CN220832790U

CN220832790U - Food material processing device

Info

Publication number: CN220832790U
Application number: CN202322088444.2U
Authority: CN
Inventors: 梁志华; 陆锡泉; 王家宝
Original assignee: Xinfeng Electric Shenzhen Co ltd; Simatelex Manufactory Co Ltd
Current assignee: Xinfeng Electric Shenzhen Co ltd; Simatelex Manufactory Co Ltd
Priority date: 2023-08-04
Filing date: 2023-08-04
Publication date: 2024-04-26
Anticipated expiration: 2033-08-04

Abstract

The utility model provides a food material processing device which is characterized by comprising a base, a machine body, a processing assembly and a machine cover, wherein the machine body is provided with a machine cover; be provided with in the base and be used for driving the pivoted drive assembly of processing subassembly, processing subassembly bottom is provided with drive assembly, is provided with the universal driving shaft with drive assembly transmission connection in the organism, and drive assembly passes through universal driving shaft drive assembly in order to drive processing subassembly processing food material in the organism. According to the food processing device provided by the utility model, the food is placed in the accommodating cavity of the machine body, the driving component of the base is utilized to drive the processing cutter to rotate through the universal driving shaft and extrude and cut the food on the processing plate, so that the food can be effectively prevented from splashing in the cutting process and is always positioned in the accommodating cavity of the machine body in the extrusion and cutting process. The cutting efficiency and the cutting effect of the food material can be further improved when the processing cutter rotationally extrudes the food material on the processing plate through the cutting edge formed on the processing hole on the processing plate.

Description

Food material processing device

Technical Field

The utility model belongs to the technical field of kitchen appliances, and particularly relates to a food material processing device.

Background

With the improvement of living standard, people have increasingly high nutritive value and taste for daily diet, and food is often processed into paste during food processing to obtain better taste or to be tasty, so a food material processing device is required to process food into paste. However, the existing food processing device on the market has a simple structure, and needs to manually apply power to realize the mud pressing operation. And, food can splash under the effect of processing cutter at mud pressing in-process, leads to partial food unable to obtain abundant mud and adhere to on mud pressing container's inner wall, causes mud pressing effect poor, mud pressing uniformity is not enough.

Disclosure of utility model

The utility model aims to solve the defects of poor mud pressing effect and insufficient mud pressing uniformity caused by splashing of food under the action of a processing cutter because the existing food processing device is simple in structure and needs manual power to realize mud pressing operation.

The technical scheme adopted for solving the technical problems is as follows: the food processing device is characterized by comprising a base, a machine body, a processing assembly and a machine cover;

The machine body is fixed on the machine cover, the processing assembly is rotationally connected in the accommodating cavity of the machine body, and the machine cover is buckled on the top of the machine body and seals the machine body;

The base is internally provided with a driving assembly for driving the processing assembly to rotate, the bottom of the processing assembly is provided with a transmission assembly, the machine body is internally provided with a linkage shaft for connecting the transmission assembly with the driving assembly in a transmission way, and the driving assembly drives the transmission assembly through the linkage shaft so as to drive the processing assembly to process food in the machine body;

The processing assembly comprises a fixing seat fixedly connected with the machine body, a processing plate fixed in the fixing seat and a processing cutter connected with the transmission assembly in a transmission mode, the processing plate is disc-shaped, a plurality of processing holes are uniformly formed in the processing plate, cutting edges for cutting food materials are formed in the processing holes, the transmission assembly is arranged in the processing cutter, and the driving assembly drives the processing cutter to rotate and extrude the food materials on the processing plate so as to utilize the cutting edges on the processing holes to process the food materials.

Further, the processing cutter comprises a rotating seat for accommodating the transmission assembly, a cutter head rotatably connected to the fixed seat and a processing blade obliquely arranged between the rotating seat and the cutter head.

Further, a boss for positioning the rotating seat and allowing the linkage shaft to penetrate out is arranged at the center of the fixing seat, a positioning hole capable of being sleeved on the boss is arranged at the center of the processing plate, and the processing plate is sleeved in the fixing seat through the positioning hole.

Further, a containing cavity for containing the transmission assembly is formed between the boss of the fixing seat and the rotating seat, the transmission assembly is a plurality of gears meshed with each other, outer gear teeth meshed with the gears are arranged at the end part of the linkage shaft, and inner gear teeth meshed with the gears are arranged inside the inner wall of the boss.

Further, a hollow convex column communicated with the boss is arranged at the center of the rotating seat, and after the linkage shaft passes through the boss and is meshed with the gear for transmission, the outer end part of the linkage shaft extends out of the convex column.

Further, the processing blade comprises two processing blades which are obliquely arranged between the rotating seat and the cutterhead and are symmetrically arranged relative to the rotating seat, and a cutting part is formed at the bottom of the processing blade.

Further, the processing board is the disc structure, a plurality of evenly lay with processing hole on the processing board with the holding chamber intercommunication of organism, be provided with a plurality of draw-in groove on the outer fringe face of processing board, be provided with a plurality of confession on the inner wall of fixing base the fixed locating platform of draw-in groove block, the processing board passes through the draw-in groove block is fixed in on the locating platform of fixing base.

Specifically, the inner wall of the processing hole is obliquely arranged and forms a blanking surface, and the processing hole is any one of a round shape, an elliptic shape or a regular polygon shape.

Further, the cover includes a feed barrel in communication with the processing assembly within the body, the feed barrel extending through the cover and forming a feed channel.

Further, the cover further comprises a pushing rod detachably connected to the feeding barrel, and the pushing rod pushes food materials in the feeding barrel into the processing assembly.

The food material processing device provided by the utility model has the beneficial effects that: through placing food in the holding intracavity of organism, utilize the drive assembly of base to pass through the universal driving axle drive processing cutter rotatory and extrude cutting food on the processing board, can effectively avoid food to splash and food is located the holding intracavity of organism all the time in extrusion cutting process in the cutting process to realize the full automatization of cutting operation and improve the cutting effect.

In addition, through the cutting edge that forms on the processing hole on the processing board, when can further improve the rotary extrusion food material of processing cutter on the processing board, the cutting efficiency and the cutting effect of food material to drop to the holding chamber bottom from the processing downthehole after the cutting is accomplished, the user of being convenient for picks up the food material after cutting into mud.

Drawings

FIG. 1 is an exploded view of a food processing device according to the present utility model;

Fig. 2 is a schematic perspective view of a processing assembly in a food processing device according to the present utility model;

Fig. 3 is a schematic perspective view of a processing plate and a fixing base in the food processing device according to the present utility model;

fig. 4 is a bottom view of a processing tool of the food processing device according to the present utility model;

FIG. 5 is an enlarged view of a portion of FIG. 3 at A;

Fig. 6 is a cross-sectional view of a processing tool of the food processing device provided by the utility model;

Fig. 7 is a cross-sectional view of a processing plate of a food processing device provided by the present utility model;

FIG. 8 is a schematic view of a cover according to the present utility model;

in the figure: 100-food material processing device,

10-Base, 11-driving component, 20-machine body, 21-holding cavity, 22-linkage shaft, 221-external gear tooth, 30-processing component, 31-fixing seat, 311-boss, 3111-internal gear tooth, 312-positioning table,

31-Processing plate, 321-processing hole, 3211-cutting edge, 3212-blanking surface, 322-positioning hole,

323-Clamping groove, 33-processing tool, 331-cutterhead, 332-rotating seat, 3321-convex column,

333-Processing blade, 3331-cutting part, 40-cover, 41-feeding cylinder, 42-pushing rod,

50-Drive assembly.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Referring to fig. 1 to 8, a food processing device 100 according to the present utility model is provided, wherein the food processing device 100 includes a base 10, a body 20, a processing assembly 30, and a cover 40; the machine body 20 is fixed on the machine cover 40, the processing assembly 30 is rotatably connected in the accommodating cavity 21 of the machine body 20, and the machine cover 40 is buckled on the top of the machine body 20 and seals the machine body 20; the base 10 is internally provided with a driving component 11 for driving the processing component 30 to rotate, the bottom of the processing component 30 is provided with a transmission component 50, the machine body 20 is internally provided with a linkage shaft 22 for connecting the transmission component 50 and the driving component 11 in a transmission way, and the driving component 11 drives the transmission component 50 through the linkage shaft 22 so as to drive the processing component 30 to process food materials in the machine body 20. When the food processing device 100 is required to process the food, the food is firstly placed in the accommodating cavity 21 of the machine body 20 from the cover 40, then the driving assembly 11 in the base 10 drives the processing assembly 30 to rotate through the linkage shaft 22 and cuts and presses the food in the accommodating cavity 21 of the machine body 20, and the food after being cut into mud falls into the accommodating cavity 21 through the processing hole 321, so that the full-automatic operation of cutting and pressing the food into mud by the food processing device 100 is realized. And because the food material is in holding chamber 21 throughout in the cutting bulldozing process for the food material can be repeatedly cut and bulldozed by processing subassembly 30, thereby further guarantee the cutting bulldoze mud rate and the cutting effect, guarantee that whole food material is all cut and bulldozed mud.

As shown in fig. 2-4, the processing assembly 30 includes a fixing seat 31 fixedly connected with the machine body 20, a processing plate 31 fixed in the fixing seat 31, and a processing cutter 33 in transmission connection with the transmission assembly 50, wherein a plurality of processing holes 321 are uniformly distributed on the processing plate 31, a cutting edge 3211 for cutting food is formed on the processing holes 321, the transmission assembly 50 is arranged in the processing cutter 33, and the driving assembly 11 drives the processing cutter 33 to rotate and squeeze the food on the processing plate 31 so as to process the food by using the cutting edge 3211 on the processing holes 321. An extrusion cavity for cutting and pushing food materials is formed between the processing plate 31 and the processing cutter 33, the driving assembly 11 drives the processing cutter 33 to rotate and extrude the food materials through the coupler, so that the cutting and mud pressing operation of the food materials is realized, the food materials repeatedly move on the processing plate 31 under the extrusion action of the processing cutter 33, at the moment, the food materials can be further cut by utilizing the cutting edge 3211 on the processing hole 321, and the mud cutting efficiency and mud pressing effect of the food materials are effectively improved.

As shown in fig. 2 and 7, the machining tool 33 includes a rotating base 332 that accommodates the transmission assembly 50, a cutter head 331 rotatably coupled to the fixed base 31, and a machining blade 333 obliquely disposed between the rotating base 332 and the cutter head 331. In the embodiment provided by the utility model, the processing blade 333 is obliquely arranged between the cutter 331 and the rotating seat 332, so that the processing blade 333 has a pushing function, and therefore, the food material is pushed to the processing plate 31, and the efficiency of cutting the food material into mud and the mud pressing effect are ensured under the dual actions of the processing blade 333 and the cutting edge 3211 of the processing hole 321 on the processing plate 31. In addition, the cutter head 331 and the rotating seat 332 are used for fixing the processing blade 333, so that the stability of the whole structure of the processing cutter 33 can be effectively ensured, the structural strength is improved, the service life is prolonged, and the reduction or failure of the mud forming efficiency of the food cutting caused by the unstable structure of the processing cutter 33 is avoided.

As shown in fig. 2-4, a boss 311 for positioning a rotating seat 332 and allowing the linkage shaft 22 to pass through is disposed at the center of the fixed seat 31, a positioning hole 322 capable of being sleeved on the boss 311 is disposed at the center of the processing plate 31, and the processing plate 31 is sleeved in the fixed seat 31 through the positioning hole 322. Through locating the processing board 31 on the boss 311 of fixing base 31 through locating hole 322 cover, can effectively guarantee the positioning accuracy between processing board 31 and the fixing base 31 to inject the radial displacement of processing board 31, avoid processing blade 333 when rotatory cutting food material on processing board 31, processing board 31 produces radial displacement for fixing base 31, thereby influence the cutting effect. In the embodiment provided by the utility model, the processing board 31 is in a disc structure, a plurality of processing holes 321 uniformly distributed on the processing board 31 are communicated with the accommodating cavity 21 of the machine body 20, a plurality of clamping grooves 323 are formed in the outer edge surface of the processing board 31, a plurality of positioning tables 312 for clamping and fixing the clamping grooves 323 are formed in the inner wall of the fixing base 31, and the processing board 31 is clamped and fixed on the positioning tables 312 of the fixing base 31 through the clamping grooves 323. In the embodiment provided by the utility model, the clamping groove 323 on the processing plate 31 is clamped and fixed in the positioning table 312 of the fixed seat 31, so that the clamping and fixing stability between the clamping and fixing stability can be effectively ensured, meanwhile, the radial displacement of the processing plate can be further limited under the action of the positioning hole 322 and the boss 311, the radial displacement of the processing plate 31 relative to the fixed seat 31 is avoided when the processing blade 333 rotates to cut food on the processing plate 31, and meanwhile, the processing plate 31 is detachably connected to the fixed seat 31, so that the processing plate 31 is detached from the fixed seat and cleaned or replaced after the food is cut into mud by the food mud pressing device. In addition, in other embodiments, the fixing base 31 and the processing plate 31 may be integrally formed and fixedly connected.

As shown in fig. 2 to 4, a receiving cavity for receiving the transmission assembly 50 is formed between the boss 311 of the fixed seat 31 and the rotating seat 332, the transmission assembly 50 is a plurality of gears engaged with each other, the end portion of the coupling shaft 22 is provided with outer teeth 221 for engaging with the gears, and the inner wall of the boss 311 is internally provided with inner teeth 3111 for engaging with the gears. The intermeshing gears disposed within the rotating mount 332 are drivingly coupled to the housing cavity formed between the boss 311 of the stationary mount 31 and the rotating mount 332 by the outer gear teeth 221 of the linkage shaft 22 and the inner gear teeth 3111 of the inner wall of the boss 311, such that the driving assembly 11 within the base 10 may effectively drive the rotating mount 332 to rotate. In addition, the rotating seat 332 is sleeved on the boss 311, so that the positioning precision and radial displacement of the processing cutter 33 when the processing cutter is used for rotationally cutting and pushing food materials relative to the fixed seat 31 can be effectively limited, the processing cutter 33 is ensured to always rotate around the boss 311, and the mud pressing efficiency and mud pressing effect of the processing cutter 33 for cutting and forming mud are ensured.

As shown in fig. 2, a hollow boss 3321 communicating with the boss 311 is provided at the center of the rotation seat 332, and after the coupling shaft 22 passes through the boss 311 and is engaged with the gear, the outer end of the coupling shaft 22 extends out of the boss 3321. Through the projection 3321 on the rotating seat 332, the positioning precision of the linkage shaft 22 penetrating the boss 311 and meshed with the gear for transmission can be effectively ensured, and the driving assembly 11 in the base 10 is ensured to be connected with the transmission effect of the processing cutter 33 through the linkage shaft 22 for transmission, so that the cutting effect of the processing cutter 33 for rotationally cutting and pushing food materials is improved, and the mud forming rate and uniformity of the food materials are ensured.

As shown in fig. 4, in the embodiment provided by the present utility model, the machining blade 333 includes two machining blades 333 disposed between the rotating base 332 and the cutterhead 331 in an inclined manner and symmetrically disposed with respect to the rotating base 332, and the bottom of the machining blade 333 forms a cutting portion 3331. Through two processing blades 333 that incline to set up between rotating seat 332 and blade disc 331, can further improve the holistic stability of processing cutter 33 when effectively guaranteeing the cutting effect that processing blade 333 cut and bulldoze food material, guarantee simultaneously that food material is bulldozed to processing board 31 repeatedly by processing blade 333 for processing blade 333 and processing board 31 extrude the cutting repeatedly, improve the mud rate and the degree of consistency of food material. The cutting portion 3331 at the bottom of the processing blade 333 can cut the food into fragments, and then the food is pushed and cut into mud by the cutting edge 3211 of the processing hole 321 on the processing plate 31 and the extrusion cutting action of the processing blade 333, so as to ensure the mud pressing effect of the food processing device 100.

As shown in fig. 3 and 7, the inner wall of the processing hole 321 is inclined and forms a blanking surface 3212, and the processing hole 321 is circular, elliptical or regular polygonal. After the food is mashed by the double cutting and pushing actions of the cutting edge 3211 of the processing hole 321 and the processing blade 333, the food falls into the bottom of the accommodating cavity 21 through the blanking surface 3212 of the processing hole 321 of the accommodating cavity 21 of the machine body 20, so that the user can conveniently take out the food which is cut and pushed into the mashed food from the machine body 20 after the processing is completed. In addition, the inclined blanking surface 3212 can effectively increase the mashing rate of the mashed food material after cutting and pressing. It should be noted that, the processing hole 321 may be designed into a circular shape, an elliptical shape or a regular polygon according to actual needs, so as to meet different requirements of customers while guaranteeing the mud pushing efficiency and uniformity.

As shown in fig. 8, the cover 40 includes a feed cylinder 41 in communication with the processing assembly 30 within the machine body 20, the feed cylinder 41 extending through the cover 40 and forming a feed channel. The cover 40 further includes a pushing bar 42 detachably connected to the feeding barrel 41, and the pushing bar 42 pushes the food material in the feeding barrel 41 into the processing assembly 30. The pushing rod 42 is removed from the feeding barrel 41, then food materials fall into the accommodating cavity 21 of the machine body 20 along the feeding channel through the feeding barrel 41, and finally the driving assembly 11 in the base 10 drives the processing assembly 30 to rotate and cut and push the food materials through the coupling in the machine body 20, so that automatic operation of cutting and pushing the food materials into mud by using the food material processing device 100 is realized. The food material adhered to the feeding cylinder 41 can be pushed into the accommodating cavity 21 by the pushing rod 42, so that the food material is completely dropped into the processing assembly 30 and cut and pushed into mud. In addition, after the food material is placed in the accommodating cavity 21 of the machine body 20 through the feeding barrel 41, the pushing rod 42 is buckled in the feeding barrel 41, so that the accommodating cavity 21 in the machine body 20 is closed, the food material is prevented from splashing and is always in the accommodating cavity 21 when the processing assembly 30 cuts and pushes and presses the processed food material, the food material can be repeatedly pushed and cut by the processing assembly 30, and the mud forming effect and mud forming rate of the food material processing device 100 for pushing and pressing and cutting the food material are further improved.

The foregoing description of the preferred embodiment of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims

1. The food processing device is characterized by comprising a base (10), a machine body (20), a processing assembly (30) and a machine cover (40);

a driving assembly (11) for driving the processing assembly (30) to rotate is arranged in the base (10), a transmission assembly (50) is arranged at the bottom of the processing assembly (30), a linkage shaft (22) for connecting the transmission assembly (50) and the driving assembly (11) in a transmission way is arranged in the machine body (20), and the driving assembly (11) drives the transmission assembly (50) to rotate through the linkage shaft (22) so as to drive the processing assembly (30) to process food in a containing cavity (21) of the machine body (20);

The processing assembly (30) comprises a fixing seat (31) fixedly connected with the machine body (20), a processing plate (32) fixed in the fixing seat (31) and a processing cutter (33) in transmission connection with the transmission assembly (50), the processing plate (32) is disc-shaped, a plurality of processing holes (321) are uniformly distributed in the processing plate, cutting edges (3211) for cutting food materials are formed in the processing holes (321), the transmission assembly (50) is arranged in the processing cutter (33), and the driving assembly (11) drives the processing cutter (33) to rotate and extrude the food materials on the processing plate (32) so as to utilize the cutting edges (3211) on the processing holes (321) to process the food materials.

2. A food processing device according to claim 1, characterized in that the processing tool (33) comprises a rotating seat (332) for receiving the transmission assembly (50), a cutterhead (331) rotatably connected to the fixed seat (31), and a processing blade (333) obliquely arranged between the rotating seat (332) and the cutterhead (331).

3. A food processing device according to claim 2, characterized in that a boss (311) for positioning the rotating seat (332) and allowing the linkage shaft (22) to pass through is arranged at the center of the fixed seat (31), a positioning hole (322) capable of being sleeved on the boss (311) is arranged at the center of the processing plate (32), and the processing plate (32) is sleeved in the fixed seat (31) through the positioning hole (322).

4. A food processing device according to claim 3, characterized in that a receiving cavity for receiving the transmission assembly (50) is formed between the boss (311) of the fixing seat (31) and the rotating seat (332), the transmission assembly (50) is a plurality of gears meshed with each other, an outer gear (221) meshed with the gears is arranged at the end of the linkage shaft (22), and an inner gear (3111) meshed with the gears is arranged on the inner wall of the boss (311).

5. A food processing device according to claim 4, wherein a hollow boss (3321) communicating with the boss (311) is provided at the center of the rotary base (332), and the outer end of the linkage shaft (22) extends out of the boss (3321) after the linkage shaft (22) passes through the boss (311) and is engaged with the gear.

6. A food processing device according to claim 2, characterized in that the processing cutter (33) comprises two processing blades (333) arranged obliquely between the rotating seat (332) and the cutterhead (331) and symmetrically with respect to the rotating seat (332), the bottom of the processing blades (333) forming a cutting portion (3331).

7. A food processing device according to claim 1, wherein the processing plate (32) has a disc structure, a plurality of processing holes (321) uniformly distributed on the processing plate (32) are communicated with the accommodating cavity (21) of the machine body (20), a plurality of clamping grooves (323) are formed in the outer edge surface of the processing plate (32), a plurality of positioning tables (312) capable of being clamped and fixed by the clamping grooves (323) are formed in the inner wall of the fixing seat (31), and the processing plate (32) is clamped and fixed on the positioning tables (312) of the fixing seat (31) through the clamping grooves (323).

8. A food processing device according to claim 7, wherein the inner wall of the processing hole (321) is inclined to form a material falling surface (3212), and the processing hole (321) is any one of a circle, an ellipse, and a regular polygon.

9. A food processing device according to claim 1, characterized in that the cover (40) comprises a feed cylinder (41) in communication with the processing assembly (30) within the body (20), the feed cylinder (41) extending through the cover (40) and forming a feed channel.

10. A food processing device according to claim 9, wherein the cover (40) further comprises a pushing bar (42) detachably connected to the feeding barrel (41), the pushing bar (42) pushing the food in the feeding barrel (41) into the processing assembly (30).