CN220593253U

CN220593253U - Double-cutting machine

Info

Publication number: CN220593253U
Application number: CN202322061637.9U
Authority: CN
Inventors: 伍金
Original assignee: Lehuai Chongqing Supply Chain Technology Co ltd
Current assignee: Lehuai Chongqing Supply Chain Technology Co ltd
Priority date: 2023-08-02
Filing date: 2023-08-02
Publication date: 2024-03-15
Anticipated expiration: 2033-08-02

Abstract

The utility model relates to the technical field of food production, in particular to a double-cutting machine, which comprises an electromagnetic moving mechanism, four support posts and a base, wherein the electromagnetic moving mechanism comprises an electromagnetic control box, an electromagnetic block and a cutting assembly, the four support posts are respectively connected with the base in a detachable manner and are positioned at four corners below the base, the electromagnetic control box is connected with the base in a detachable manner and is positioned above the base, the electromagnetic block is connected with the electromagnetic control box in a detachable manner and is positioned in the electromagnetic control box, the cutting assembly is connected with the electromagnetic control box in a sliding manner and is positioned on the outer surface of the electromagnetic control box, and the problems that the safety of food production and processing is greatly reduced due to the fact that a reversing mechanism is driven by an oil cylinder are solved by changing a cutting mode and adding the electromagnetic moving mechanism.

Description

Double-cutting machine

Technical Field

The utility model relates to the technical field of food production, in particular to a double-cutter.

Background

In the food processing process, the upper part of the food material is required to be longitudinally thinned, but the bottom part is not cut off, the direction is changed after the cutting is finished, the cutting is transversely cut by the same method, and the depth of the cut is too deep and too shallow.

The utility model discloses a food processing is with two-way cutting machine in the patent application of application number (CN 201921008850.0), which comprises a frame, install conveying mechanism in the frame, cutting mechanism, reversing mechanism, conveying mechanism includes the conveying roller of frame both ends installation, be equipped with the conveyer belt between two conveying rollers, the interval is equipped with a plurality of transport tray on the conveyer belt, cutting mechanism includes two cutting frames of rack-mounted, install the cutting roller on two cutting frames respectively, fixed cover is equipped with the cutter head that a plurality of intervals set up on the cutting roller, reversing mechanism includes the reversing rack that is equipped with between two cutting frames, rotation axis connection has the reversing gear on the transport tray respectively, reversing gear and reversing rack movable engagement, reversing gear's top is equipped with the cutting tray. The utility model can automatically change the direction to cut the food material, and the cut of the cut pattern is uniform, thereby being beneficial to improving the beauty of the food material, having high automation degree and high production efficiency and greatly saving labor cost.

The reversing mechanism is added in the prior art, so that the problems that the existing processing equipment is only suitable for unidirectional cutting of food materials, the working efficiency is low, the working labor intensity is high and the processing time is long are effectively solved, but the safety in food production and processing is greatly reduced due to the fact that the reversing mechanism is driven by the oil cylinder.

Disclosure of Invention

The utility model aims to provide a double cutting mark, which solves the problems that a reversing mechanism is added in the prior art, the existing processing equipment is only suitable for unidirectional cutting of food materials, the working efficiency is low, the working labor intensity is high and the processing time is long, but the safety problem during food production and processing is greatly reduced due to the fact that the reversing mechanism is driven by an oil cylinder.

In order to achieve the above purpose, the double-cutting machine comprises an electromagnetic moving mechanism, four support posts and a base, wherein the electromagnetic moving mechanism comprises an electromagnetic control box, an electromagnetic block and a cutting assembly, the four support posts are respectively connected with the base in a detachable mode and are positioned at four corners below the base, the electromagnetic control box is connected with the base in a detachable mode and is positioned above the base, the electromagnetic block is connected with the electromagnetic control box in a detachable mode and is positioned in the electromagnetic control box, and the cutting assembly is connected with the electromagnetic control box in a sliding mode and is positioned on the outer surface of the electromagnetic control box.

The cutting assembly comprises an induction seat, wherein the induction seat is in sliding connection with the electromagnetic control box and is positioned on the outer surface of the electromagnetic control box.

The cutting assembly further comprises a cutting telescopic rod, a cutting seat and a blade, wherein the cutting telescopic rod is connected with the induction seat in a detachable mode and located at one end of the induction seat away from the electromagnetic control box, the cutting seat is connected with the cutting telescopic rod in a detachable mode and located at one end of the cutting telescopic rod away from the induction seat, and the blade is connected with the cutting seat in a detachable mode and located at one end of the cutting telescopic rod away from the cutting seat.

The double-cutting machine further comprises a clamping mechanism, wherein the clamping mechanism is detachably connected with the base and is located above the base, and the clamping mechanism and the electromagnetic control box are symmetrically arranged on the base.

The clamping mechanism comprises a rotating motor and a clamping telescopic rod, wherein the rotating motor is detachably connected with the base and located above the base, and the clamping telescopic rod is detachably connected with the rotating motor and located at one end of the rotating motor away from the base.

The clamping mechanism further comprises a transverse telescopic rod and a clamping soft plate, wherein the transverse telescopic rod is connected with the clamping telescopic rod in a detachable mode, the clamping telescopic rod is located away from one end of the rotating motor, the transverse telescopic rod is perpendicular to the clamping telescopic rod, the clamping soft plate is connected with the transverse telescopic rod in a detachable mode, and the clamping soft plate is located at one end, away from the clamping telescopic rod, of the transverse telescopic rod.

According to the double-cutter disclosed by the utility model, when food raw materials with longer length are required to be cut, the food raw materials with longer length are sent into the electromagnetic control box and work is performed by the electromagnetic block, so that the induction seat is controlled, the induction seat drives the cutting telescopic rod, when the induction seat reaches a designated position, the cutting telescopic rod starts to work, the cutting seat and the blade are pushed to the food raw materials with longer length to complete cutting, and therefore, the problems that the conventional processing equipment is only suitable for unidirectional cutting of the food materials, the working efficiency is low, the working labor intensity is high and the processing time is long are effectively solved, but the safety during food production and processing is greatly reduced due to the fact that the reversing mechanism is driven by the oil cylinder.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic overall structure of a first embodiment of the present utility model.

Fig. 2 is an enlarged view of a partial structure at a of fig. 1 according to the present utility model.

Fig. 3 is a schematic overall structure of a second embodiment of the present utility model.

Fig. 4 is an enlarged view of a partial structure at B of fig. 3 according to the present utility model.

101-supporting columns, 102-bases, 103-electromagnetic control boxes, 104-electromagnetic blocks, 105-induction seats, 106-cutting telescopic rods, 107-cutting seats, 108-blades, 201-rotating motors, 202-clamping telescopic rods, 203-transverse telescopic rods and 204-clamping soft plates.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present utility model and should not be construed as limiting the utility model.

First embodiment

Referring to fig. 1 to 2, fig. 1 is a schematic overall structure of a first embodiment of the present utility model, and fig. 2 is an enlarged partial structure of fig. 1 at a.

The utility model provides a double-cutting machine, which comprises four support posts 101, a base 102 and an electromagnetic moving mechanism, wherein the electromagnetic moving mechanism comprises an electromagnetic control box 103, an electromagnetic block 104 and a cutting assembly, the cutting assembly comprises an induction seat 105, a telescopic rod, a cutting seat 107 and a blade 108, the problems that an existing processing device is only suitable for cutting food materials in one direction, the working efficiency is low, the working labor intensity is high and the processing time is long are effectively solved, but the safety problem during food production and processing is greatly reduced due to the fact that the reversing mechanism adopts an oil cylinder for driving, the food materials with longer length can be fed into the electromagnetic control box 103 when the food materials are cut, the electromagnetic block 104 works, the induction seat 105 is controlled, the telescopic rod 106 is driven by the induction seat 105, when the induction seat 105 reaches a specified position, the telescopic rod 106 starts to work, the cutting seat 107 and the blade 108 are pushed to the length, the working efficiency is greatly improved when the oil cylinder is used for driving the reversing mechanism, the working efficiency is greatly reduced due to the fact that the reversing mechanism is used for driving the food materials in one direction, and the working time is long, and the working efficiency is greatly shortened when the existing processing mechanism is used for processing food materials.

For this embodiment, four posts 101 are respectively detachably connected to the base 102 and located at four corners below the base 102, the electromagnetic control box 103 is detachably connected to the base 102 and located above the base 102, the electromagnetic block 104 is detachably connected to the electromagnetic control box 103 and located inside the electromagnetic control box 103, and the cutting assembly is slidably connected to the electromagnetic control box 103 and located on the outer surface of the electromagnetic control box 103.

The induction seat 105 is slidably connected with the electromagnetic control box 103, and is located on the outer surface of the electromagnetic control box 103.

Secondly, the cutting telescopic rod 106 is detachably connected with the induction seat 105 and is located at one end of the induction seat 105 far away from the electromagnetic control box 103, the cutting seat 107 is detachably connected with the cutting telescopic rod 106 and is located at one end of the cutting telescopic rod 106 far away from the induction seat 105, and the blade 108 is detachably connected with the cutting seat 107 and is located at one end of the cutting seat 107 far away from the cutting telescopic rod 106.

When the utility model is used for cutting food raw materials with longer length, the food raw materials with longer length are sent into the electromagnetic control box 103 and work is carried out by the electromagnetic block 104, so that the induction seat 105 is controlled, the induction seat 105 drives the cutting telescopic rod 106, when the induction seat 105 reaches a specified position, the cutting telescopic rod 106 starts to work, the cutting seat 107 and the blade 108 are pushed to the food raw materials with longer length to complete cutting, thereby solving the problems that the prior processing equipment is only suitable for cutting food materials in one direction, the working efficiency is low, the working labor intensity is high and the processing time is long due to the fact that the reversing mechanism is driven by an oil cylinder, and greatly reducing the safety problem when food production and processing are carried out.

Second embodiment

Referring to fig. 3 and 4, fig. 3 is a schematic overall structure of a second embodiment of the present utility model, and fig. 4 is an enlarged view of a part of the structure of fig. 3B.

On the basis of the first embodiment, the double-cutting machine further comprises a clamping mechanism, wherein the clamping mechanism comprises a rotating motor 201, a clamping telescopic rod 202, a transverse telescopic rod 203 and a clamping soft plate 204, when continuous special-shaped materials are required to be cut, the clamping mechanism clamps the food raw materials with longer lengths, the rotating motor 201 controls the height of the clamping telescopic rod 202, and the transverse telescopic rod 203 controls the width of the clamping soft plate 204, so that the double-cutting machine is suitable for different shapes of the food raw materials with longer lengths.

For this embodiment, the clamping mechanism is detachably connected to the base 102, and is located above the base 102, and the clamping mechanism and the electromagnetic control box 103 are symmetrically disposed on the base 102, and when the continuous special-shaped material needs to be cut, the clamping mechanism clamps the food raw material with a longer length.

The rotating motor 201 is detachably connected to the base 102 and is located above the base 102, the clamping telescopic rod 202 is detachably connected to the rotating motor 201 and is located at one end, far away from the base 102, of the rotating motor 201, and when continuous special-shaped materials need to be cut, the rotating motor 201 controls the height of the clamping telescopic rod 202.

Secondly the horizontal telescopic link 203 with clamping telescopic link 202 dismantles to be connected, and is located clamping telescopic link 202 is kept away from the one end of rotating motor 201, just horizontal telescopic link 203 with clamping telescopic link 202 is perpendicular setting, clamping soft board 204 with horizontal telescopic link 203 dismantles to be connected, and is located horizontal telescopic link 203 is kept away from clamping telescopic link 202's one end, when needs are cut continuous special-shaped material, by horizontal telescopic link 203 control clamping soft board 204's width to the different shapes of long food raw materials of length are accommodated in this.

The above disclosure is only a preferred embodiment of the present utility model, and it should be understood that the scope of the utility model is not limited thereto, and those skilled in the art will appreciate that all or part of the procedures described above can be performed according to the equivalent changes of the claims, and still fall within the scope of the present utility model.

Claims

1. The double cutting machine comprises four support posts and a base, wherein the four support posts are respectively connected with the base in a detachable manner and positioned at four corners below the base,

the electromagnetic moving mechanism comprises an electromagnetic control box, an electromagnetic block and a cutting assembly, wherein the electromagnetic control box is detachably connected with the base and is located above the base, the electromagnetic block is detachably connected with the electromagnetic control box and is located inside the electromagnetic control box, and the cutting assembly is slidably connected with the electromagnetic control box and is located on the outer surface of the electromagnetic control box.

2. A double cutter as defined in claim 1, wherein,

the cutting assembly comprises an induction seat which is in sliding connection with the electromagnetic control box and is positioned on the outer surface of the electromagnetic control box.

3. A double cutter as claimed in claim 2, wherein,

4. A double cutter as claimed in claim 3, wherein,

the double-cutting machine further comprises a clamping mechanism, wherein the clamping mechanism is detachably connected with the base and is positioned above the base, and the clamping mechanism and the electromagnetic control box are symmetrically arranged on the base.

5. The double cutter of claim 4, wherein,

the clamping mechanism comprises a rotating motor and a clamping telescopic rod, wherein the rotating motor is detachably connected with the base and is located above the base, and the clamping telescopic rod is detachably connected with the rotating motor and is located at one end of the rotating motor away from the base.

6. The double cutter of claim 5, wherein,

the clamping mechanism further comprises a transverse telescopic rod and a clamping soft board, wherein the transverse telescopic rod is connected with the clamping telescopic rod in a detachable mode and is located at one end, far away from the rotating motor, of the clamping telescopic rod, the transverse telescopic rod is perpendicular to the clamping telescopic rod, and the clamping soft board is connected with the transverse telescopic rod in a detachable mode and is located at one end, far away from the clamping telescopic rod, of the transverse telescopic rod.