CN108068156B

CN108068156B - Slicing machine

Info

Publication number: CN108068156B
Application number: CN201611026119.1A
Authority: CN
Inventors: 王冬雷; 陈学军; 杨祥吉; 柴朝阳
Original assignee: Zhuhai Hengqin Xinrun Intelligent Manufacturing Co ltd
Current assignee: Zhuhai Hengqin Xinrun Intelligent Manufacturing Co ltd
Priority date: 2016-11-16
Filing date: 2016-11-16
Publication date: 2024-01-09
Anticipated expiration: 2036-11-16
Also published as: CN108068156A

Abstract

The invention relates to the technical field of food processors, and aims to provide a slicing machine which is continuous in shredding or slicing, easy to clean and simple and convenient to operate. The slicing machine comprises a power base component, a container, a slicing cutter head component and a feeding component, wherein the container is arranged on the power base component, the feeding component is arranged above the container, the slicing cutter head component is arranged in the container and connected with the power base component and is driven to operate by the power base component, and the rotation center of the slicing cutter head component is coaxial with the rotation center of a power shaft of the power base component and is covered by the orthographic projection of a feeding port of the feeding component in the horizontal direction. The central feeding of the slicing machine can realize uninterrupted slicing, and continuous filaments or long sheets are obtained by slicing.

Description

Slicing machine

Technical Field

The invention relates to the technical field of food processors, in particular to a slicing machine.

Background

The existing household food processor is characterized in that a transmission shaft is arranged in the center of a cutter disc, but cut wires and slices are short and discontinuous, and ultra-long wires or slices with the length being more than or even multiple times of the cross section size of food cannot be cut; the other is that the cutter head is in a hollow tubular shape with a central shaft, and the lower part of the cutter head is provided with an opening for discharging, but the inside of the central shaft needs to be cleaned, so that the cutter head is not easy to clean; the cutter head is fixed, the power device is arranged above the cutter head, and the power device is provided with a power wire and a motor, so that the food processor is heavy in hand-held weight and inconvenient to operate.

Disclosure of Invention

Based on the above, the invention provides a slicing machine using a slicing assembly, which solves the problems that the existing household food processor is easy to cut into shreds or slices, discontinuous, difficult to clean and inconvenient to operate.

The utility model provides a slicer, includes power base subassembly, container, slicing knife dish subassembly and feeding subassembly, the container sets up on the power base subassembly, feeding subassembly sets up the container top, slicing knife dish subassembly set up in the container and with power base subassembly is connected, and by power base subassembly drive operation, its characterized in that, slicing knife dish subassembly's rotation center with power base subassembly's power shaft rotation center is coaxial, and is covered by feeding subassembly's pan feeding mouth in the orthographic projection of horizontal direction.

In one embodiment, the slicing cutter disc assembly comprises a cutter disc seat main body, a cutter disc and blades radially arranged on the cutter disc, wherein the peripheral outline of the upper end surface of the cutter disc seat main body is a spiral curve, and a spiral cone is formed downwards; the upper end face of the cutterhead seat main body is fixedly connected with the cutterhead, a notch for food to pass through is formed in the cutterhead seat main body below the blade, and the lower end face of the cutterhead seat main body is connected with the power base component.

In one embodiment, the power base assembly comprises a base and a power device arranged in the base, wherein a clutch is arranged at the bottom of the cutterhead base main body and is connected with an output disc of the power device.

In one embodiment, the blade comprises a linear blade and a toothed cutter, the cutter head is provided with a blade groove and a cutter groove, the linear blade is arranged at the blade groove, and the toothed cutter is arranged at the cutter groove.

In one embodiment, the toothed cutter thorns and the linear blades are arranged along the radial direction of the cutter disc from the center of the cutter disc.

In one embodiment, the feeding assembly comprises an upper cover and a pushing rod, wherein the upper cover is provided with a feeding pipe, and the pushing rod is inserted into the feeding pipe.

In one embodiment, the bottom end of the pushing rod is provided with positioning teeth.

In one embodiment, the transverse cross-sectional shapes of the feeding pipe and the pushing rod are rectangular.

In one embodiment, the outer surface of the pushing rod is provided with a plurality of axial grooves or protrusions, and the inner surface of the feeding pipe is provided with axial protrusions or grooves matched with the plurality of axial grooves or protrusions.

According to the slicing machine disclosed by the invention, the rotation center of the slicing cutter head assembly is coaxial with the rotation center of the power shaft of the power base assembly, and is covered by orthographic projection of the feeding opening of the feeding assembly in the horizontal direction, and continuous slicing can be realized by central feeding, so that continuous filaments or long sheets are obtained by slicing.

The cutter head seat main body of the slicing machine disclosed by the invention is a spiral cone, has the functions of supporting the cutter head and transmitting torque and guiding food, and can ensure that the cut food or the sliced food is smoothly discharged to the lower part of the cutter head and falls into a container to the maximum extent, so that the cut food or the sliced food is prevented from being broken by pulling.

The cutter head of the slicing machine is arranged at the upper part of the cutter head seat main body, the clutch is arranged at the bottom of the cutter head seat main body and is connected with the output disc of the power device, and the power device drives the cutter head seat main body to rotate through the output disc and the clutch so as to drive the cutter head to rotate for cutting, so that the slicing machine has a simple structure and is easy to clean.

According to the slicing machine, the central feeding mode and the mode that blades are radially arranged along the cutter disc from the center of the cutter disc ensure that food in the central part is cut, so that the cutting efficiency is improved, and the food waste is avoided.

Drawings

FIG. 1 is a perspective view of a slicing machine of the present invention;

FIG. 2 is an exploded view of the slicer of the present invention;

FIG. 3 is a schematic view of the cutter head of the slicing machine according to the present invention;

FIG. 4 is a schematic view of a cutter head assembly of the present invention;

fig. 5 is a schematic view showing a cutter head assembly of the slicing machine according to the second embodiment of the present invention.

Detailed Description

As shown in fig. 1 and 2, the slicing machine of the present invention includes a power base assembly 100, a container 200 for containing cut food, a cutter head assembly 300 disposed on the power base assembly 100, and a feeding assembly 400 disposed above the container 200, wherein the cutter head assembly 300 is disposed in the container 200 and connected to the power base assembly 100 and driven to operate by the power base assembly 100. The slicing machine adopts a central feeding mode, namely, the rotation center of the slicing cutter head assembly 300 is coaxial with the rotation center of the power shaft of the power base assembly 100, and is covered by the orthographic projection of the feeding opening of the feeding assembly 400 in the horizontal direction, and continuous filament or long sheet can be obtained through continuous slicing by central feeding.

The planer cutter disc assembly 300 includes a disc seat body 310, a cutter disc 320, and blades 330 radially disposed on the cutter disc 320 along the cutter disc 320. The cutter seat main body 310 is disposed at the lower portion of the cutter 320, and the peripheral outline of the upper end surface 310A of the cutter seat main body 310 is in a spiral curve shape, so as to form a spiral cone downwards. The upper end surface of the cutterhead seat main body 310 is fixedly connected with the cutterhead 320, and the lower end surface of the cutterhead seat main body 310 is connected with the power base assembly 100. A notch 312 is provided in the cutterhead seat body 310 below the blade 330 to keep away from under the blade 330 and to provide a passage to ensure that food can be wound onto the seat body after being cut.

The power base assembly 100 provides power to rotate the cutterhead 320, and the food is continuously cut to form filaments or strips, continuously falls from the notch 312 below the blade 330 and winds on the cutterhead seat main body 310, and the cutterhead seat main body 310 is a spiral cone, so that the filaments or strips of food can smoothly wind on the spiral cone and fall down, and cannot be broken due to over-tightening of rotation and winding. The cutter seat main body 310 has the functions of supporting the cutter 320 and transmitting torque, and guiding food, so that the food shreds or slices can be discharged smoothly to the lower part of the cutter 320 to fall into the container 200 to the greatest extent, and the long shreds or long slices are prevented from being broken.

The power base assembly 100 comprises a base and a power device arranged in the base, wherein an output disc 110 of the power device is arranged at the upper part of the base, a clutch 311 is arranged at the bottom of a cutter disc seat main body 310, and the clutch 311 is connected with the output disc 110 of the power device. The power device drives the cutter seat main body 310 to rotate through the output disc and the clutch, and further drives the cutter 320 to rotate for cutting.

For the specific structural composition of the blade 330, specifically, the blade 330 comprises a linear blade 331 and a toothed cutter 332, a blade groove 321 and a cutter groove 322 are formed in the cutter 320, the linear blade 331 is mounted at the blade groove 321, and the toothed cutter 332 is mounted at the cutter groove 322. The mode that two cutting edges are combined is adopted, effective shredding is facilitated, when food is cut, the toothed knife thorn 332 is used for cutting the food into a plurality of cracks, the linear knife blade 331 is used for cutting a layer of food which is cut into the cracks, and the food and the knife blade continuously rotate relatively, so that the food is cut continuously, and the food is cut into continuous long filaments. The toothed knife thorns 332 with different specifications of tooth spaces are replaced, so that filament foods with different thicknesses can be obtained, and the requirements for diversification of foods can be met.

The linear blade 331 is fixed to the blade slot 321 by a screw, the toothed knife spine 332 is mounted on the knife spine slot 322 by a knife spine fixing piece 340, and the knife spine fixing piece can be mounted on the knife spine slot 322 by a clamping manner, etc., so as to realize the function of cutting long food. By changing the wire-shaped blade 331 with different shapes and heights, sliced foods with different thicknesses can be obtained.

Referring to fig. 4, in order to ensure that the food in the central portion is also cut, the toothed cutter 332 and the wire blades 331 are radially disposed along the cutter 320 from the center of the cutter 320, so that the central portion of the food is also cut during the rotary cutting process, thereby avoiding the waste of the food.

In order to avoid food getting stuck on the blade, the toothed knife thorns 332 are arranged at an angle to the linear blade 331, at a distance.

For structural composition of the feeding assembly 400, in particular, the feeding assembly 400 includes an upper cover 410 and a pushing rod 420, the upper cover 410 is provided with a feeding pipe 411, and the pushing rod 420 is inserted into the feeding pipe. In use, food is placed in the feed tube 411 of the upper lid 410 and the pusher bar 420 is pressed downwardly to press the food against the cutterhead 320.

Wherein, the bottom end of the pushing bar 420 is provided with positioning teeth 421 for positioning food.

In order to avoid that food follows the cutterhead 320 to rotate together when feeding and pushing, and to influence the slicing efficiency, it is necessary to ensure that the pushing rod 420 does not rotate along with the cutterhead 320, the feeding pipe 411 and the pushing rod 420 may be designed to be in a cubic shape, i.e. the transverse cross-section shape is rectangular, and may be designed to be other non-cylindrical regular bodies. The outer surface of the pushing rod 420 may also be provided with a plurality of axial grooves or protrusions, and the inner surface of the feeding pipe may be provided with axial protrusions or grooves matching the plurality of axial grooves or protrusions.

The working process of the slicing machine comprises the following steps:

the positioning teeth 421 of the pushing rod 420 are inserted with the food to be shredded, the food is fed into the feeding pipe 411, the upper part of the pushing rod 420 is lightly pushed by hand, after the cutterhead 320 rotates, the food firstly cuts the food into a plurality of cracks through the toothed knife thorn 332, then the linear knife 331 cuts off a layer of the food which is cut into cracks, the food and the knife continuously rotate relatively, so that the food is cut into continuous long filaments, the long filaments continuously fall from the notch 312 below the knife and are wound on the cutterhead seat main body 310, and the long filaments or the long filaments can be smoothly wound on the spiral cone and fall into the container 200 due to the spiral cone of the cutterhead seat main body 310.

The foregoing examples illustrate only a few embodiments of the invention and are described in detail herein without thereby limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims

1. The slicing machine comprises a power base component, a container, a slicing cutter head component and a feeding component, wherein the container is arranged on the power base component, the feeding component is arranged above the container, and the slicing cutter head component is arranged in the container, is connected with the power base component and is driven to operate by the power base component;

the slicing cutter disc assembly comprises a cutter disc seat main body, a cutter disc and blades arranged on the cutter disc along the radial direction of the cutter disc, wherein the peripheral outline of the upper end surface of the cutter disc seat main body is a spiral curve, and a spiral cone is formed downwards; the upper end face of the cutterhead seat main body is fixedly connected with the cutterhead, a notch for food to pass through is formed in the cutterhead seat main body below the blade, and the lower end face of the cutterhead seat main body is connected with the power base component;

the blade comprises a linear blade and a toothed cutter, and a blade groove and a cutter groove are formed in the cutter disc; the linear blade is fixed in the blade groove through a screw, the toothed knife thorn is arranged on the knife thorn groove through a knife thorn fixing piece, and the knife thorn fixing piece is arranged on the knife thorn groove through a clamping mode.

2. The slicer of claim 1, wherein the power base assembly includes a base and a power device disposed within the base, a clutch disposed at a bottom of the cutterhead base body, the clutch being coupled to an output disc of the power device.

3. The slicing machine of claim 1 wherein said toothed cutter and linear blades are disposed radially from the center of the cutter disc.

4. The slicing machine of claim 1, wherein said feed assembly comprises an upper cover provided with a feed tube and a push rod inserted into said feed tube.

5. The slicing machine of claim 4 wherein said pusher bar bottom end is provided with positioning teeth.

6. A slicing machine as claimed in claim 4, wherein the feed tube and the pusher bar are rectangular in transverse cross-sectional shape.

7. A slicing machine according to claim 4, wherein the outer surface of the pushing bar is provided with a plurality of axial grooves or protrusions and the inner surface of the feed tube is provided with axial protrusions or grooves cooperating with the plurality of axial grooves or protrusions.