CN221496290U - Dicing mechanism and dicing and shredding machine - Google Patents

Abstract

The utility model relates to the technical field of food cutting, and provides a dicing mechanism which is used for processing raw materials into dices and comprises a processing groove, wherein the processing groove is provided with a discharge hole, a grid knife is arranged at the discharge hole, a rotary knife is rotatably arranged in the processing groove and is positioned above the grid knife after rotation. The rotary knife is provided with a blade part and a guide surface, the blade part is positioned at the upper end of the guide surface, the guide surface is positioned at the lower side of the rotary knife, and the guide surface is obliquely arranged and is used for guiding raw materials to the grid knife. Dicing shredders are also presented. Through the technical scheme, the technical problem that the dicing size and thickness are difficult to accurately control in the related art is solved.

Description

Dicing mechanism and dicing and shredding machine

Technical Field

The utility model relates to the technical field of food cutting, in particular to a dicing mechanism and a dicing and shredding machine.

Background

In the prior art, the dicing equipment is simple in technology, and accurate control of the dicing size and thickness of each food material is difficult to achieve, so that uneven dicing can occur. In the prior art, a large amount of manpower is needed, so that the speed is relatively low, the production efficiency is influenced, and the manual operation is easy to cause sanitary problems, such as incomplete equipment cleaning, residual food materials and the like, and the food quality and safety are influenced. The operation mode is complicated, the skilled operation can be realized only through special training and guidance, the requirement on operators is high, and the operation mode is not suitable for beginners. In addition, the traditional method is simpler in design, and food materials cannot be fully utilized to cause waste. Dicing and shredding in the prior art are two different devices, and the dicing and shredding are needed to be used simultaneously when required, so that the use cost is increased.

Disclosure of utility model

The utility model provides a dicing mechanism and a dicing and shredding machine, which solve the technical problem that the dicing size and thickness are difficult to control accurately in the related art.

The technical scheme of the utility model is as follows:

the dicing mechanism is used for processing raw materials into dices and comprises:

A processing groove which is provided with a discharge hole,

The grid knife is arranged at the discharge hole,

The rotary knife is rotatably arranged in the processing groove and is positioned above the grid knife after rotation.

As a further technical scheme, the rotary knife is provided with a blade part and a guide surface, wherein the blade part is positioned at the upper end of the guide surface, the guide surface is positioned at the lower side of the rotary knife, and the guide surface is obliquely arranged and is used for guiding raw materials to the grid knife.

As a further technical scheme, the number of the blade parts and the number of the guide surfaces are two, and the blade parts and the guide surfaces are arranged in a central symmetry manner.

As a further technical scheme, the grid knife is provided with a plurality of through holes and grid blades which are arranged in a matrix, and the grid blades are arranged upwards.

The utility model also provides a dicing and shredding machine, which comprises the dicing mechanism and further comprises:

the dicing mechanism is arranged on the machine body,

The material guide plate is obliquely arranged and positioned below the material outlet.

As a further technical scheme, the method further comprises:

the shredding cutter head is rotatably arranged on the machine body,

The vertical cutting blades are a plurality of vertical cutting blades which are sequentially arranged on the shredding cutter head,

And the transverse cutting blade is arranged on the shredding cutter head and is positioned on one side of the vertical cutting blade.

As a further technical scheme, the vertical cutter blades are vertically arranged and triangular.

As a further technical proposal, the shredding cutter head is provided with a transverse cutting blade which is arc-shaped,

The shredding cutter head is also provided with a silk outlet, and the silk outlet is positioned below the transverse cutting blade.

As a further technical scheme, the method further comprises:

A slideway vertically arranged on the machine body,

And the pressurizing piece is arranged on the slideway in a sliding way.

The working principle and the beneficial effects of the utility model are as follows:

The utility model is provided with a processing groove, the dicing process of the device is carried out in the processing groove, the scheme is also provided with a rotary knife, the rotary knife is rotationally arranged in the processing groove, and after raw materials enter the processing groove, the rotary knife cuts the raw materials along with the rotation process, and the raw materials are processed into sheets. The grid knife is arranged at the discharge hole, the rotary knife is arranged above the grid knife, after the raw materials are processed into sheets by the rotary knife, the processed raw materials are extruded by the rotary knife and contacted with the knife, the raw materials are cut into cubes by the grid knife under the action of the common force of the rotary knife and the grid knife, and the cubes after the cutting are discharged out of the processing groove through the discharge hole. This scheme uses the rotary knife to cut and push down, uses the net sword of installing on the device and the rotary knife cooperation dicing, uses the more simple efficient structure to solve the dicing problem, compares the dicing equipment among the prior art, simple structure, and the dicing effect is stable, is convenient for assembly and maintenance simultaneously.

Drawings

The utility model will be described in further detail with reference to the drawings and the detailed description.

FIG. 1 is a schematic view of a dicing mechanism according to the present utility model;

FIG. 2 is a schematic view of a rotary cutter according to the present utility model;

FIG. 3 is a schematic view of the dicing and shredding machine according to the present utility model;

FIG. 4 is a schematic view of the external structure of the present utility model;

In the figure: the device comprises a processing groove-1, a discharge hole-101, a grid knife-2, a through hole-201, a grid knife-202, a rotary knife-3, a knife part-301, a guide surface-302, a machine body-4, a guide plate-5, a shredding cutter-6, a wire outlet-601, a vertical cutter-7, a transverse cutter-8, a slide-9 and a pressing piece-10.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below in conjunction with the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

As shown in fig. 1 and 2, this embodiment proposes a dicing mechanism for processing raw materials into dices, including a processing tank 1, the processing tank 1 has a discharge port 101, a grid knife 2 is disposed at the discharge port, a rotary knife 3 is rotatably disposed in the processing tank 1, and is located above the grid knife 2 after rotation.

In this embodiment, considering that the prior art cuts the raw material into strips or sheets, then transfers the material, and processes the material twice into cubes, much labor cost and equipment cost are required. In this scheme, be provided with processing groove 1, the device dicing process is gone on in processing groove 1, still is provided with rotary knife 3 in this scheme, and rotary knife 3 rotates and sets up in processing groove 1, and the raw materials gets into in the processing groove 1 after, and rotary knife 3 cuts the raw materials along with rotating the in-process, processes the raw materials into the slice. The grid knife 2 is arranged at the discharge hole, the rotary knife 3 is arranged above the grid knife 2, after the raw materials are processed into sheets by the rotary knife 3, the processed raw materials are extruded by the rotary knife 3 and contacted with the knife, the raw materials are cut into dices by the grid knife 2 under the action of the common force of the rotary knife 3 and the grid knife 2, and the grid knife 2 can be adjusted according to the requirements, so that the technical problems of accurately controlling the size and the thickness of the dices can be well achieved. And discharging the diced meat after cutting out of the processing tank 1 through a discharge hole. This scheme uses rotary knife 3 to cut and push down, uses the net sword 2 of installing on the device and the dicing of 3 cooperation of rotary knife, uses more simple efficient structure to solve the dicing problem, compares the dicing equipment among the prior art, simple structure, and the dicing effect is stable, is convenient for assembly and maintenance simultaneously.

Further, the rotary knife 3 has a blade 301 and a guide surface 302, the blade 301 being located at an upper end of the guide surface 302, the guide surface 302 being located at a lower side of the rotary knife 3, the guide surface 302 being inclined for guiding the raw material to the grid knife 2.

In this embodiment, the preferential contact portion between the raw material and the rotary knife 3 is the blade 301 of the rotary knife 3, and the raw material is cut into pieces by the blade 301 of the rotary knife 3 and then falls into the processing tank 1, and at the same time, the raw material is located at the bottom of the guide surface 302 of the rotary knife 3, and the rotary knife 3 presses the raw material in the direction of the grid knife 2 during rotation, so that the grid knife 2 cuts the piece-shaped material cut by the blade 301 of the rotary knife 3 into a piece-shaped material by using the pressure provided by the guide surface 302 of the rotary knife 3. Compared with the dicing equipment in the prior art, the dicing device has the advantages that the pressing mechanism is reduced, the structure is simpler, the space volume in the processing groove 1 is reduced, and dicing can be more efficiently performed under the simpler structure and smaller device volume.

Further, the blade 301 and the guide surface 302 are two, and are arranged centrally and symmetrically.

In this embodiment, the blade 301 and the guide surface 302 are both two, and the portion on the rotary knife 3 that cannot realize cutting can appear in the rotation process of the single blade 301, so that the cutting operation cannot be performed normally, and meanwhile, the two blade 301 and the guide portion are arranged in central symmetry, so that the blade 301 can realize the function of cutting the raw material in the rotation direction all the time, and the working efficiency can be improved.

Further, the grid blade 2 has a plurality of through holes 201 and grid blades 202 arranged in a matrix, the grid blades 202 being disposed upward.

In this embodiment, the gridding knife 2 has a plurality of through holes 201 arranged in matrix, after the raw material is extruded by the guiding part of the rotating knife 3, the raw material is cut by the gridding knife 2 arranged upwards, and the cut material passes through the through holes 201, and the size of the through holes 201 is the size that the raw material is cut into a butyl shape. Compared with the dicing equipment in the prior art, the dicing cutter is a grid cutter 2 arranged on the device, a single-row type active dicing structure is not adopted, the structure of the device is simpler, and the dicing can be more efficient.

Example 2

As shown in fig. 3 and 4, the embodiment further provides a dicing and shredding machine, which comprises a dicing mechanism and a machine body 4, wherein the dicing mechanism is arranged on the machine body, and the material guide plate is obliquely arranged and positioned below the material outlet.

In this embodiment, the raw materials is cut into the butyl form by net sword 2 and then the organism is slipped out through the discharge gate, causes the irregular unrestrained of material easily, is provided with the stock guide on the organism, and the slope sets up in the discharge gate below, and the raw materials after processing flows out the organism through the stock guide. The stock guide is set up in this scheme, makes the blanking more stable, is difficult to take place to spill the material, is convenient for collect simultaneously.

Further, still include shredding cutter head 6, rotate and set up on organism 4, erect cutter blade 7 and set gradually on shredding cutter head 6 for a plurality of, transection blade 8 sets up on shredding cutter head 6, and is located one side of erecting cutter blade 7.

In this embodiment, dicing and shredding in the prior art are two different devices, and the dicing and shredding should be purchased and used at the same time when required, resulting in an increase in use cost. In this scheme still be provided with shredding cutter head 6, rotate and set up on organism 4, be provided with perpendicular blade 7 and crosscut blade 8 on the shredding cutter head 6, shredding cutter head 6 pivoted in-process, the raw materials fall with shredding cutter head 6 contact after, perpendicular blade 7 cuts out the raw materials bottom certain depth, in shredding cutter head 6 follow-up rotatory in-process, crosscut blade 8 and perpendicular blade 7 cut's raw materials position contact, cut once more, the cutting direction of crosscut blade 8 and perpendicular blade 7 cutting direction mutually perpendicular. The effect of rapidly finishing shredding in the same process is realized, and the shredding by using the method effectively avoids the waste of materials in the traditional method. The vertical cutter blade 7 on the shredding cutter head 6 is detachable, and after the vertical cutter blade 7 is detached, the transverse cutter blade independently works on the shredding cutter head 6, so that the effect of slicing the raw materials can be realized.

Further, the vertical cutter blades 7 are vertically arranged and triangular.

In this embodiment, erect cutter blade 7 for triangle-shaped, the hypotenuse is located shredding cutter disc 6 direction of rotation one side, and at shredding cutter disc 6 rotatory in-process, erect cutter blade 7 hypotenuse and raw materials contact and cut, set up to triangle-shaped and use hypotenuse and material cutting to be favorable to the stability of cutting, can prevent to erect cutter blade 7's damage or cause shredding cutter disc 6's damage.

Further, the shredder head 6 has a cross cutting blade 8, the cross cutting blade 8 is arc-shaped, the shredder head 6 also has a wire outlet 601, and the wire outlet 601 is located below the cross cutting blade 8.

In this embodiment, the cross cutting blade 8 has arc cross cutting blade 8, and in the rotatory in-process of shredding blade disc 6, arc cutting edge middle part earlier with the raw materials contact cutting, can reduce the resistance that cross cutting blade 8 received in the cutting process, avoid the incomplete condition emergence of producing the substandard product of material cutting that produces in the cutting process simultaneously. The device is also provided with a wire outlet 601, and after the raw materials are cut into wires, the wires slide out of the machine body 4 through the wire outlet, so that irregular scattering of the processed raw materials is avoided.

Further, the device also comprises a slideway 9 which is vertically arranged on the machine body 4, and a pressurizing piece 10 is slidably arranged on the slideway 9.

In this embodiment, in the cooperation work process of shredding cutter disc 6 and perpendicular blade 7 and transversal cutter blade, when the raw materials quality is less, can take place to slide between raw materials and the blade, cause the cutting of raw materials insufficient and perpendicular blade 7 and the damage of transversal cutter blade 8, design slide 9 and pressurization spare 10 in this scheme, pressurization spare 10 slides and sets up in slide 9, when the raw materials quality is lighter or when processing the rear end, uses pressurization spare 10 to pressurize the raw materials to shredding cutter disc 6 direction in slide 9, can realize that the raw materials is more abundant with perpendicular blade 7 and transversal cutter blade 8 contact completion shred.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (9)

1. The dicing mechanism for processing the raw materials into dices, its characterized in that includes:

A processing tank (1), wherein the processing tank (1) is provided with a discharge hole (101),

The grid knife (2), the grid knife (2) is arranged at the discharge hole (101),

The rotary knife (3) is rotatably arranged in the processing groove (1), and is positioned above the grid knife (2) after rotation.

2. The dicing mechanism according to claim 1, characterized in that the rotary blade (3) has an edge portion (301) and a guide surface (302), the edge portion (301) being located at an upper end of the guide surface (302), the guide surface (302) being located at a lower side of the rotary blade (3), the guide surface (302) being obliquely arranged for guiding the raw material to the grid blade (2).

3. The dicing mechanism according to claim 2, characterized in that the blade portion (301) and the guide surface (302) are two and arranged centrally symmetrically.

4. The dicing mechanism according to claim 1, characterized in that the grid blade (2) has a plurality of through holes (201) and grid blades (202) arranged in a matrix, the grid blades (202) being disposed upward.

5. The dicing and shredding machine is characterized by comprising the dicing mechanism according to any one of claims 1-4, and further comprising

A machine body (4), wherein the dicing mechanism is arranged on the machine body (4),

The material guiding plate (5), the material guiding plate (5) is inclined and arranged below the material outlet (101).

6. The dicing cutter of claim 5, further comprising:

a shredding cutter head (6) which is rotatably arranged on the machine body (4),

The vertical cutter blades (7) are a plurality of vertical cutter blades which are sequentially arranged on the shredding cutter head (6),

The transverse cutting blade (8) is arranged on the shredding cutter head (6) and is positioned on one side of the vertical cutting blade (7).

7. The dicing cutter according to claim 6, characterized in that the vertical cutting blade (7) is vertically arranged and triangular.

8. The dicing and shredding machine according to claim 6, characterized in that the shredding cutter head (6) has a cross cutting blade (8), the cross cutting blade (8) being arc-shaped,

The shredding cutter head (6) is also provided with a silk outlet (601), and the silk outlet (601) is positioned below the transverse cutting blade (8).

9. The dicing cutter of claim 5, further comprising:

A slideway (9) vertically arranged on the machine body (4),

And the pressurizing piece (10) is arranged on the slideway (9) in a sliding way.