CN117066575B - Cutting equipment is used in magnetic material production - Google Patents

Abstract

The invention discloses cutting equipment for magnetic material production, and relates to the technical field of magnetic material production. The utility model provides a magnetic material production is with cutting equipment, includes cuts the shell, cut shell internal fixation has telescopic link one, telescopic link two, be connected with the push pedal on telescopic link one, the telescopic link two respectively, cut the cutter, still include: the plurality of groups of air outlet holes are arranged on the cutting knife; according to the invention, the magnetic materials are extruded when being cut by the cutting knife, and the air outlet holes are arranged on the cutting knife, so that the air containing certain ions enters between gaps of the magnetic materials, electrons between the magnetic materials are changed from original opposite electrons into the same kind of electrons, and the magnetic materials are not adsorbed by the opposite electrons, so that the magnetic materials are conveniently separated, and the magnetic materials after cutting are conveniently used later.

Description

Cutting equipment is used in magnetic material production

Technical Field

The invention belongs to the technical field of magnetic material production, and particularly relates to cutting equipment for magnetic material production.

Background

Materials that react in some way to a magnetic field are called magnetic materials, and exhibit magnetic strength in an external magnetic field in accordance with the substance.

The magnetic material has wide application range, is usually prepared into a softer plate-shaped material due to the characteristics of the magnetic material, and is sprayed with a few lines on the surface, so that the attractive appearance is improved, and the use of a user is facilitated.

However, when the printing is performed on a sheet of material during actual production and cutting, magnetic materials are naturally accumulated together after the printing, certain static electricity is generated due to friction between the magnetic materials, the magnetic materials and a printing layer on the lower magnetic material are tightly attached to each other due to the static electricity and are difficult to separate, and after the subsequent cutting of corners of the magnetic materials is completed, the magnetic materials are generally separated in a fixed number, and at the moment, the static electricity in the magnetic materials can make the magnetic materials difficult to separate, so that the subsequent separation is influenced, and certain inconvenience exists.

Disclosure of Invention

The technical problem underlying the present invention is to overcome the disadvantages of the prior art by providing a cutting device which overcomes or at least partially solves the above mentioned problems.

In order to solve the technical problems, the invention adopts the basic conception of the technical scheme that: the utility model provides a magnetic material production is with cutting equipment, includes cuts the shell, cut shell internal fixation has telescopic link one, telescopic link two, be connected with the push pedal on telescopic link one, the telescopic link two respectively, cut the cutter, still include:

the plurality of groups of air outlet holes are arranged on the cutting knife;

the ion generating device is fixedly connected to the cutting shell, the ion generating device is connected with an air outlet pipe and an air inlet pipe, one end of the air outlet pipe is communicated with the air outlet hole, and the air inlet end of the air inlet pipe is positioned at a paper cutting position in the cutting shell;

the two groups of piston cylinders are fixedly connected in the cutting shell, the piston cylinders are communicated with the air outlet pipe, and the telescopic ends of the piston cylinders are connected with clamping plates;

the anti-pinch device is arranged on the clamping plate and is used for avoiding the damage of the magnetic material;

the sliding groove is arranged on the push plate and is provided with a plurality of groups of positioning holes;

the upper pressing plate is connected in the sliding groove in a sliding way, a plurality of groups of pressing plate springs are connected to the upper pressing plate, and a lower pressing plate is connected to the pressing plate springs.

In order to avoid damage to the magnetic material caused by excessive clamping, further, the anti-clamping device comprises a sliding plate and a clamping spring, wherein the clamping spring is connected to the clamping plate, and the sliding plate is connected to the clamping spring.

In order to avoid the excessive extension of piston cylinder, strengthen the gaseous intensity of venthole blowout simultaneously, and still further, be connected with the slide bar on the sliding plate, the slide bar runs through the grip block, be connected with the mounting panel on the grip block, be connected with the extrusion switch on the mounting panel, extrusion switch and slide bar are located the coplanar, outlet duct and piston cylinder junction are equipped with the control valve.

In order to be convenient for fix the top board position, still further, sliding connection has two sets of locating levers on the top board, locating lever and locating hole phase-match, be connected with positioning spring on the locating lever, positioning spring's the other end is connected with the top board, sliding connection has a pulling handle on the top board, is connected with stay cord one on the pulling handle, stay cord one's the other end is connected with the locating lever.

In order to facilitate the cutting of the magnetic material by the cutting knife, the entering of scraps or crushed paper is avoided, further, a cutting plate is connected in the cutting shell in a sliding manner, the cutting plate is positioned below the cutting knife, a reset spring is connected to the cutting plate, and the other end of the reset spring is connected with the cutting shell.

In order to be convenient for retrieve piece or shredded paper, still further, be equipped with the slope in the cutting shell, it is equipped with the collection box to cut the shell in slope low side department, just be equipped with the spout in the slope, sliding connection has the baffle in the spout, be connected with the spring part on the baffle, be connected with the slide bar on the cutting board, be connected with stay cord two on the slide bar, the other end and the baffle of stay cord two are connected.

In order to be convenient for produce the ionic gas of certain velocity of flow, still further, be connected with fan, ionizer in the ionizer, the inlet end and the intake pipe connection of fan, just the end of giving vent to anger of fan is located ionizer department.

In order to facilitate the magnetic material to generate certain fluctuation when being blown by the air flow and facilitate the air flow to pass, the upper pressing plate is connected with a pressing plate spring, and the other end of the pressing plate spring is connected with a lower pressing plate

In order to facilitate the extension and shortening of the air outlet pipe, the air outlet pipe is a telescopic hose.

In order to be convenient for carry out printing to magnetic material, still further, still include printing device, cutting equipment is connected with printing device, magnetic material cuts the structure and is used for cutting the magnetic material after the printing, printing device includes blowing case, printer, flitch, the multiunit the printer is connected gradually, the blowing case is located the material loading end of printer, the flitch is located the unloading end of printer, just the discharge end of flitch communicates with each other with cutting the shell.

After the technical scheme is adopted, compared with the prior art, the invention has the following beneficial effects: according to the invention, the magnetic materials are extruded when being cut by the cutting knife, and the air outlet holes are arranged on the cutting knife, so that the air containing certain ions enters between gaps of the magnetic materials, electrons between the magnetic materials are changed from original opposite electrons into the same kind of electrons, and the magnetic materials are not adsorbed by the opposite electrons, so that the magnetic materials are conveniently separated, and the magnetic materials after cutting are conveniently used later.

Drawings

In the drawings:

FIG. 1 is a schematic three-dimensional structure of a cutting device for magnetic material production according to the present invention;

FIG. 2 is a schematic diagram of a three-dimensional structure of a cutting device for producing magnetic materials according to the present invention;

FIG. 3 is a schematic diagram of a cutting apparatus for producing magnetic materials according to the present invention;

FIG. 4 is a schematic diagram of the cutting apparatus for producing magnetic materials according to the present invention in FIG. 3A;

FIG. 5 is a schematic three-dimensional diagram of a cutting apparatus for producing magnetic materials according to the present invention;

FIG. 6 is a schematic diagram of a cutting apparatus for producing magnetic materials according to the present invention;

FIG. 7 is a schematic diagram of the cutting apparatus for magnetic material production according to the present invention shown in FIG. 6B;

FIG. 8 is a schematic diagram of a three-dimensional structure of a cutting device for producing magnetic materials according to the present invention;

FIG. 9 is a schematic view of the structure of the cutting apparatus for magnetic material production of FIG. 8C according to the present invention;

FIG. 10 is a schematic diagram of the cutting apparatus for magnetic material production according to the present invention shown in FIG. 8;

FIG. 11 is a schematic three-dimensional view of a cutting blade in a cutting apparatus for producing magnetic materials according to the present invention;

FIG. 12 is a schematic three-dimensional view of a cutting blade in a cutting apparatus for producing magnetic materials according to the present invention;

FIG. 13 is a schematic three-dimensional view of a pusher plate in a cutting apparatus for magnetic material production according to the present invention;

FIG. 14 is a schematic view of an upper platen in a cutting apparatus for magnetic material production according to the present invention;

fig. 15 is a schematic structural view of the cutting apparatus for magnetic material production of fig. 14E according to the present invention.

In the figure: 1. cutting the shell; 1011. a first telescopic rod; 1012. a second telescopic rod; 102. a push plate; 1021. a sliding groove; 1022. positioning holes; 103. a cutting knife; 104. a clamping plate; 1041. a piston cylinder; 1042. a sliding plate; 1043. a clamping spring; 1044. a slide bar; 1045. a mounting plate; 1046. a squeeze switch; 105. an upper press plate; 1051. pulling the handle; 1052. a positioning rod; 1053. a positioning spring; 1054. a first pull rope; 1055. a platen spring; 1056. a lower pressing plate; 1061. a knife board; 1062. a return spring; 1063. a slide bar; 1064. a second rope; 107. a recovery box; 1071. a baffle; 1072. a spring member; 2. an ion generating device; 201. an air outlet pipe; 202. an air inlet pipe; 203. a blower; 204. an ion generator; 3. a printing device; 301. discharging boxes; 302. a printer; 303. and a discharging plate.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions in the embodiments will be clearly and completely described with reference to the accompanying drawings in the embodiments of the present invention, and the following embodiments are used to illustrate the present invention, but are not intended to limit the scope of the present invention.

Example 1:

referring to fig. 1-15, a cutting device for magnetic material production includes a cutting shell 1, a first telescopic rod 1011 and a second telescopic rod 1012 are fixedly connected in the cutting shell 1, a push plate 102 and a cutting knife 103 are respectively connected on the first telescopic rod 1011 and the second telescopic rod 1012, and the cutting device further includes: the multiple groups of air outlets are all arranged on the cutting knife 103, as shown in fig. 11 and 12, wherein the number of air outlets at one end of the cutting knife 103 close to the push plate 102 is larger than that of air outlets at the other end, and the air outlets at the other end are used for blowing away the cut magnetic material scraps; the ion generating device 2 is fixedly connected to the cutting shell 1, the ion generating device 2 is connected with an air outlet pipe 201 and an air inlet pipe 202, one end of the air outlet pipe 201 is communicated with an air outlet hole, and the air inlet end of the air inlet pipe 202 is positioned at a paper cutting position in the cutting shell 1; two groups of piston cylinders 1041 are fixedly connected in the cutting shell 1, piston rods are arranged in the piston cylinders 1041, the piston cylinders 1041 are communicated with the air outlet pipe 201, and the telescopic ends of the piston cylinders 1041 are connected with clamping plates 104; the anti-pinch device is arranged on the clamping plate 104 and is used for avoiding the damage of the magnetic material; a sliding groove 1021 arranged on the push plate 102, wherein a plurality of groups of positioning holes 1022 are arranged on the sliding groove 1021; an upper pressing plate 105 which is connected in the sliding groove 1021 in a sliding way, a plurality of groups of pressing plate springs 1055 are connected on the upper pressing plate 105, and a lower pressing plate 1056 is connected on the pressing plate springs 1055; the ion generating device 2 is internally connected with a fan 203 and an ion generator 204, the air inlet end of the fan 203 is connected with an air inlet pipe 202, and the air outlet end of the fan 203 is positioned at the ion generator 204; the upper pressing plate 105 is connected with a pressing plate spring 1055, the other end of the pressing plate spring 1055 is connected with a lower pressing plate 1056, and the air outlet pipe 201 is a telescopic hose.

When the device is used, the magnetic material of the corners to be cut after printing is placed in the cutting shell 1, the magnetic material is preferably positioned at the center position in the cutting shell 1, one end of the magnetic material is contacted with the push plate 102, the upper pressure plate 105 can be moved, the lower pressure plate 1056 below the upper pressure plate 105 is contacted with the top of the magnetic material, the pressure plate spring 1055 is in an extension state, the first telescopic rod 1011 can be started, the push plate 102 is moved by the extension of the first telescopic rod 1011, the push plate 102 is further pushed by the push plate 102 to move the magnetic material until the corners to be cut on the magnetic material come under the cutting knife 103, the ion generating device 2 can be started, the fan 203 in the ion generating device 2 is started, the gas in the cutting shell 1 is continuously sucked, the gas is further led to the ion generator 204, and the ion generator 204 generates the gas carrying the same ions, further, the gas is discharged through the gas outlet pipe 201, wherein in order to reduce the loss of the electric ions, the gas inlet pipe 202 and the gas outlet pipe 201 are made of plastic, the gas enters the piston cylinder 1041 through the gas outlet pipe 201 at the moment, meanwhile, part of the gas enters the cutting knife 103 and is discharged through the gas outlet hole, the gas continuously enters the piston cylinder 1041, the gas pressure in the piston cylinder 1041 is increased, the piston rod of the piston cylinder 1041 is stretched to drive the clamping plate 104 to move until being attached to one end of the magnetic material, then the movement is continued until the sliding plates 1042 on the two clamping plates 104 are contacted with the magnetic material, the clamping spring 1043 is extruded at the moment, the staff can judge whether the clamping of the magnetic material is completed or not through the extrusion of the clamping spring 1043, the cutting accuracy is prevented from being influenced by the movement of the magnetic material, the telescopic rod II 1012 can be started after the clamping is completed at the moment, the second telescopic rod 1012 enables the cutting knife 103 to be continuously close to the magnetic material, the speed of the second telescopic rod 1012 is required to be reduced when the second telescopic rod 1012 is close to the magnetic material, the cutting knife 103 is not required to cut the magnetic material when the cutting knife 103 contacts the magnetic material below, in the cutting process, the cutting knife 103 is generally thicker, at the moment, one end of the magnetic material can be extruded by the cutting knife 103, the other end of the magnetic material is contacted with the push plate 102, at the moment, the magnetic material is extruded to generate a certain arc arch, and at the moment, the air outlet holes are formed in the cutting knife 103, air with the same charge ions are continuously sprayed out, at the moment, the electric ions are contacted with the cutting end of the magnetic material first, the electric ions are contacted with the cutting end of the magnetic material, and are neutralized until the electric ions with the same charge are all the same type of electric electrons, at the moment, a certain gap is generated under the repulsive action of the like electrons between the magnetic materials, the air is convenient to enter the magnetic material, at the moment, the air can continuously enter the magnetic material, at the moment, the electric attraction between the magnetic materials can be reduced, the magnetic material can be separated easily, the magnetic material can be blown out by a user, and the magnetic material can be moved upwards when the air outlet holes are easy, and the magnetic material 105moves upwards, and the magnetic material is prevented from flying upwards to the magnetic material;

after the subsequent cutting is completed, the ion generating device 2 can be closed, at the moment, the piston cylinder 1041 is reset under the action of the self spring, and the telescopic rod II 1012 is contracted, at the moment, the cut magnetic material can be taken out, and the magnetic material is split-packed or bound;

when the air inlet end of the air inlet pipe 202 in the device is used, the bottom of the magnetic material can be fixed to a certain extent, meanwhile, dust generated by cutting the magnetic material can be absorbed, and a filter screen is arranged in the air inlet end of the ion generating device 2 at the moment, so that dust accumulation is prevented from affecting the use of the ion generator 204;

the ion generator 204 in the device generates ions which are preferably negative ions, so that dust in the air can be conveniently and rapidly settled through the negative ions.

Example 2:

referring to fig. 6 and 7, a cutting apparatus for producing a magnetic material is substantially the same as that of example 1, and further: the anti-pinch device comprises a sliding plate 1042 and a clamping spring 1043, wherein the clamping spring 1043 is connected to a clamping plate 104, the sliding plate 1042 is connected to the clamping spring 1043, a sliding rod 1044 is connected to the sliding plate 1042, the sliding rod 1044 penetrates through the clamping plate 104, a mounting plate 1045 is connected to the clamping plate 104, a squeezing switch 1046 is connected to the mounting plate 1045, the squeezing switch 1046 and the sliding rod 1044 are located on the same plane, and a control valve is arranged at the joint of the air outlet pipe 201 and the piston cylinder 1041.

When the device clamps and fixes the magnetic material, as the sliding plate 1042 contacts with the magnetic material firstly, the sliding plate 1042 moves towards the clamping plate 104, at the moment, the sliding rod 1044 on the sliding plate 1042 moves to further contact with the extrusion switch 1046, when the sliding rod 1044 contacts with the extrusion switch 1046, the extrusion switch 1046 controls the control valve to be closed, at the moment, gas cannot enter the piston cylinder 1041, the piston rod in the piston cylinder 1041 cannot extend, at the moment, the piston rod in the piston cylinder 1041 continues to extend due to the entering of the gas, the two sides of the magnetic material are prevented from being damaged due to excessive extrusion, at the same time, the gas cannot enter the piston cylinder 1041, at the moment, the gas entering the cutting knife 103 is enhanced, and at the moment, the cut broken paper scraps are blown away by the gas flow;

the device also has an installation mode, as shown in fig. 10 and 11, two groups of air inlet pipes 202 are arranged on the cutting knife 103, at this time, the two groups of air inlet pipes 202 are respectively connected with air outlet holes on two sides of the cutting knife 103, and a pressure release valve is connected in the air inlet pipe 202 connected with the air outlet hole on one side close to the push plate 102, so that the ejected air can only keep a certain pressure to be ejected, the ejected air is prevented from being too strong, the damage of magnetic materials is caused, the ejected air on the other side is enhanced, the cut-off corners of the magnetic materials are conveniently blown away, meanwhile, attention is paid to the fact that the air outlet holes in the cutting knife 103 are also required to be provided with plastic inner pipes in order to avoid the ionization in the air flow from being separated through metal conduction.

Example 3:

referring to fig. 13, 14 and 15, a cutting apparatus for producing a magnetic material is basically the same as that of embodiment 1, and further: two groups of positioning rods 1052 are connected to the upper pressing plate 105 in a sliding manner, the positioning rods 1052 are matched with the positioning holes 1022, positioning springs 1053 are connected to the positioning rods 1052, the other ends of the positioning springs 1053 are connected to the upper pressing plate 105, a pulling handle 1051 is connected to the upper pressing plate 105 in a sliding manner, a first pulling rope 1054 is connected to the pulling handle 1051, and the other ends of the first pulling rope 1054 are connected to the positioning rods 1052.

When the upper part of the magnetic material is fixed by the pressing plate, the pulling handle 1051 can be pulled by a finger, the first pulling rope 1054 is pulled, at the moment, the two groups of positioning rods 1052 are pulled by the first pulling rope 1054, the positioning rods 1052 leave the positioning holes 1022, the positioning rods 1052 squeeze the positioning springs 1053, after the positioning rods move to a proper area, namely the lower pressing plate 1056 is contacted with the surface of the magnetic material, the pulling handle 1051 can be loosened, the positioning springs 1053 are reset, the positioning rods 1052 reenter the positioning holes 1022 to finish the fixation of the upper pressing plate 105, and meanwhile, the first pulling rope 1054 drives the pulling handle 1051 to reset, so that the next use is facilitated;

the upper pressing plate 105 of the device should not be cut by the cutting knife 103 when the corners of the magnetic material are cut, for example, the length is too long, and the upper pressing plate 105 is taken out from the sliding groove 1021 above by pulling the first stay cord 1054, so that the rest of the shorter upper pressing plate 105 is replaced.

Example 4:

referring to fig. 8, 9 and 10, a cutting apparatus for producing a magnetic material is basically the same as that of embodiment 1, and further: cutting shell 1 sliding connection has cutting board 1061, and cutting board 1061 is located cutting knife 103 below, is connected with reset spring 1062 on the cutting board 1061, and reset spring 1062's the other end is connected with cutting shell 1, and cutting shell 1 is equipped with recovery box 107 in slope low side department, and is equipped with the spout in the slope, and sliding connection has baffle 1071 in the spout, is connected with spring 1072 on the baffle 1071, is connected with slide bar 1063 on the cutting board 1061, is connected with stay cord two 1064 on the slide bar 1063, and the other end and the baffle 1071 of stay cord two 1064 are connected.

When the device cuts magnetic materials, the cutting knife 103 can extrude the knife board 1061 below, and then extrude the reset spring 1062, at this moment, a part of the cutting knife 103 can enter the groove of the knife board 1061, the cutting of the magnetic materials at the bottom is facilitated, simultaneously, along with the movement of the knife board 1061, the sliding rod 1063 moves, and then the pulling rope two 1064 moves, the baffle 1071 is pulled to move, at this moment, the spring 1072 is compressed, and meanwhile, the baffle 1071 moves, at this moment, the recovery box 107 is communicated with the lower end of a slope, at this moment, the waste residues and the leftovers cut off at this moment enter the recovery box 107 under the action of strong air flow blown by the cutting knife 103, and after the cutting knife 103 leaves the knife board 1061, the baffle 1071 is reset.

Example 5:

referring to fig. 1-15, the magnetic material printing device further comprises a printing device 3, the cutting device is connected with the printing device 3, and the magnetic material cutting structure is used for cutting the printed magnetic material: the printing device 3 comprises a discharging box 301, a printer 302 and a discharging plate 303, wherein a plurality of groups of printers 302 are sequentially connected, the discharging box 301 is positioned at the feeding end of the printer 302, the discharging plate 303 is positioned at the discharging end of the printer 302, and the discharging end of the discharging plate 303 is communicated with the cutting shell 1.

The printer 302 in the device is the existing printing product, firstly, characters and images to be printed are made into printing plates, the printing plates are arranged on the printer 302, then, ink is coated on places with the characters and the images on the printing plates, then, an ink coating mechanism, an imprinting mechanism and a paper conveying mechanism which are arranged in the printer 302 are started to be matched, the magnetic materials in the discharge box 301 are sucked out or taken out, then, the magnetic materials are printed, the printed magnetic materials enter the blanking end, finally, the magnetic materials fall into the cutting shell 1, and follow-up cutting is facilitated.

According to the invention, through extrusion generated when the cutting knife 103 cuts the magnetic material, and the air outlet hole is arranged on the cutting knife 103, the air containing certain electric ions is further introduced between gaps of the magnetic material, so that electrons between the magnetic materials are changed from original opposite electrons into the same kind of electrons, and further the magnetic materials are not adsorbed by the opposite electrons, thereby being convenient for separating the magnetic materials and facilitating subsequent use of the magnetic materials after cutting.

The foregoing description is only illustrative of the preferred embodiment of the present invention, and is not to be construed as limiting the invention, but is to be construed as limiting the invention to any and all simple modifications, equivalent variations and adaptations of the embodiments described above, which are within the scope of the invention, may be made by those skilled in the art without departing from the scope of the invention.

Claims (3)

1. The utility model provides a magnetic material production is with cutting equipment, includes cuts shell (1), cut shell (1) internal fixation and have telescopic link one (1011), telescopic link two (1012), be connected with push pedal (102), cut cutter (103) on telescopic link one (1011), telescopic link two (1012) respectively, its characterized in that still includes:

the plurality of groups of air outlet holes are arranged on the cutting knife (103);

the ion generating device (2) is fixedly connected to the cutting shell (1), the ion generating device (2) is connected with an air outlet pipe (201) and an air inlet pipe (202), one end of the air outlet pipe (201) is communicated with an air outlet hole, and the air inlet end of the air inlet pipe (202) is positioned at the cutting position in the cutting shell (1);

two groups of piston cylinders (1041) are fixedly connected in the cutting shell (1), the piston cylinders (1041) are communicated with an air outlet pipe (201), and a clamping plate (104) is connected to the telescopic end of each piston cylinder (1041);

the anti-pinch device is arranged on the clamping plate (104) and is used for avoiding the damage of the magnetic material;

the sliding groove (1021) is arranged on the push plate (102), and a plurality of groups of positioning holes (1022) are arranged on the sliding groove (1021);

an upper pressing plate (105) which is connected in the sliding groove (1021) in a sliding way, wherein a plurality of groups of pressing plate springs (1055) are connected to the upper pressing plate (105), and a lower pressing plate (1056) is connected to the pressing plate springs (1055);

the anti-pinch device comprises a sliding plate (1042) and a clamping spring (1043), wherein the clamping spring (1043) is connected to the clamping plate (104), and the sliding plate (1042) is connected to the clamping spring (1043);

the sliding plate (1042) is connected with a sliding rod (1044), the sliding rod (1044) penetrates through the clamping plate (104), the clamping plate (104) is connected with a mounting plate (1045), the mounting plate (1045) is connected with an extrusion switch (1046), the extrusion switch (1046) and the sliding rod (1044) are located on the same plane, and a control valve is arranged at the joint of the air outlet pipe (201) and the piston cylinder (1041);

two groups of positioning rods (1052) are connected to the upper pressing plate (105) in a sliding manner, the positioning rods (1052) are matched with the positioning holes (1022), positioning springs (1053) are connected to the positioning rods (1052), the other ends of the positioning springs (1053) are connected to the upper pressing plate (105), a pulling handle (1051) is connected to the upper pressing plate (105) in a sliding manner, a first pulling rope (1054) is connected to the pulling handle (1051), and the other ends of the first pulling ropes (1054) are connected to the positioning rods (1052);

a cutter plate (1061) is slidably connected to the cutting shell (1), the cutter plate (1061) is located below the cutting knife (103), a reset spring (1062) is connected to the cutter plate (1061), and the other end of the reset spring (1062) is connected with the cutting shell (1);

a slope is arranged in the cutting shell (1), a recovery box (107) is arranged at the lower end of the slope of the cutting shell (1), a chute is arranged in the slope, a baffle plate (1071) is connected in a sliding manner in the chute, a spring piece (1072) is connected to the baffle plate (1071), a slide rod (1063) is connected to the knife board (1061), a pull rope II (1064) is connected to the slide rod (1063), and the other end of the pull rope II (1064) is connected with the baffle plate (1071);

the ion generating device (2) is connected with a fan (203) and an ion generator (204), the air inlet end of the fan (203) is connected with the air inlet pipe (202), and the air outlet end of the fan (203) is positioned at the ion generator (204);

a pressing plate spring (1055) is connected to the upper pressing plate (105), and a lower pressing plate (1056) is connected to the other end of the pressing plate spring (1055);

two groups of air inlet pipes (202) are arranged on the cutting knife (103), the two groups of air inlet pipes (202) are respectively connected with air outlet holes on two sides of the cutting knife (103), and a pressure release valve is connected with the air inlet pipe (202) connected with the air outlet hole on one side close to the push plate (102), so that the sprayed air keeps certain pressure.

2. A cutting apparatus for magnetic material production according to claim 1, wherein: the air outlet pipe (201) is a telescopic hose.

3. A cutting apparatus for magnetic material production according to claim 1, wherein: still include printing device (3), cutting equipment is connected with printing device (3), cutting equipment is used for cutting the magnetic material after the printing, printing device (3) are including blowing case (301), printer (302), blowing board (303), multiunit printing device (302) connect gradually, blowing case (301) are located the material loading end of printing device (302), blowing board (303) are located the unloading end of printing device (302), just the discharge end of blowing board (303) communicates with each other with cutting shell (1).