CN112092033A

CN112092033A - Ultrasonic wave dicing device

Info

Publication number: CN112092033A
Application number: CN202010847468.XA
Authority: CN
Inventors: 孙元喜; 孙志莲; 傅留虎; 张悦; 庞桂红; 倪志敏; 常红娜
Original assignee: Shanxi Sanneng Shiji Machinery Equipment Co ltd
Current assignee: Shanxi Sanneng Shiji Machinery Equipment Co ltd
Priority date: 2020-08-21
Filing date: 2020-08-21
Publication date: 2020-12-18

Abstract

The utility model provides an ultrasonic wave stripping and slicing device, belongs to food processing equipment technical field, solves ultrasonic cutting equipment and causes the technical problem that edible material local degeneration is rotten, and the solution is: the conveyer belt sets up in the top of frame, the portal frame erects the top at the conveyer belt, four-axis aggregate unit installs on the portal frame, four-axis aggregate unit includes X direction guide rail, Y direction guide rail and Z direction guide rail, the middle part fixed connection of the lower extreme of the rotary servo motor rotor and knife rest among the four-axis aggregate unit, the middle part of knife rest top is provided with the batch oil tank, the edible oil has been stored in the batch oil tank, the ultrasonic cutter is installed in the below of knife rest, the ultrasonic cutter includes blade holder and cutting edge, supersonic generator passes through the ultrasonic wave transduction and becomes width of cloth pole and be connected with the. The invention can be widely applied to raw rubber slitting, quick-frozen food cutting, candy cutting, baked food cutting, plastic product and natural fiber cutting and the like.

Description

Ultrasonic wave dicing device

Technical Field

The invention belongs to the technical field of food processing equipment, and particularly relates to an ultrasonic dicing device.

Background

In the food processing field, because the food of the less piece of bold food is makeed more easily, so often make into bold product with food earlier, then pass through the slabbing machine with bold food and cut into the small piece food that conveniently packs through warp direction and latitudinal direction two times, among the prior art, warp direction cutting and latitudinal direction cutting often are two processes, this just leads to generally needing two sets of cutting equipment, needs bigger production space, has increased the manufacturing cost of product in the intangible.

In addition, since the phenomenon of sticking a knife often occurs when a cutting device is used to cut viscous and elastic materials, frozen materials such as foods, rubber and the like, or objects which are inconvenient to be cut under pressure, an ultrasonic food cutting device for cutting blocks or slices of foods such as cakes, bread, frozen meat and the like in the prior art is produced. The principle of the ultrasonic food dicer is completely different from that of the traditional food cutting equipment, and the ultrasonic food dicer heats and melts the local part of the cut material by utilizing the energy of ultrasonic waves so as to achieve the purpose of cutting the material. However, in some foods, local heating and melting lead to denaturation, and even some nutrients deteriorate after being heated at high temperature, so that the quality of food materials is affected.

Disclosure of Invention

In order to solve the technical problems in the prior art and solve the technical problem that the ultrasonic cutting equipment causes local denaturation and deterioration of food materials (particularly protein food materials), the invention provides an ultrasonic dicing device.

The invention is realized by the following technical scheme.

The utility model provides an ultrasonic wave stripping and slicing device, it includes conveyer belt, four-axis aggregate unit, portal frame and cutter combination, the cutter combination includes ultrasonic wave cutter, knife rest, supersonic generator and ultrasonic wave transduction amplitude transformer, wherein:

the conveying belt is arranged above the rack, materials to be cut are placed on the conveying belt, the portal frame is erected above the conveying belt, the four-axis linkage device is installed on the portal frame and comprises X-direction guide rails, Y-direction guide rails and Z-direction guide rails, the number of the X-direction guide rails is two, the two X-direction guide rails are arranged on two sides of the conveying belt in parallel, each X-direction guide rail is installed above the portal frame respectively, and one end of each X-direction guide rail is provided with a first motor; the Y-direction guide rail is arranged above one ends of the two X-direction guide rails in a crossing mode, the first motor drives the Y-direction guide rail to slide along the X-direction guide rail in a reciprocating mode through the gear and rack transmission structure, the second motor is arranged at one end of the Y-direction guide rail, the sliding base is installed on the Y-direction guide rail, and the second motor drives the sliding base to slide along the Y-direction guide rail in a reciprocating mode through the lead screw and nut transmission structure; the lifting upright post is fixedly arranged on the sliding base, the lifting motor is vertically and downwards arranged at the upper end of the lifting upright post, the Z-direction guide rails are arranged on the front side and the rear side of the lifting upright post, the front side and the rear side of the lifting base are clamped on the Z-direction guide rails, and the lifting motor drives the lifting base to slide in a reciprocating manner along the Z-direction guide rails through a screw nut structure; the rotary servo motor is fixedly arranged on the side wall of the lifting base, a rotor of the rotary servo motor is vertically arranged downwards, the lower end of the rotor of the rotary servo motor is fixedly connected with the middle part of the tool rest, and the rotary servo motor drives the tool rest to do rotary motion along the Z axis; an oil storage tank is arranged in the middle above the knife rest, an oil supply pump is arranged in the oil storage tank, edible oil is stored in the oil storage tank, the ultrasonic cutter is arranged below the knife rest, the ultrasonic generators are respectively arranged on two sides above the knife rest, and the ultrasonic generators are connected with the knife rest through ultrasonic transduction amplitude transformers;

the ultrasonic cutter comprises a cutter holder and a cutting edge, wherein an oil leakage channel with a cross section in a shape like an inverted Y is arranged at the axis position of the cutter holder, the upper part of the oil leakage channel is communicated with an oil storage tank through a pipeline, an oil storage cavity is arranged below the oil leakage channel, the upper part of the cutting edge is installed in the oil storage cavity, the upper part of the cutting edge is matched with the lower end surface of the oil leakage channel, the lower part of the cutting edge extends to the outside of the cutter holder, and a gap is formed between the side wall of.

Further, the length of the cutting knife is not less than the width of the material to be cut.

Further, one end of the rack is provided with a motor for driving the conveying belt to move.

Further, the width of the upper part of the blade is larger than the thickness of the blade.

The invention has the following beneficial effects:

according to the ultrasonic food cutting device, the food is cut by adopting an ultrasonic technology, because the cutting knife performs ultrasonic vibration, the friction resistance is very small, the cut material is not easy to stick on the cutting knife, the problems of edge breakage, damage and the like of the cut material cannot be caused, in addition, in the cutting process of the ultrasonic cutting knife, the edible oil is positioned between the food material and the cutting knife, the lubricating effect is achieved on one hand, and on the other hand, the surface temperature of the food material is reduced due to the large heat capacity of the edible oil, so that the original taste and quality of the food material can be kept.

In conclusion, the invention can be widely applied to raw rubber cutting, quick-frozen food cutting, candy cutting, baked food cutting, plastic product and natural fiber cutting and the like.

Drawings

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

FIG. 2 is a schematic front view of the present invention;

FIG. 3 is a schematic top view of the structure of FIG. 2;

FIG. 4 is a schematic diagram of the right side view of FIG. 2;

FIG. 5 is a schematic view of the cutter assembly;

fig. 6 is a side view of the cutter in a partial sectional structure.

Detailed Description

The invention is described in further detail below with reference to the figures and examples.

An ultrasonic wave dicing apparatus as shown in fig. 1 to 6, which comprises a conveyor belt 2, a four-axis linkage device, a gantry 7 and a cutter assembly 5, wherein the cutter assembly 5 comprises an ultrasonic cutter 4, a cutter frame 51, an ultrasonic generator 52 and an ultrasonic transduction amplitude transformer 53, wherein:

the conveyor belt 2 is arranged above the frame 1, the conveyor belt 2 has wear resistance and cutting resistance and meets food safety standards, a material 3 to be cut is placed on the conveyor belt 2, the portal frame 7 is erected above the conveyor belt 2, the four-axis linkage device is arranged on the portal frame 7 and comprises an X-direction guide rail 71, a Y-direction guide rail 72 and a Z-direction guide rail 73, the number of the X-direction guide rails 71 is two, the two X-direction guide rails 71 are arranged on two sides of the conveyor belt 2 in parallel, each X-direction guide rail 71 is respectively arranged above the portal frame 7, and one end of each X-direction guide rail 71 is provided with a first motor 8; the Y-direction guide rails 72 are arranged above one ends of the two X-direction guide rails 71 in a crossing mode, the first motor 8 drives the Y-direction guide rails 72 to slide along the X-direction guide rails 71 in a reciprocating mode through a gear and rack transmission structure, one ends of the Y-direction guide rails 72 are provided with the second motor 10, the sliding base 74 is installed on the Y-direction guide rails 72, and the second motor 10 drives the sliding base 74 to slide along the Y-direction guide rails 72 in a reciprocating mode through a lead screw and nut transmission structure; the lifting upright post 12 is fixedly arranged on the sliding base 74, the lifting motor 11 is vertically and downwardly arranged at the upper end of the lifting upright post 12, the Z-direction guide rails 73 are arranged at the front side and the rear side of the lifting upright post 12, the front side and the rear side of the lifting base 13 are clamped on the Z-direction guide rails 73, and the lifting motor 11 drives the lifting base 13 to slide in a reciprocating manner along the Z-direction guide rails 73 through a screw-nut structure; the rotary servo motor 6 is fixedly arranged on the side wall of the lifting base 13, a rotor of the rotary servo motor 6 is vertically arranged downwards, the lower end of the rotor of the rotary servo motor 6 is fixedly connected with the middle part of the tool rest 51, and the rotary servo motor 6 drives the tool rest 51 to do rotary motion along the Z axis; an oil storage tank 54 is arranged in the middle above the tool rest 51, an oil supply pump is arranged in the oil storage tank 54, edible oil is stored in the oil storage tank 54, the ultrasonic cutter 4 is arranged below the tool rest 51, the ultrasonic generators 52 are respectively arranged on two sides above the tool rest 51, and the ultrasonic generators 52 are connected with the tool rest 51 through ultrasonic transduction amplitude-changing rods 53;

the ultrasonic cutter 4 comprises a cutter holder 41 and a cutting edge 42, an oil leakage channel 43 with an inverted Y-shaped cross section is arranged at the axial position of the cutter holder 41, the upper part of the oil leakage channel 43 is communicated with an oil storage tank 54 through a pipeline 55, an oil storage chamber 44 is arranged below the oil leakage channel 43, the upper part of the cutting edge 42 is arranged in the oil storage chamber 44, the upper part of the cutting edge 42 is matched with the lower end surface of the oil leakage channel 43, the lower part of the cutting edge 42 extends to the outside of the cutter holder 41, and a gap is formed between the side wall of the cutting edge 42 and the.

The ultrasonic generator is generally called an ultrasonic electric box, an ultrasonic generating source and an ultrasonic power supply. Its function is to convert our commercial power (220V or 380V, 50Hz or 60Hz) into high frequency AC signal matched with ultrasonic transducer. The amplification circuit can be a linear amplification circuit and a switching power supply circuit, and the high-power ultrasonic power supply generally adopts the circuit form of the switching power supply in terms of conversion efficiency. Linear power supplies also have a range of applications that are unique in that circuit matching may not be strictly required, allowing for continuous and rapid changes in operating frequency. Utilize can cut fast in this device, do not need sharp cutting edge and exerting pressure, prevented by the limit of collapsing of cut material and operation workman's accidental injury etc. improved the technology of traditional cutting.

The ultrasonic amplitude transformer is an important component of an ultrasonic vibration system, and has the main functions of amplifying the particle displacement or speed of mechanical vibration, changing the amplitude frequency and concentrating ultrasonic energy on a smaller area, namely energy concentration, so that the ultrasonic amplitude transformer is also called an ultrasonic gear lever or an ultrasonic energy concentrator. The amplitude frequency can be changed according to the thickness and the material of the cut material.

Ultrasonic wave cutter: ultrasonic is loaded on a cutting tool for cutting, so that the cutting tool generates ultrasonic vibration to achieve the cutting effect. The ultrasonic wave cutter is a kind of equipment which utilizes wave energy to cut and process, and is characterized by that it does not use cutting edge. Or, rather than cutting edges in the conventional sense. Traditionally, cutting is performed by pressing a knife with a sharp cutting edge against the material to be cut. The pressure is concentrated at the cutting edge, the pressure is very high and exceeds the shearing strength of the cut material, and the molecular combination of the material is pulled away and cut off. Since the material is hard to pull apart by a strong pressure, the cutting edge of the cutting tool should be very sharp, and the material itself should be subjected to a relatively large pressure. The cutting effect on soft and elastic materials is poor, and the difficulty on viscous materials is greater.

Four-axis aggregate unit: the four-shaft linkage transmission mechanism can rotate along an X shaft, a Y shaft, a Z shaft and along the Z shaft to perform motion cutting. The integrated structure of the line and the whole machine is combined by four shafts with high freedom, so that the rapid cutting operation of various types and shapes can be realized, the machine can be operated in a single machine and can be used for multiple purposes in a line production mode, the investment is reduced, and the efficiency is improved.

The technical indexes of the device are as follows:

1) power supply: AC220V-230V 50 HZ;

2) the power of the whole equipment is as follows: 3.6KW (wherein the power of the ultrasonic generator is 0.2-1.2KW adjustable);

3) frequency: 19.4KHZ-20.5 KHZ;

4) the size of the cutter is as follows: 150-;

5) cutting speed: 15-45 times/min (adjustable);

6) the moving direction is as follows: and (4) four-axis.

Further, the length of the cutting knife 4 is not less than the width of the material 3 to be cut into blocks.

Further, one end of the frame 1 is provided with a motor 9 for driving the conveyor belt 2 to move.

Further, the width of the upper portion of the blade 42 is greater than the thickness of the blade 42.

The using process of the invention is as follows:

1. when the conveyer belt 2 conveys the material 3 to be cut into blocks to the infrared induction area, the conveyer belt 2 stops conveying after the infrared receiving signal (the conveying direction of the conveyer belt 2 is the X direction);

2. the cutter combination 5 is adjusted to the X-axis direction, the cutter combination 5 is operated by the lifting motor 11 to move up and down along the Z-axis direction to cut the materials 3 to be cut, the cutter combination 5 slightly rises up by a distance of 5mm, then the cutter combination 5 moves by a distance of 10mm towards the Y-axis direction, and the cut materials are separated by an effective distance; the cutter combination 5 is lifted along the Z-axis direction, so that the cutter is away from the surface of the material 3 to be cut, and the cutter combination 5 continues to move towards the Y-axis direction to cut the material 3 to be cut;

after cutting in the Y direction, the cutter combination 5 recovers the original position, and the cutter combination 5 rotates for 90 degrees around the Z axis direction to adjust the direction of the cutter 4;

in the cutting process of the cutter combination 5 in the

steps

2 and 3, the ultrasonic generator 52 is started, and the ultrasonic generator 52 drives the cutter frame 51 to generate ultrasonic vibration through the ultrasonic transduction amplitude transformer 53; meanwhile, the oil supply pump stops supplying oil, the cutting edge 42 is under the resistance action of the material 3 to be cut, the upper part of the cutting edge 42 moves towards one side of the oil leakage channel 43, the edible oil stored in the oil storage cavity 44 flows out along a cutting seam between the cutting edge 42 and the material 3 to be cut, and oil film protection is formed on the surface of the material 3 to be cut;

5. the cutter combination 5 recovers the original position, the conveyor belt 2 starts to operate, the upper part of the cutting edge 42 is under the action of self weight and oil pressure, a gap between the cutting edge 42 and the cutter holder 41 is plugged again, the oil supply pump works, the oil storage cavity 44 is filled with edible oil, and the steps 1-5 are repeated.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and the technical solutions of the embodiment are equally replaced by one or more technical parameters to form a new technical solution, which is also within the scope of the present invention; it will be apparent to those skilled in the art that various modifications and variations can be made in the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides an ultrasonic wave stripping and slicing device, it includes conveyer belt (2), four-axis aggregate unit, portal frame (7) and cutter combination (5), cutter combination (5) include ultrasonic wave cutter (4), knife rest (51), supersonic generator (52) and ultrasonic wave transduction amplitude transformer (53), its characterized in that:

the conveyor belt (2) is arranged above the rack (1), materials (3) to be cut are placed on the conveyor belt (2), the portal frame (7) is erected above the conveyor belt (2), the four-shaft linkage device is installed on the portal frame (7), the four-shaft linkage device comprises an X-direction guide rail (71), a Y-direction guide rail (72) and a Z-direction guide rail (73), the number of the X-direction guide rails (71) is two, the two X-direction guide rails (71) are arranged on two sides of the conveyor belt (2) in parallel, each X-direction guide rail (71) is respectively installed above the portal frame (7), and one end of each X-direction guide rail (71) is provided with a first motor (8); the Y-direction guide rail (72) is arranged above one end of each of the two X-direction guide rails (71) in a crossing mode, the first motor (8) drives the Y-direction guide rail (72) to slide in a reciprocating mode along the X-direction guide rails (71) through a gear and rack transmission structure, one end of each Y-direction guide rail (72) is provided with the second motor (10), a sliding base (74) is installed on each Y-direction guide rail (72), and the second motor (10) drives the sliding base (74) to slide in a reciprocating mode along the Y-direction guide rails (72) through a lead screw and nut transmission structure; the lifting upright post (12) is fixedly arranged on the sliding base (74), the lifting motor (11) is vertically and downwardly arranged at the upper end of the lifting upright post (12), the Z-direction guide rails (73) are arranged at the front side and the rear side of the lifting upright post (12), the front side and the rear side of the lifting base (13) are clamped on the Z-direction guide rails (73), and the lifting motor (11) drives the lifting base (13) to slide in a reciprocating manner along the Z-direction guide rails (73) through a screw-nut structure; the rotary servo motor (6) is fixedly arranged on the side wall of the lifting base (13), a rotor of the rotary servo motor (6) is vertically arranged downwards, the lower end of the rotor of the rotary servo motor (6) is fixedly connected with the middle part of the tool rest (51), and the rotary servo motor (6) drives the tool rest (51) to do rotary motion along the Z axis; an oil storage tank (54) is arranged in the middle above the tool rest (51), an oil supply pump is arranged in the oil storage tank (54), edible oil is stored in the oil storage tank (54), the ultrasonic cutter (4) is arranged below the tool rest (51), the ultrasonic generators (52) are respectively arranged on two sides above the tool rest (51), and the ultrasonic generators (52) are connected with the tool rest (51) through ultrasonic transduction amplitude-changing rods (53);

ultrasonic wave cutter (4) include blade holder (41) and cutting edge (42), the axis position department of blade holder (41) is provided with oil leak passageway (43) of cross-section for invering the Y font, pipeline (55) and batch oil tank (54) intercommunication are passed through to the top of oil leak passageway (43), the below of oil leak passageway (43) is provided with oil storage chamber (44), install in oil storage chamber (44) the upper portion of cutting edge (42), the upper portion of cutting edge (42) cooperatees with the lower terminal surface of oil leak passageway (43), the lower part of cutting edge (42) extends to the outside of blade holder (41), be provided with the gap between the lateral wall of cutting edge (42) and blade holder (41).

2. An ultrasonic dicing apparatus according to claim 1, wherein: the length of the cutter (4) is not less than the width of the material (3) to be cut into pieces.

3. An ultrasonic dicing apparatus according to claim 1, wherein: one end of the frame (1) is provided with a motor (9) for driving the conveying belt (2) to move.

4. An ultrasonic dicing apparatus according to claim 1, wherein: the width of the upper part of the blade (42) is larger than the thickness of the blade (42).