CN209954805U - Electromagnetic induction heating material cutting device - Google Patents

Abstract

The utility model discloses an electromagnetic induction heating material cutting device, which comprises a machine body, wherein the machine body is provided with a feeding workbench, a feeding motor and a feeding pinch roller, the feeding workbench is provided with a guide groove, and the feeding motor is connected with the feeding pinch roller through a belt; the feeding pinch roller is fixed on the feeding workbench and is opposite to the guide groove; the electromagnetic induction cutting assembly is arranged on the machine body and comprises an electromagnetic induction heater, a cutting tool and a power transmission mechanism, wherein the electromagnetic induction heater is positioned at an outlet of the guide groove and is provided with a section where the cutting tool moves and generates an alternating magnetic field with the cutting tool; and the cutting tool cuts the material at the outlet of the guide groove through the power transmission mechanism. The advantages are that: the utility model discloses can carry out the hot melt to the material granule on the cutter, avoid the material to glue the cutter to guarantee the work continuity.

Description

Electromagnetic induction heating material cutting device

Technical Field

The utility model belongs to the technical field of material segmenting device, especially, relate to an electromagnetic induction heats material segmenting device.

Background

At present, plastic packaging bags are mostly needed for packaging some foods, such as long-strip packaged foods like sugar blocks, cakes and the like; the food and the packaging bags are all strip-shaped before being cut into sections, and the required length can be reached and sealed and packaged after being cut by the cutting device. After the existing cutting device works for a long time, because materials such as sugar blocks and the like have certain viscosity, a cutter on the cutting device is easy to stick the cut materials, the continuity of the operation of the cutter is influenced, and the equipment cannot keep normal continuous operation; there is a need for improvement.

Disclosure of Invention

The utility model aims at the not enough of above-mentioned prior art existence, provide an electromagnetic induction heating material dissection device, it has the material granule that can be on the cutter and carries out the hot melt, avoids the material to glue the cutter to guarantee the characteristics of work continuity.

In order to realize the purpose, the utility model discloses the technical scheme who adopts is: an electromagnetic induction heating material cutting device comprises a machine body, wherein a feeding workbench, a feeding motor and a feeding pinch roller are arranged on the machine body, a guide groove is formed in the feeding workbench, and the feeding motor is connected with the feeding pinch roller through a belt; the feeding pinch roller is fixed on the feeding workbench and is opposite to the guide groove; the electromagnetic induction cutting assembly is arranged on the machine body and comprises an electromagnetic induction heater, a cutting tool and a power transmission mechanism, wherein the electromagnetic induction heater is positioned at an outlet of the guide groove and is provided with a section where the cutting tool moves and generates an alternating magnetic field with the cutting tool; and the cutting tool cuts the material at the outlet of the guide groove through the power transmission mechanism.

The cutting tool is a rectangular blade, the power transmission mechanism is composed of a driving motor and a cutter wheel, the cutter wheel is connected to a rotating shaft of the driving motor, and the rectangular blade is fixedly arranged on the cutter wheel, and a cutting edge on the rectangular blade is exposed out of the peripheral surface of the cutter wheel.

The knife flywheel is coated with a protective shell, and a notch for exposing the knife edge part of the rectangular blade is formed in the protective shell.

The feeding pinch roller is provided with a height adjusting device.

The feeding pinch rollers are divided into two groups, and a pressure plate is arranged on a guide groove between the two groups.

After the structure is adopted, compared with the prior art, the utility model the advantage that has is: the utility model discloses a cutting off tool can produce the heat when electromagnetic induction heater, can make through the heat and melt by the material surface after cutting off tool cuts off, prevents to glue cutting off tool because its viscidity to solved and made the unable continuous drawback of dissection of cutter because of gluing the viscidity of glutinous food, effectively guaranteed the continuity of cutting off tool work, improved dissection efficiency.

Drawings

Fig. 1 is a schematic plan view of the present invention.

Fig. 2 is a schematic view of the connection structure of the rectangular blade and the cutter wheel of the present invention.

Detailed Description

The following description is only for the preferred embodiment of the present invention, and the protection scope of the present invention is not limited thereby, the present invention will be further explained with reference to the drawings and the embodiments.

Examples, see fig. 1 and 2: the utility model provides an electromagnetic induction heating material segmenting device, includes organism 1, and organism 1 comprises front frame 101 and after-poppet 102, has on front frame 101 including feeding workstation 10, feeding motor and feeding pinch roller 11, has guide way 12 on feeding workstation 10, and guide way 12 is rectangular structure, and its cross-section is the rectangle under general condition, and its width is decided according to the size of the food of cutting into segments as required. The feeding motor is fixed on the front frame 101, and the rotating speed of the feeding motor can be controlled and adjusted through the electric control device, so that the corresponding rotating speed can be adjusted when different materials 30 are used, and the materials 30 have reasonable moving speed. The feeding motor passes through the belt to be connected with feeding pinch roller 11, and feeding pinch roller 11 is fixed on feeding workstation 10 and its and guide way 12 position is relative, and through the drive of feeding motor, feeding pinch roller 11 can rotate like this to drive the material 30 forward movement in the guide way 12. The feeding pinch rollers 11 are generally two and are respectively positioned above and below the guide groove 12, and the space between the feeding pinch rollers 11 is generally the height of the material 30. An electromagnetic induction cutting assembly is arranged on the rear rack 102, and comprises an electromagnetic induction heater 20, a cutting tool and a power transmission mechanism, wherein the electromagnetic induction heater 20 is positioned at the outlet of the guide groove 12 and can be determined to be arranged above or below the outlet according to the cutting mode of the cutting tool; the electromagnetic induction heater 20 is provided with a section where the cutting tool moves and generates an alternating magnetic field with the cutting tool, and the cutting tool cuts the material 30 at the outlet of the guide groove 12 through the power transmission mechanism; when the cutting tool passes through the interval, the cutting tool cuts the magnetic field at the position to generate alternating current, so that the cutting tool generates heat, material particles adhered to the cutting tool can be melted, the cut material 30 automatically falls off, and the cut material 30 falls on the conveying device 50 for subsequent collection.

The cutting tool is a rectangular blade 21, the power transmission mechanism is composed of a driving motor 22 and a cutter wheel 23, the cutter wheel 23 is connected to a rotating shaft of the driving motor 22, the rectangular blade 21 is fixedly arranged on the cutter wheel 23, and a cutting edge on the rectangular blade 21 is exposed out of the outer peripheral surface of the cutter wheel 23. The rotating speed of the driving motor 22 is controlled by the electric control device, when the electric control device works, the driving motor 22 drives the cutter wheel 23 to rotate, the rectangular blade 21 on the cutter wheel 23 can be linked with the cutter wheel, the rectangular blade 21 can generate heat through the electromagnetic induction heater 20 to melt residual material particles on the rectangular blade, and the material 30 can be cut off when the rectangular blade 21 is rotated out of the electromagnetic induction heater 20. A protective shell 24 is covered outside the cutter wheel 23, the protective shell 24 is of an internal hollow structure, a space for accommodating the cutter wheel 23 and the rectangular blade 21 to rotate is arranged in the protective shell 24, and a notch for exposing the blade part of the rectangular blade 21 is formed in the protective shell 24; the protective case 24 is capable of accommodating the rectangular blade 21 therein in a non-cutting position to enhance safety in use, and the cutout in the case allows the rectangular blade 21 to be exposed when passing through the position for cutting. Of course, the cutting tool can also be a fan-shaped blade, which also has the above-mentioned effects; or, the cutting tool may also be a scissors-shaped blade, which can be opened and closed when driven by the power transmission mechanism, and the scissors-shaped blade is heated by the electromagnetic induction heater 20 to remove material particles on the cutting edge, and then cuts the material 30 into sections.

The feeding pinch roller 11 is provided with a height adjusting device, the height adjusting device comprises an adjusting screw rod 40, a fixed seat 41 and a lock button 42, the feeding pinch roller 11 is positioned on the fixed seat 41, the adjusting screw rod 40 is connected with the fixed seat 41 and is positioned on the front rack 101, and the lock button 42 is matched with the adjusting screw rod 40 in a locking mode. When the height needs to be adjusted, the locking button 42 is loosened, the adjusting screw rod 40 is pulled to enable the end part of the fixing seat 41 to move upwards or downwards, so that the feeding pinch roller 11 can be driven to adjust the position, and the locking button 42 is used for locking the adjusting screw rod after the adjusting position is adjusted to a proper position.

In general, the feeding pinch rollers 11 are two groups, which are respectively located at the front end and the rear end of the guide groove 12, so as to have a better positioning effect; and the pressure plate 13 is arranged on the guide groove 12 between the feeding pinch rollers 11, and the pressure plate 13 can prevent the material 30 from falling off the guide groove 12 at the traveling section, thereby playing a better positioning role.

The rotation speed of the feeding motor and the driving motor is adjusted by the electric control device, and the working principle of the electromagnetic induction heater 20 is widely used at present, and is not described in detail herein.

Claims (5)

1. An electromagnetic induction heating material cutting device comprises a machine body (1), wherein a feeding workbench (10), a feeding motor and a feeding pinch roller (11) are arranged on the machine body (1), a guide groove (12) is formed in the feeding workbench (10), and the feeding motor is connected with the feeding pinch roller (11) through a belt; the feeding pinch roller (11) is fixed on the feeding workbench (10) and is opposite to the guide groove (12); the method is characterized in that: the electromagnetic induction cutting assembly is arranged on the machine body and comprises an electromagnetic induction heater (20), a cutting tool and a power transmission mechanism, wherein the electromagnetic induction heater (20) is positioned at an outlet of the guide groove (12), and is provided with a section where the cutting tool moves and generates an alternating magnetic field with the cutting tool; the cutting tool cuts the material at the outlet of the guide groove (12) through the power transmission mechanism.

2. The electromagnetic induction heating material cutting device according to claim 1, characterized in that: the cutting tool is a rectangular blade (21), the power transmission mechanism is composed of a driving motor (22) and a cutter wheel (23), the cutter wheel (23) is connected to a rotating shaft of the driving motor (22), and the rectangular blade (21) is fixedly arranged on the cutter wheel (23) and a cutting edge on the rectangular blade is exposed out of the peripheral surface of the cutter wheel (23).

3. The electromagnetic induction heating material cutting device according to claim 2, characterized in that: the cutter wheel (23) is externally coated with a protective shell (24), and a notch for exposing the blade part of the rectangular blade (21) is formed in the protective shell (24).

4. The electromagnetic induction heating material cutting device according to claim 1, 2 or 3, characterized in that: the feeding pinch roller (11) is provided with a height adjusting device.

5. The electromagnetic induction heating material cutting device according to claim 4, characterized in that: the feeding pinch rollers (11) are divided into two groups, and a pressure plate (13) is arranged on a guide groove (12) between the two groups.

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