CN210125461U - Double-layer grinding cutter structure - Google Patents

Abstract

The utility model provides a double-layer grinding cutter structure, which comprises a grinding motor, a grinding annular fixed cutter and a grinding movable cutter component, wherein the grinding movable cutter component and the grinding annular fixed cutter are arranged oppositely and are arranged at the output end of the grinding motor; grind moving knife subassembly including grinding the movable cutter head and grinding the movable cutter head, grind the movable cutter head and set gradually in grinding the motor output with grinding the movable cutter head, and grind the movable cutter head and set up in the end of output, grind the movable cutter head and set up in grinding cyclic annular stationary knife inboard, grind the movable cutter head and grind the relative setting of cyclic annular cutter head downside. The utility model discloses a double-deck grinding cutter structure consequently grinds the moving cutter head for current individual layer, before smashing the material and getting into the downcomer, usable grinding moving blade carries out the smashing here and grinds, greatly reduced food waste residue risk, improved crushing efficiency and strengthened crushing effect.

Description

Double-layer grinding cutter structure

Technical Field

The utility model relates to a technical field of kitchen food waste disposer accessory, especially a double-deck grinding tool structure.

Background

The kitchen garbage disposer (also known as a food garbage disposer, a kitchen garbage disposer and a food garbage disposer) is arranged at a water outlet of a vegetable washing basin in a household kitchen, belongs to common auxiliary equipment for garbage disposal in a modern kitchen, and can conveniently grind food garbage into fine particles by food property kitchen garbage such as vegetable heads, vegetable tails, leftovers and the like after the garbage is collected and is crushed in a centralized manner by a grinding mechanism in the garbage disposer, and then discharge the particles into a sewer pipeline along with water. When the garbage disposer is installed, a garbage feeding port on the garbage disposer is connected to the bottom of the water tank, and a crushed object discharge port on the garbage disposer is connected with a sewer pipe.

At present, the kitchen garbage disposer in the market mostly adopts a single-layer grinding movable cutter disc to grind and crush food kitchen garbage, and has the following defects:

firstly, the single-layer crushing efficiency is low;

secondly, the single-layer crushing effect is poor, and the risk of food waste residue exists.

In view of the above, the present inventors have specially designed a double-layer grinding tool structure, and have resulted from this.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problem, the technical scheme of the utility model is as follows:

a double-layer grinding cutter structure comprises a grinding motor, a grinding annular fixed cutter and a grinding movable cutter component, wherein the grinding movable cutter component and the grinding annular fixed cutter are arranged oppositely and arranged at the output end of the grinding motor, and the grinding motor drives the grinding movable cutter component to rotate;

grind moving knife subassembly including grinding the movable cutter head and grinding the movable cutter head, grind the movable cutter head and set gradually in grinding the motor output with grinding the movable cutter head, and grind the movable cutter head and set up in the end of output, grind the movable cutter head and set up in grinding cyclic annular stationary knife inboard, grind the movable cutter head and grind the relative setting of cyclic annular cutter head downside.

Further, the grinding movable blade comprises a main body part for protecting the grinding motor and a blade group connected with the main body part, and the tail end of the blade group extends to the lower part of the grinding annular fixed knife.

Furthermore, the main body part is a cone frustum, the upper end of the cone frustum is close to the grinding movable cutter head and far away from the grinding movable cutter head, the outer diameter of the cone frustum is gradually increased, and a containing groove for protecting the grinding motor is formed in the large end face of the cone frustum.

Furthermore, the blade group is connected with the main body part through an annular transition part, the transition part is arranged on the outer side of the large end face of the cone frustum, and the transition part is horizontally arranged.

Furthermore, the bottom of the containing groove is provided with a through hole for penetrating through the output end of the grinding motor.

Furthermore, the blade group comprises a plurality of rotary blades, and the rotary cutter heads are arranged on the outer side of the transition part or the main body part in a circumferential array mode.

Furthermore, the plurality of rotary blades and the transition part are positioned on the same horizontal plane, each rotary blade is provided with an inclined cutting edge, and the inclined cutting edge is an inclined surface which is inclined inwards from top to bottom.

Furthermore, the plurality of rotary blades are inclined, inclined cutting edges are arranged at the front ends along the rotating direction, and the tail ends are inclined downwards; the inclined cutting edge is an inclined surface which is inclined inwards from top to bottom. A double-layer grinding tool structure.

Further, the number of the rotary blades is 2-36.

The double-layer grinding cutter structure of the utility model is provided with the grinding moving cutter component which can be driven to rotate by the grinding motor, wherein the grinding moving cutter component comprises the grinding moving cutter disc and the grinding moving cutter blade, because the food waste is ground by the grinding moving cutter disc rotating at high speed, the grinding moving cutter disc is directly thrown to the edge after being beaten and smashed under the use of centrifugal force, the grinding annular stationary cutter positioned outside the grinding moving cutter disc carries out cutting treatment, the waste is smashed to a certain degree after being cut, namely, the grinding annular stationary cutter is matched with the grinding moving cutter disc to finish the first smashing, then the crushed aggregates fall into the lower layer from the clearance between the grinding annular stationary cutter and the grinding moving cutter disc, after the crushed aggregates fall into the grinding moving cutter blade, because the grinding moving cutter blade also rotates at high speed under the driving of the grinding motor, namely, the grinding moving cutter blade is arranged opposite to the lower side of the grinding annular cutter disc, the, finally, the sewage falls below after being treated and flows into a sewer pipe through water flow scouring; therefore for current individual layer grinding moving cutter dish, before smashing the material and getting into the downcomer, usable grinding moving blade carries out the smashing here and grinds, greatly reduced food waste and remained the risk, improved crushing efficiency and strengthened crushing effect.

Drawings

The accompanying drawings, which are described herein, serve to provide a further understanding of the invention and constitute a part of this specification, and the exemplary embodiments and descriptions thereof are provided for explaining the invention without unduly limiting it.

Wherein:

FIG. 1 is an exploded view of the embodiment 1 of the cutter structure of the present invention;

FIG. 2 is a front view of embodiment 1 of the cutting tool structure of the present invention;

fig. 3 is a schematic structural view of a rotary blade in embodiment 1 of the present invention;

fig. 4 is a bottom view of the rotary blade according to embodiment 1 of the present invention;

fig. 5 is an exploded view of the cutter structure of embodiment 2 of the present invention;

fig. 6 is a front view of the embodiment 2 of the cutter structure of the present invention;

fig. 7 is a schematic structural view of a rotary blade in embodiment 2 of the present invention;

fig. 8 is a bottom view of the rotary blade according to embodiment 2 of the present invention.

Description of reference numerals:

10-grinding annular fixed knife, 01-grinding movable knife component, 20-grinding movable knife disk, 30-grinding movable knife blade, 31-main body part, 311-accommodating groove, 312-through hole, 32-transition part, 33-rotary knife blade and 331-inclined plane.

Detailed Description

In order to make the technical problem, technical solution and advantageous effects to be solved by the present invention clearer and more obvious, the following description of the present invention with reference to the accompanying drawings and embodiments is provided for further details. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

Example 1

Please refer to fig. 1 to 4, which are illustrations of a double-layer grinding tool structure according to embodiment 1 of the present invention, which is used in a grinding cavity of a food waste disposer and is also suitable for a grinding cavity of a commercial waste disposer, and the double-layer grinding tool structure includes a grinding motor, a grinding ring-shaped stationary knife 10, and a grinding moving knife assembly 01, wherein the grinding moving knife assembly 01 is disposed opposite to the grinding ring-shaped stationary knife 10 and is disposed at an output end of the grinding motor, and the grinding motor drives the grinding moving knife assembly 01 to rotate.

The grinding movable knife component 01 comprises a grinding movable knife disc 20 and a grinding movable knife disc 30, the grinding movable knife disc 30 and the grinding movable knife disc 20 are sequentially arranged at the output end of the grinding motor, the grinding movable knife disc 20 is arranged at the tail end of the output end, the grinding movable knife disc 20 is arranged on the inner side of the grinding annular fixed knife 10, and the grinding movable knife disc 30 and the lower side of the grinding annular knife disc are oppositely arranged.

The grinding moving blade 30 comprises a main body 31 for protecting the grinding motor and a blade group connected with the main body 31, and the tail end of the blade group extends to the lower part of the grinding annular fixed knife 10.

The main body part 31 is a cone frustum, the upper end of the cone frustum is close to the grinding movable cutter disc 20 and far away from the grinding movable cutter disc 20, the outer diameter of the cone frustum is gradually increased, and a large end face of the cone frustum is provided with a holding groove 311 for protecting a grinding motor; the middle annular bulge is used for protecting the middle sealing part of the grinding motor shaft from being directly impacted by water flow (the shaft end oil seal of the water flow and crushed garbage can be prevented from directly impacting the dummy film motor), the service life of the grinding motor is greatly prolonged, and the service life of the whole machine is prolonged.

The blade group is connected with the main body part 31 through an annular transition part 32, the transition part 32 is arranged outside the large end surface of the cone frustum, and the transition part 32 is horizontally arranged.

The bottom of the accommodating groove 311 is provided with a through hole 312 for passing through the output end of the grinding motor.

The blade group comprises a plurality of rotary blades 33, and a plurality of rotary cutter discs are arranged on the outer side of the transition part 32 or the main body part 31 in a circumferential array; namely, the plurality of rotary blades 33 are uniformly arranged, and the number of the rotary blades is 2 to 36 according to the size of the grinding cavity; a certain gap is formed between every two opposite rotating blades 33, so that crushed materials can be discharged quickly.

The plurality of rotary blades 33 and the transition portion 32 are located on the same horizontal plane, each rotary blade 33 is provided with an inclined cutting edge, the inclined cutting edge is an inclined surface 331 inclined inwards from top to bottom, that is, the inclined surface 331 of the rotary blade 33 can enhance the crushing effect, so that crushed materials after crushing are finer.

The utility model discloses double-deck grinding tool structure's concrete principle as follows:

food waste is through the rotatory grinding movable cutter head 20 at a high speed, under the effect of centrifugal force, grind movable cutter head 20 and beat and smash the back and directly get rid of to the edge, it carries out cutting process to be located grinding cyclic annular stationary knife 10, the rubbish is smashed to a certain extent after the cutting, the crushed aggregates falls into the lower floor from the clearance between grinding cyclic annular stationary knife 10 and the grinding movable cutter head 20, through grinding movable blade 30, because grinding movable blade 30 follows grinding motor high-speed rotatory, and take certain oblique blade, form cutting shredding once more, the processing is accomplished and is fallen into on the below fixing base, flow into the downcomer from the fixing base delivery port through rivers erode.

Just the utility model discloses double-deck grinding tool structure brings following beneficial effect:

1. before the crushed materials enter the water pipe, the crushing and grinding are carried out again by the grinding movable blade 30, so that the crushed materials are thinner, and the residual risk of food waste is greatly reduced;

2. the rotary blade 33 has a dual function: not only can the crushing be realized, but also the crushing effect is enhanced; the main body part 31 can play a certain protection role (waterproof cap effect) on the grinding motor;

3. the reinforcing discharge rate, because high-speed rotatory, have the effect of discharge with higher speed to accomplishing kibbling food waste, prevent the putty risk, accessible control spinning blade 33 quantity, two liang spinning blade 33's of machine clearance to control row material speed.

Example 2

Please refer to fig. 5 to 8, which are related to a double-layer grinding tool structure according to embodiment 2 of the present invention, the difference between this embodiment and embodiment 1 is that the structure of the rotary blade 33 is different, and the other structures are the same, so that no further description is given to these embodiments, the rotary blades 33 in embodiment 2 are inclined, and an inclined cutting edge is disposed at the front end along the rotation direction, and the tail end is inclined downward; the inclined cutting edge is an inclined surface 331 which is inclined inwards from top to bottom; adopt the structure of this embodiment, because terminal downward sloping (class fan leaf shape), to the good material of bottom crushing, there is the effect of expediting row material speed.

To sum up, the double-layer grinding cutter structure of the utility model is provided with the grinding moving cutter component which can be driven to rotate by the grinding motor, wherein the grinding moving cutter component comprises the grinding moving cutter disc and the grinding moving cutter blade, because the food waste is ground by the grinding moving cutter disc rotating at high speed, under the use of centrifugal force, the grinding moving cutter disc is beaten and smashed and then directly thrown to the edge, the grinding annular stationary cutter positioned outside the grinding moving cutter disc carries out cutting treatment, the waste is smashed to a certain degree after cutting, namely, the grinding annular stationary cutter is matched with the grinding moving cutter disc to finish the first smashing, then the crushed aggregates fall into the lower layer from the clearance between the grinding annular stationary cutter and the grinding moving cutter disc, after the crushed aggregates fall into the grinding moving cutter blade, because the grinding moving cutter blade also rotates at high speed under the drive of the grinding motor, namely, the grinding moving cutter blade is arranged opposite to the lower side of the grinding annular cutter disc, the, finally, the sewage falls below after being treated and flows into a sewer pipe through water flow scouring; therefore for current individual layer grinding moving cutter dish, before smashing the material and getting into the downcomer, usable grinding moving blade carries out the smashing here and grinds, greatly reduced food waste and remained the risk, improved crushing efficiency and strengthened crushing effect.

The present invention has been described above with reference to the accompanying drawings, and it is obvious that the present invention is not limited by the above-mentioned manner, and various insubstantial improvements can be made without modification to the method and technical solution of the present invention, or the present invention can be directly applied to other occasions without modification, all within the scope of the present invention.

Claims (9)

1. A double-layer grinding cutter structure is characterized by comprising a grinding motor, a grinding annular fixed cutter and a grinding movable cutter component, wherein the grinding movable cutter component and the grinding annular fixed cutter are arranged oppositely and arranged at the output end of the grinding motor, and the grinding motor drives the grinding movable cutter component to rotate;

grind moving knife subassembly including grinding the movable cutter head and grinding the movable cutter head, grind the movable cutter head and set gradually in grinding the motor output with grinding the movable cutter head, and grind the movable cutter head and set up in the end of output, grind the movable cutter head and set up in grinding cyclic annular stationary knife inboard, grind the movable cutter head and grind the relative setting of cyclic annular cutter head downside.

2. The double-layer grinding cutter structure according to claim 1, wherein the grinding moving blade comprises a main body part for protecting the grinding motor and a blade group connected with the main body part, and the tail end of the blade group extends to the lower part of the grinding annular fixed cutter.

3. The double-layer grinding cutter structure according to claim 2, wherein the main body part is a truncated cone, the upper end of the truncated cone is arranged close to the grinding moving cutter disc and away from the grinding moving cutter disc, the outer diameter of the truncated cone is gradually increased, and a containing groove for protecting the grinding motor is arranged on the large end surface of the truncated cone.

4. The double-deck grinding tool structure of claim 3, wherein the blade set is connected to the main body portion by an annular transition portion, the transition portion is disposed outside the large end face of the truncated cone, and the transition portion is disposed horizontally.

5. The double-deck grinding tool structure of claim 3, wherein the bottom of the receiving groove is provided with a through hole for passing through the output end of the grinding motor.

6. The double-deck grinding tool structure of any one of claims 2-5, wherein said blade assembly comprises a plurality of rotary blades, and a plurality of said rotary cutter heads are disposed in a circumferential array on the outside of said transition portion or said main body portion.

7. The double-deck grinding tool structure of claim 6, wherein a plurality of said rotating blades and the transition portion are located on the same horizontal plane, and each of said rotating blades has an inclined edge, and said inclined edge is an inclined plane inclined inward from top to bottom.

8. The double-layer grinding tool structure as claimed in claim 6, wherein the plurality of rotary blades are inclined, and the front end of the rotary blades is provided with an inclined cutting edge along the rotation direction, and the tail end of the rotary blades is inclined downwards; the inclined cutting edge is an inclined surface which is inclined inwards from top to bottom.

9. The double-deck abrasive tool structure of claim 6, wherein said number of said rotary blades is 2-36.

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