CN219705370U - Rotary feeding type dicer - Google Patents

Abstract

The utility model discloses a rotary feeding type dicer which comprises a frame, wherein an operation table is arranged on the frame, a dicer station is arranged on the operation table, a cutter assembly is arranged on the dicer station, a feeding device for conveying materials to the dicer station is rotatably arranged on the operation table, a pressing assembly positioned above the cutter assembly is arranged on the operation table, and a discharging and conveying device is arranged below the cutter assembly; when the cutter assembly is in operation, the feeding device sequentially conveys materials to be cut to the dicing station, the materials are positioned above the cutter assembly, after the materials are in place, the material pressing assembly is started, the materials are pressed to the cutter assembly, and the materials are cut into blocks at one time; the cutting efficiency is high, presses the cutting mode, does not need to draw the sword back and forth on the material surface, and the cutting surface is more neat, and product quality is stable and unified.

Description

Rotary feeding type dicer

Technical Field

The utility model relates to food processing equipment, in particular to a rotary feeding type dicer.

Background

In the food processing process, solid food is often required to be cut into blocks, for example, in the processing process of meat products, meat blocks with proper sizes are often required to be cut according to requirements, and the block cutting machine in the prior art has some technical problems, for example, the block finished product structure is large or small, the shape is also non-uniform, and the cutting efficiency is low. The existing dicer has poor cutting effect on materials with inconsistent thickness or irregular shape.

Disclosure of Invention

The utility model aims to solve the technical problem of providing a rotary feeding type dicer with high cutting efficiency and good finished product quality.

In order to solve the technical problems, the technical scheme of the utility model is as follows: the rotary feeding type dicer comprises a frame, an operation table is arranged on the frame, a dicing station is arranged on the operation table, a cutter assembly is arranged on the dicing station, a feeding device for conveying materials to the dicing station is rotatably arranged on the operation table, a pressing assembly positioned above the cutter assembly is arranged on the operation table, and a discharging conveying device is arranged below the cutter assembly.

As a preferable technical scheme, the cutter assembly comprises a cutter frame body, two groups of cutters which are arranged in a crossing manner are arranged in the cutter frame body, each row of cutters comprises a plurality of blades which are arranged in a arraying manner, and the cutting edges of the two groups of cutters are arranged towards the material pressing assembly.

As a preferred technical solution, the two sets of cutters are arranged in a vertically crossed or obliquely crossed manner.

As a preferable technical scheme, the feeding device comprises a feeding turntable rotatably mounted on the operation table, a plurality of feeding grooves communicated with the operation table are circumferentially distributed on the feeding turntable, and a feeding driving device in transmission connection with the feeding turntable is mounted on the frame.

As a preferable technical scheme, the feeding driving device comprises a feeding driving motor, a rotating shaft is fixedly arranged at the bottom end of the feeding turntable, and the rotating shaft is in transmission connection with the feeding driving motor.

As a preferable technical scheme, the material pressing assembly comprises a material pressing table arranged on one side of the operation table, a material pressing driving device is arranged on the material pressing table, and a material pressing disc which is positioned above the cutting station and can penetrate through the feeding device and press materials to the cutter assembly is arranged at the power output end of the material pressing driving device.

As a preferable technical scheme, the material pressing driving device comprises a material pressing driving cylinder, and the end part of a power output shaft of the material pressing driving cylinder is in transmission connection with the material pressing disc.

As a preferable technical scheme, guide rods positioned on two sides of the pressing driving device are arranged on the pressing tray, and the end parts of the guide rods extend upwards and penetrate through the pressing table.

As a preferable technical scheme, the discharging and conveying device comprises a discharging and conveying frame arranged below the dicing station, and a discharging and conveying belt is arranged on the discharging and conveying frame.

As a preferred embodiment, the outfeed conveyor frame extends obliquely outward and upward from below the dicing station.

Due to the adoption of the technical scheme, the rotary feeding type dicer comprises a frame, an operation table is arranged on the frame, a dicing station is arranged on the operation table, a cutter assembly is arranged on the dicing station, a feeding device for conveying materials to the dicing station is rotatably arranged on the operation table, a material pressing assembly positioned above the cutter assembly is arranged on the operation table, and a discharging and conveying device is arranged below the cutter assembly; when the cutter assembly is in operation, the feeding device sequentially conveys materials to be cut to the dicing station, the materials are positioned above the cutter assembly, after the materials are in place, the material pressing assembly is started, the materials are pressed to the cutter assembly, and the materials are cut into blocks at one time; the cutting efficiency is high, presses the cutting mode, does not need to draw the sword back and forth on the material surface, and the cutting surface is more neat, and product quality is stable and unified.

Drawings

The following drawings are only for purposes of illustration and explanation of the present utility model and are not intended to limit the scope of the utility model. Wherein:

FIG. 1 is a perspective view of an embodiment of the present utility model;

FIG. 2 is a side view of an embodiment of the present utility model;

figure 3 is a schematic view of the structure of a cutter assembly according to an embodiment of the present utility model;

FIG. 4 is a cross-sectional view taken along A-A in FIG. 3;

in the figure: 11-a frame; 12-an operation table; 21-a cutter frame; 22-blade; 31-a feeding turntable; 32-a feed chute; 33-a feeding driving motor; 34-rotating shaft; 41-a material pressing table; 42-pressing a material tray; 43-a material pressing driving cylinder; 44-a guide bar; 5-a discharging conveying frame.

Detailed Description

The utility model is further illustrated in the following, in conjunction with the accompanying drawings and examples. In the following detailed description, certain exemplary embodiments of the present utility model are described by way of illustration only. It is needless to say that the person skilled in the art realizes that the described embodiments may be modified in various different ways without departing from the spirit and scope of the utility model. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive in scope.

As shown in fig. 1 to 4, the rotary feeding type dicer comprises a frame 11, an operation table 12 is installed on the frame 11, a dicing station is arranged on the operation table 12, a cutter assembly is installed on the dicing station, a feeding device for conveying materials to the dicing station is rotatably installed on the operation table 12, a pressing assembly located above the cutter assembly is installed on the operation table 12, and a discharging and conveying device is installed below the cutter assembly.

The cutter assembly comprises a cutter frame body 21, two groups of cutters which are arranged in a crossing way are arranged in the cutter frame body 21, each row of cutters comprises a plurality of blades 22 which are arranged in a arraying way, and the cutting edges of the two groups of cutters are arranged towards the material pressing assembly; the two sets of blades 22 form a grid structure. The two groups of cutters are arranged in a perpendicular crossing manner or in an inclined crossing manner, and when the two groups of cutters are arranged in a perpendicular manner, square blocks or rectangular blocks can be cut; different diamond structures can be obtained by adjusting the crossing angle of the two groups of cutters, and of course, blocks with other shapes, such as hexagonal or pentagonal, can be cut by reasonably planning the distribution of the cutters.

The feeding device comprises a feeding turntable 31 rotatably mounted on the operation table 12, a plurality of feeding grooves 32 communicated with the operation table 12 are circumferentially distributed on the feeding turntable 31, the shape of the feeding grooves 32 can be set according to the requirement, and in the embodiment, the feeding grooves 32 are circular grooves. The frame 11 is provided with a feeding driving device in transmission connection with the feeding turntable 31. The feeding driving device comprises a feeding driving motor 33, a rotating shaft 34 is fixedly arranged at the bottom end of the feeding turntable 31, and the rotating shaft 34 is in transmission connection with the feeding driving motor 33. Other driving modes and driving structures can be adopted for the feeding turntable 31, so long as the feeding turntable 31 is reasonable in structure and can be driven to stably rotate for feeding.

The material pressing assembly comprises a material pressing table 41 arranged on one side of the operation table 12, a material pressing driving device is arranged on the material pressing table 41, a material pressing disc 42 which is arranged above the dicing station and can penetrate through the feeding device and press materials to the cutter assembly is arranged at the power output end of the material pressing driving device, and the outer diameter of the material pressing disc 42 is smaller than the inner diameter of the feeding groove 32 by taking a circular material pressing disc 42 and a circular feeding groove 32 as an example. The pressing driving device of the pressing tray 42 comprises a pressing driving cylinder 43, and the end part of a power output shaft of the pressing driving cylinder 43 is in transmission connection with the pressing tray 42. The guide rods 44 positioned at two sides of the pressing driving device are installed on the pressing tray 42, and the end parts of the guide rods 44 extend upwards and pass through the pressing table 41.

The discharging and conveying device comprises a discharging and conveying frame 5 arranged below the dicing station, and a discharging and conveying belt (not shown in the figure) is arranged on the discharging and conveying frame 5. The discharging conveying frame 5 extends outwards and upwards in an inclined mode from the lower portion of the dicing station.

The dicer has high inclusion degree of materials to be cut, can cut various special-shaped materials, and has strong universality.

During operation, the material to be cut is placed in the material feeding groove 32, the material feeding turntable 31 rotates to convey the material to the dicing station, the material pressing driving cylinder 43 works to drive the material pressing disc 42 to move downwards, the material placed on the cutter is pushed downwards, the blade 22 cuts the material into corresponding shapes and falls onto the discharging conveying device below, and the cut material blocks are conveyed out by the discharging conveying belt. The feeding turntable 31 is provided with a plurality of feeding grooves 32, when the material in one feeding groove 32 is in a cutting state, the other feeding grooves 32 are in a feeding state, after the cutting is finished, the feeding turntable 31 rotates to send out the empty feeding groove 32, the material in the next feeding groove 32 is sent to a dicing station, and when the pressing assembly works, the empty feeding groove 32 is filled with new material to enter a line production state.

The foregoing has shown and described the basic principles, main features and advantages of the present utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (10)

1. Rotary feeding type dicer comprises a frame and is characterized in that: install the operation panel in the frame, be provided with the cutting station on the operation panel, install cutter assembly on the cutting station, rotate on the operation panel and install the material feeding unit who carries the material to on the cutting station, install on the operation panel and be located the swager subassembly of cutter assembly top, discharge conveyor is installed to cutter assembly's below.

2. The rotary fed dicer of claim 1, wherein: the cutter assembly comprises a cutter frame body, two groups of cutters which are arranged in a crossing manner are arranged in the cutter frame body, each row of cutters comprises a plurality of blades which are arranged in a arraying manner, and the cutting edges of the two groups of cutters are arranged towards the pressing assembly.

3. The rotary fed dicer of claim 2, wherein: the two groups of cutters are arranged in a vertical crossing mode or an inclined crossing mode.

4. The rotary fed dicer of claim 1, wherein: the feeding device comprises a feeding turntable rotatably mounted on the operation table, a plurality of feeding grooves communicated with the operation table are circumferentially distributed on the feeding turntable, and a feeding driving device in transmission connection with the feeding turntable is mounted on the frame.

5. The rotary fed dicer of claim 4, wherein: the feeding driving device comprises a feeding driving motor, a rotating shaft is fixedly arranged at the bottom end of the feeding turntable, and the rotating shaft is in transmission connection with the feeding driving motor.

6. The rotary fed dicer of claim 1, wherein: the pressing assembly comprises a pressing table arranged on one side of the operating table, a pressing driving device is arranged on the pressing table, and a pressing disc which is positioned above the dicing station and can penetrate through the feeding device and press materials to the cutter assembly is arranged at the power output end of the pressing driving device.

7. The rotary fed dicer of claim 6, wherein: the pressing driving device comprises a pressing driving cylinder, and the end part of a power output shaft of the pressing driving cylinder is in transmission connection with the pressing disc.

8. The rotary fed dicer of claim 6, wherein: the material pressing disc is provided with guide rods positioned at two sides of the material pressing driving device, and the end parts of the guide rods extend upwards and penetrate through the material pressing table.

9. The rotary fed dicer of claim 1, wherein: the discharging and conveying device comprises a discharging conveying frame arranged below the dicing station, and a discharging conveying belt is arranged on the discharging conveying frame.

10. The rotary fed dicer of claim 9, wherein: the discharging conveying frame extends outwards and obliquely upwards from the lower part of the dicing station.