably installed, the mutual abrasion of the slicing knife group 52 (particularly the slicing knife holder 522) and the slicing knife disc 51 can be effectively avoided by the balls 53, and the service life of the slicing assembly 5 is prolonged.

Referring to fig. 9, 10, 11 and 12, the stoppers 512 are respectively disposed at two ends of the sheet-shaped food outlet 511, it can be understood by those skilled in the art that the stoppers 512 may be disposed on the slicing cutter disc 51 and at two ends of the sheet-shaped food outlet 511 as shown in fig. 9 and 12, and in other embodiments, the stoppers 512 may be disposed on the housing 2 (mainly the lower housing 22) and at two ends of the sheet-shaped food outlet 511. The stop 512 is located on the path of movement of the slicing knife 521. As set forth above, by providing the blocking member 512 and locating the blocking member 512 on the moving path of the slicing knife 521, the food material is limited between the sheet-shaped food material outlet 511 and the channel outlet 2211 of the food material channel 221, so that the food material can be blocked from moving along with the slicing knife 521, the cutting efficiency is finally improved, and the slicing efficiency is high. Based on the above-described function of the dam 512, the skilled person will understand that the structure of the dam 512 is not limited to the structure described later.

The motor 31 drives the reciprocating mechanism, the reciprocating mechanism drives the slicing knife group 52 to do linear reciprocating motion, and the slicing knife 521 does linear reciprocating motion along with the slicing knife group 52 so as to cut the food materials limited between the sheet food material outlet 511 and the channel outlet 2211 by the blocking piece 512, thereby obtaining the sheet food materials. The sheet-shaped food material falls into the food material container 1 from the sheet-shaped food material outlet 511. Based on reciprocating motion mechanism's effect, its structure is not limited, can realize reciprocating motion can, for example, can pass through crank link assembly, as a back, also can adopt some cam mechanism, work as reciprocating motion mechanism links subassembly, cam mechanism, as before for crank rack or screw mechanism, section knife tackle 52 can regard as whole slidable mounting in section blade disc 51, for example, be provided with the spout of installation section knife tackle 52 on the section blade disc 51, section knife tackle 52 whole with spout sliding fit under reciprocating motion mechanism's the drive, section knife tackle 52 is in do straight reciprocating motion on the section blade disc 51.

Referring to fig. 12, 13 and 16, the slicer knife 51 is provided with two hand-held holes 519, and a finger is inserted into the hand-held holes 519 to rotate the slicer knife 51, so that the slicer assembly 5 can be assembled to the housing 2. The cutter disc 51 is further provided with a cutter disc through hole 518, the cutter holder 522 is provided with a cutter holder through hole 529, and the spare output shaft 43 sequentially passes through the cutter holder through hole 529 and the cutter disc through hole 518.

As set forth above, the slicing knife 521 linearly reciprocates along with the slicing knife group 52 to cut the food material confined between the sheet-shaped food material outlet 511 and the channel outlet 2211 by the barrier 512, so as to obtain the sheet-shaped food material, because the food material is confined by the barrier 512 and the outlet sidewall 2212 together, even soft food materials such as fresh meat can be cut into the sheet-shaped food material, and the slicing efficiency is high, and further, the food material can be cut by linearly reciprocating the slicing knife 521, so that the slicing efficiency can be improved, and finally, the thickness of the sheet-shaped food material is determined by the interval between the slicing knives 521 and the slicing knife 521 linearly reciprocates along with the slicing knife group 52, so that the thickness of the sheet-shaped food material is uniform.

Referring to fig. 3 and 1 in combination with fig. 1, in some embodiments, the food processor includes a container lid 8, a meat grinder assembly 9, and a speed reduction assembly 4. The speed reduction assembly 4 is assembled to the housing 2, and forms a first working assembly together with the housing 2 and the slicing assembly 5. The container lid 8 and the reamer assembly 9 constitute a second working accessory. First work accessory with the replacement of second work accessory is used, as shown in fig. 3, and food material container 1 and host computer 3 realize the section function with the cooking machine that first work accessory used the constitution jointly. As shown in fig. 2, the food material container 1, the main body 3 and the second working accessory are used together to form a food processor for mincing meat (minced meat or meat particles), and specifically, the speed reduction assembly 4 includes an input shaft 41, a gear assembly 40 and a slicing output shaft 42 as described above. As shown in fig. 1 and 5, the input shaft 41 is connected to the motor 31 through the lower clutch 411 and connected to the slicer assembly 5 through the slicer output shaft 42, so as to reduce the rotation speed of the motor, and more specifically, the input shaft 41 of the speed reducer assembly 4 is connected to the motor 31 through the clutch, and the slicer output shaft 42 may be assembled with the slicer assembly 5 in any structure. As shown in fig. 2, when the second working assembly is used, the meat chopper assembly 9 is located inside the food material container 1, the container cover 8 is assembled on the top of the food material container 1, the main body 3 is placed on the container cover 8, and the motor 31 of the main body 3 drives the meat chopper assembly 9 to rotate inside the food material container 1. As set forth above, because can share edible material container 1 with host computer 3, just first work accessory with second work accessory can the alternate use, under the condition of using first work accessory, realizes the section function, under the condition of using second work accessory, realizes minced steak (minced steak or minced steak grain) function to, the cooking machine function is many. The slicing assembly 5, the slicing output shaft 42 and the shell 2 can be assembled and disassembled, and the disassembly and assembly facilitate the disassembly and the cleaning of the slicing assembly 5, so that the cleanness and the sanitation are ensured. The removable assembly is accomplished with a variety of structures, such as snaps, slide-type clasps, and the like.

Referring to fig. 9, 10, 11, 12 and 15 in combination with fig. 17 and 19, as shown in fig. 9, 11 and 15, the slicing knife 521 has a plurality of blades 5211, and the plurality of blades 5211 are parallel to each other, and fig. 15 and 18 show four blades 5211. As shown in fig. 9, 10 and 12, the blocking member 512 is disposed on the slicing knife disc 51 and located on the moving path of the slicing knife 521. The barriers 512 at each end include spaced barrier ribs 5121. Five barrier ribs 5121 are illustrated. The blocking bars 5121 and the blades 5211 are alternately arranged, and the blocking bars 5121 are higher than the slicing blades 521. The distance that stop bar 5121 is above slicing knife 521 may be determined on a case-by-case basis. As set forth above, since the slicing knife 521 and the blocking strips 5121 are provided with a plurality of strips, slicing efficiency is high, and since each blocking strip 5121 and the knife 5211 are alternately arranged and the blocking strip 5121 is higher than the slicing knife 521, food can be better limited between the sheet-shaped food outlet 511 and the channel outlet 2211, so that a better blocking effect is achieved, cutting efficiency is improved, and food coming out of the channel outlet 2211 can be cut at the sheet-shaped food outlet 511 and fall into the food container 1 from the sheet-shaped food outlet 511. In other embodiments, the blocking piece at each end comprises a plurality of blocking strips arranged at intervals, the blocking piece is arranged on the shell, and the blocking strips and the blades are alternately arranged.

Referring to fig. 13 and 16, the slicer knife 51 is provided with an auxiliary mounting hole 513 penetrating through the slicer knife 51. The auxiliary mounting hole 513 extends along the moving direction of the slicing knife 521 and has a length not less than the moving stroke of the slicing knife 521.

Referring to fig. 3, 9, 10, 11 and 12 in combination with fig. 17 and 19, the slicing knife set 52 includes a slicing knife holder 522 for mounting the slicing knife 521, the slicing knife holder 522 includes a mounting hole 5221, and the mounting hole 5221 penetrates through the slicing knife holder 522 and is located right above the auxiliary mounting hole 513. The reciprocating mechanism includes a second link 504. The second connecting member 504 is inserted into the mounting hole 5221, and how to insert the second connecting member into the mounting hole is achieved in various ways, for example, by a connecting rod mounting bearing 508 (as described in detail later). As set forth above, by providing the auxiliary mounting hole 513 and the mounting hole 5221 with the mounting hole 5221 being located directly above the auxiliary mounting hole 513, referring to fig. 16 and comparing with fig. 13, after the slicing knife assembly 52 is assembled to the slicing knife disc 51 and the second connecting member 504 is inserted into the mounting hole 5221, the second connecting member 504 and the mounting hole 5221 can be seen through the auxiliary mounting hole 513, and it can be conveniently confirmed whether the second connecting member 504 and the slicing knife holder 522 are assembled in place, for example, whether the connection is firm, whether the second connecting member 504 is completely inserted into the mounting hole 5221, and the like. In addition, in the case that the length of the auxiliary mounting hole 513 is not less than the moving stroke of the slicing knife 521, the fitting hole 5221 can be seen at any position, so that it is convenient for a consumer to assemble the second connector 504 of the reciprocating mechanism with the slicing knife holder 522 at any position.

Referring to fig. 7, 8 and 18 in conjunction with fig. 3, the slicing knife assembly 52 includes a slicing knife holder 522 for mounting the slicing knife 521. The reciprocating mechanism includes a second connector 504 that is threaded through the slicing knife holder 522. The end of the second connector 504 is a first connection step 5041, and the second connector 504 further includes a first connection section 5042, a second connection step 5043, and a second connection section 5044 which are sequentially connected from the first connection step 5041. The first connection step 5041 gradually increases from the end face of the second connector 504 to the first connection section 5042; the second connection step 5043 is gradually increased from the first connection section 5042 to the second connection section 5044. As set forth above, through first connection step 5041 is as aforesaid increase gradually setting, and second connection step 5043 is as aforesaid increase gradually setting, like this, realize through the gradual change second connecting piece 504 with section knife rest 522 is wearing to establish the in-process direction, the equipment of being convenient for. In addition, the second connector 504 may be assembled with other auxiliary means, such as a circlip 507 to further secure the second connector 504.

Referring to fig. 7 and 8 in conjunction with fig. 17, 19, 1 and 3, the slicing knife set 52 includes a slicing knife holder 522 provided with the slicing knife 521. The reciprocating mechanism is a crank link assembly 50. The crank connecting rod assembly 50 drives the slicing knife group 52 to do linear reciprocating motion. The crank link assembly 50 includes a crank 501 and a link 502. The crank link assembly 50 serves as a moving mechanism of the reciprocating mechanism, and its main function is to move the slicing knife holder 522 so that the slicing knife holder 522 and the slicing knife 521 move synchronously. One end of the crank 501 is connected to the slice output shaft 42 (of course, in the case that the food processor does not include the speed reduction assembly 4, as shown in fig. 1, the crank 501 may be directly connected to the input shaft 41, and the input shaft 41 is connected to the motor 31 through the clutch 411), and the other end of the crank 501 is connected to the connecting rod 502. The link 502 is connected to the slicing knife holder 522. As set forth above, the reciprocating mechanism includes a crank link assembly. The crank connecting rod assembly 50 comprises a crank 501 and a connecting rod 502, and the slicing knife 521 moves fast and slowly in the moving process and does not move at a constant speed, so that the stress of the food (such as meat) is changed, the food can be sliced better, for example, the slicing efficiency is high, or the food can be completely cut into slices, and particularly, when the food is meat, the fascia of the meat can be cut better.

The structure of the guide mechanism is not limited, and the guide mechanism can assist the reciprocating mechanism (such as the crank-link assembly 50) to realize the linear reciprocating motion of the slicing knife 521 (or the slicing knife set 52), for example, the slicing knife set 52 includes a slicing knife rest 522 provided with the slicing knife 521; a guide mechanism is arranged between the slicing knife rest 522 and the slicing knife disc 51, or a guide mechanism is arranged between the slicing knife rest 522 and the shell 2. In the present embodiment, the guide mechanism includes a guide rail 515 and a guide groove 5222, and as shown in fig. 9, 10, 11 and 12, the slicer disc 51 is further provided with the guide rail 515. As shown in fig. 9 and 15, the slicing blade holder 522 is provided with a guide groove 5222, and as shown in fig. 10 and 11, the guide rail 515 and the guide groove 5222 cooperate to guide. The skilled person will understand that the respective positions of the guide rail 515 and the guide groove 5222 can be reversed, for example, the guide rail 515 is provided on the slicing knife holder 522, and the guide groove 5222 is provided on the slicing knife disc 51. In other embodiments, the guiding mechanism may further include a combination of a sliding slot and a sliding block, or a combination of a shaft and a linear bearing, wherein the shaft is of a smooth structure, the shaft slidably passes through the linear bearing, the shaft is disposed on the slicing knife disc 51, and the linear bearing is disposed on the slicing knife holder 522. In short, the structure of the guide mechanism is not limited, and the slicer knife group 52 may be linearly moved. The guide rail 515 and the guide groove 5222 are matched to realize guiding, so that the slicing knife set can better perform linear reciprocating motion, and in addition, the guide groove and the guide rail form a guide mechanism, so that the guide mechanism is simple, and further, the structure between the slicing knife disc and the slicing knife rest is simple, or the structure between the shell and the slicing knife rest is simple. According to the arrangement, the guide mechanism guides the slicing knife group, so that the slicing knife group can do linear reciprocating motion more accurately, the slicing effect is good, for example, the thickness of the flaky food material is uniform, the flaky food material can be completely cut off, and the like. In the case of a guide mechanism, the reciprocating mechanism may be the crank link assembly 50, or may be another assembly.

Based on the above-mentioned reciprocating mechanism, the skilled person can understand that there are various ways to connect the crank 501 and the slicing output shaft 42 (in the case of the food processor not including the speed reduction assembly 4, as shown in fig. 1, the crank 501 and the input shaft 41) and to connect the connecting rod 502 and the slicing knife rest 522, and the following describes the embodiments adopted in the present application:

with reference to fig. 7 and 8 in combination with fig. 19, the crank link assembly 50 includes a link mounting bearing 508 disposed on the link 502, and the other end of the crank 501 is disposed through the crank mounting bearing 505 via a first connecting member 503, so that the crank 501 is connected to the link 502. In some embodiments, the crank link assembly 50 further includes a circlip 507. The first connection member 503 is also secured by a circlip 507. Referring to fig. 9, 10 and 19, as shown in fig. 9 and 10, the crank link assembly 50 includes a link mounting bearing 508 disposed on the slicer knife 522. As shown in fig. 19, the link 502 is inserted into the link mounting bearing 508 via a second connecting member 504, whereby the link 502 is connected to the slicer knife 522. As described above, by providing the crank mounting bearing 505, the crank 501 and the connecting rod 502 are not worn by direct contact, and the service life is improved, and noise, such as noise generated by rotational friction, can be reduced by the action (such as lubrication) of the crank mounting bearing 505. By providing the connecting rod mounting bearing 508, the connecting rod 502 and the slicing knife holder 522 are not worn due to direct contact, so that the service life is prolonged, and noise, such as noise generated due to rotational friction, can be reduced by the action (such as lubrication) of the connecting rod mounting bearing 508. Of course, in some embodiments, only the crank mount bearing 505 (with the link 502 directly interposed with the slicing knife rest 522) or only the link mount bearing 508 may be provided.

Referring to fig. 14 in conjunction with fig. 12, 11 and 9, and 17 and 18, the slicer knife 51 includes a spinner 516. The turnbuckles 516 are arranged at intervals along the circumferential direction of the slicing cutter disc 51. Fig. 12, 11 and 9 show two knobs 516, and the slicer knife disc 51 may have four knobs 516. Each turn buckle 516 includes a guide groove 5181 and a limit groove 5182 which communicate with each other, and as shown in fig. 17 and 18, the housing 2 is provided with a mating buckle 222. Under the condition that the rotating buckle 516 and the matching buckle 222 are locked in a rotating way, the slicing cutter head 51 is locked with the shell 2, and further, the slicing assembly 5 is locked with the shell. According to the arrangement, the slicing cutter head rotates to enable the rotary buckle and the matching buckle to be locked, and then the slicing assembly is locked with the shell, so that the slicing assembly is convenient to assemble and disassemble.

Referring to fig. 14 in conjunction with fig. 12, 11 and 9, the guide groove 5181 includes a first wall 5161 along the circumferential direction of the cutter disc 51, and the limit groove 5182 includes a second wall 5162 along the axial direction of the cutter disc 51. The first wall 5161 and the second wall 5162 are connected. The guide groove 5181 includes a guide surface 5171 and a connection surface 5172, the guide surface 5171 from the top surface of the slice cutter disc 51 to the limiting groove 5182 extends obliquely and downwardly, the connection surface 5172 from the guide surface 5171 is along the circumference of the slice cutter disc 51 to the limiting groove 5182, and is lower than the first wall 5161. As set forth above, since the guide face 5171 extends obliquely downward from the top surface of the slicer knife disc 51 toward the limiting groove 5182 and is lower than the first wall 5161, the slicer assembly 5 can be assembled with the housing 2 more conveniently, and the slicer assembly 5 can be disassembled conveniently. The skilled artisan will appreciate that the attachment face 5172 may be coupled to the second wall 5162 or spaced from the second wall 5162 as shown in fig. 14, depending on the function of the attachment face 5172.

The above description is only a preferred embodiment of the present application and should not be taken as limiting the present application, and any modifications, equivalents, improvements and the like made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (10)

1. The utility model provides a cooking machine, its characterized in that includes edible material container (1), casing (2), host computer (3), reciprocating motion mechanism and section subassembly (5), wherein:

the shell (2) is assembled at the top of the food material container (1) and is provided with a food material channel (221), and the food material channel (221) comprises a channel outlet (2211);

the main machine (3) comprises a motor (31);

the slicing assembly (5) is assembled on the shell (2), is positioned at the top of the food material container (1), and comprises a slicing cutter head (51) and a slicing cutter group (52); the slicing knife group (52) is connected with the motor (31) through the reciprocating mechanism, the slicing knife group (52) is movably mounted on the slicing knife disc (51), and the slicing knife group (52) comprises slicing knives (521); the slicing cutter head (51) comprises a sheet food material outlet (511), two ends of the sheet food material outlet (511) are respectively provided with a blocking piece (512), and the blocking pieces (512) are positioned on a moving path of the slicing knife (521);

the motor (31) drives the reciprocating motion mechanism to drive the slicing knife group (52) to do linear reciprocating motion, the slicing knife (521) follows the slicing knife group (52) to do linear reciprocating motion so as to cut the food materials stopped by the stopping piece (512) and limited in the sheet food material outlet (511) and the channel outlet (2211), and the sheet food materials are obtained.

2. The food processor of claim 1, further comprising a container cover (8), a meat grinder assembly (9) and a speed reduction assembly (4), wherein the speed reduction assembly (4) is assembled to the housing (2) and forms a first working assembly with the housing (2) and the slicing assembly (5); the speed reducing assembly comprises an input shaft (41) and a slice output shaft (42), the speed reducing assembly (4) is connected with the motor (31) through the input shaft (41), and the speed reducing assembly (4) is connected with the reciprocating mechanism through the slice output shaft (42); the container cover (8) and the meat grinder assembly (9) form a second working accessory;

the first working accessory and the second working accessory are used alternatively, under the condition that the second working accessory is used, the meat mincing knife assembly (9) is located in the food material container (1), the container cover (8) is assembled on the top of the food material container (1), the host machine (3) is arranged on the container cover (8), and the motor (31) drives the meat mincing knife assembly (9) to rotate in the food material container (1).

3. The food processor of claim 1, wherein the slicing knife (521) has a plurality of blades (5211), and the plurality of blades (5211) are parallel to each other; the barrier (512) at each end comprises a plurality of barrier ribs (5121) arranged at intervals;

the blocking piece (512) is arranged on the slicing cutter disc (51), the blocking strips (5121) and the slicing knives (521) are alternately arranged, and the blocking strips (5121) are higher than the slicing knives (521); alternatively, the blocking member (512) is disposed on the housing (2), and the blocking strips (5121) and the blades (5211) are alternately arranged.

4. The food processor of claim 1, wherein the slicing knife group (52) comprises a slicing knife holder (522) provided with the slicing knife (521); the slicing knife rest (522) and the guiding mechanism are arranged between the slicing knife discs (51), or the slicing knife rest (522) and the guiding mechanism are arranged between the shells (2).

5. The food processor of any one of the claims 1 to 4, wherein the slicing knife disc (51) is provided with an auxiliary mounting hole (513) penetrating through the slicing knife disc (51); the auxiliary mounting hole (513) extends along the movement direction of the slicing knife (521) and has a length not less than the movement stroke of the slicing knife (521);

the slicing knife group (52) comprises a slicing knife rest (522) for mounting the slicing knife (521), and the slicing knife rest (522) comprises a mounting hole (5221); the assembling hole (5221) penetrates through the slicing knife rest (522) and is positioned right above the auxiliary mounting hole (513), the reciprocating motion mechanism comprises a second connecting piece (504), and the second connecting piece (504) penetrates through the assembling hole (5221).

6. The food processor of any one of claims 1 to 4, wherein the slicing knife group (52) comprises a slicing knife holder (522) for mounting the slicing knife (521), and the reciprocating mechanism comprises a second connecting piece (504) penetrating through the slicing knife holder (522);

the end of the second connector (504) is a first connection step (5041), and the second connector (504) further comprises a first connection section (5042), a second connection step (5043), and a second connection section (5044) which are connected in sequence from the first connection step (5041);

the first connection step (5041) gradually increases from an end face of the second connector (504) to the first connection section (5042); the second connection step (5043) is gradually increased from the first connection section (5042) to the second connection section (5044).

7. The food processor of any one of claims 1 to 4, wherein the reciprocating mechanism comprises a crank link assembly (50), the crank link assembly (50) comprising a crank (501) and a link (502); one end of the crank (501) is connected with the motor, and the other end of the crank (501) is connected with the connecting rod (502); the connecting rod (502) is connected with the slicing knife rest (522).

8. The food processor of claim 7, wherein the crank and link assembly (50) comprises a crank mounting bearing (505) arranged on the connecting rod (502), and the other end of the crank (501) is inserted through a first connecting piece (503) and the crank mounting bearing (505);

and/or the crank connecting rod assembly (50) comprises a connecting rod mounting bearing (508) arranged on the slicing knife rest (522), and the connecting rod (502) is inserted into the connecting rod mounting bearing (508) through a second connecting piece (504).

9. The food processor of claim 4, wherein the guiding mechanism comprises a guide rail (515) and a guide groove (5222), the guide groove (5222) is disposed on one of the slicing knife disc (51) and the slicing knife holder (522), the guide rail (515) is disposed on the other of the slicing knife disc (51) and the slicing knife holder (522), and the guide rail (515) is matched with the guide groove (5222) for guiding;

or, the guide groove is arranged on one of the shell and the slicing knife rest, the guide rail is arranged on the other of the shell and the slicing knife rest, and the guide rail and the guide groove are matched to realize guiding.

10. The food processor of claim 1, wherein the slicing knife disc (51) comprises a rotating buckle (516), and the rotating buckle (516) is arranged along the circumferential direction of the slicing knife disc (51) at intervals; the slicing machine is characterized in that the shell (2) is provided with a matching buckle (222), and the slicing cutter head (51) is locked with the shell (2) under the condition that the rotating buckle (516) and the matching buckle (222) are locked in a rotating mode.

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