CN111804975A - Soft magnetic material cutting device - Google Patents

Abstract

The invention relates to the technical field of soft magnetic material cutting, in particular to a soft magnetic material cutting device which comprises a cutting bearing desktop component, a sliding bearing device, a telescopic ejection column component, a telescopic extrusion device, an ejection connecting device, a limiting fixing device, a movable bearing panel, a lifting sliding cavity device and a lifting cutting device, wherein the soft magnetic material is placed in a fixing ring and is abutted against the ejection ring, two telescopic rods I are started to fix the material by utilizing four extrusion columns I, when the two telescopic rods II are started, the other end of the material is fixed by the two extrusion columns II, the motor II is started to adjust the position of the cutting blade, thereby changing the length of the cutting material, starting the telescopic rod IV to drive the cutting blade to slide backwards, starting the motor III to drive the cutting blade to rotate, and starting the two telescopic rods III to drive the rotating cutting blade to move downwards so as to complete the cutting of the material.

Description

Soft magnetic material cutting device

Technical Field

The invention relates to the technical field of soft magnetic material cutting, in particular to a soft magnetic material cutting device.

Background

Soft magnetic material, meaning that when magnetization occurs at Hc no greater than 1000A/m, such material is called soft magnet. Typical soft magnetic materials can achieve maximum magnetization with a minimum external magnetic field. Soft magnetic materials (soft magnetic materials) are magnetic materials with low coercivity and high magnetic permeability. Soft magnetic materials are easy to magnetize and demagnetize, and are widely used in electrical and electronic equipment. The most widely used soft magnetic materials are iron-silicon alloys (silicon steel sheets) and various soft magnetic ferrites. The existing equipment cannot accurately cut soft magnetic materials with different diameters.

Disclosure of Invention

The invention relates to the technical field of soft magnetic material cutting, in particular to a soft magnetic material cutting device which comprises a cutting bearing desktop component, a sliding bearing device, a telescopic ejection column component, a telescopic extrusion device, an ejection connection device, a limiting and fixing device, a movable bearing panel, a lifting sliding cavity device and a lifting cutting device.

A soft magnetic material cutting device comprises a cutting bearing table component, and further comprises a sliding bearing device, a telescopic support pillar component, a telescopic extrusion device, a top leaning connection device, a limiting fixing device, a movable bearing panel, a lifting sliding cavity device and a lifting cutting device, wherein the cutting bearing table component is connected with the sliding bearing device in a sliding way, the sliding bearing device is connected with four telescopic support pillar components in a sliding way, the sliding bearing device is fixedly connected with two telescopic extrusion devices which are respectively contacted with the four telescopic support pillar components, the right end of the cutting bearing table component is fixedly connected with the top leaning connection device, the top leaning connection device is fixedly connected with the limiting fixing device, the cutting bearing table component is connected with the movable bearing panel in a sliding way, the movable bearing panel is fixedly connected with the lifting sliding cavity device, the lifting sliding cavity device is internally and slidably connected with a lifting cutting device.

As a further optimization of the technical scheme, the cutting bearing desktop component of the soft magnetic material cutting device comprises a fixed bottom plate, a side ear plate I, a limiting sliding column I and a motor I, lead screw I, the upright otic placode II of side, spacing traveller II, lead screw II and motor II, the equal fixedly connected with upright otic placode I in both ends about the PMKD rear, two spacing traveller I of fixedly connected with between two upright otic placode I of side, fixedly connected with motor I on the PMKD, fixedly connected with lead screw I on motor I's the output shaft, lead screw I rotates with the upright otic placode I that is located the left end to be connected, the equal fixedly connected with upright otic placode II in both ends about PMKD the place ahead, two spacing traveller II of fixedly connected with between two upright otic placode II of side, lead screw II's both ends rotate with two upright otic placode II respectively to be connected, motor II fixed connection on PMKD and with lead screw II fixed connection.

As a further optimization of the technical scheme, the sliding bearing device of the soft magnetic material cutting device comprises a bearing convex plate, a fixing ring, a square sliding port and rollers I, wherein the bearing convex plate is connected with two limiting sliding columns I in a sliding mode and is connected with a screw rod I through threads, the fixing ring is fixedly connected onto the bearing convex plate, the four square sliding ports are arranged on the fixing ring, the four rollers I are fixedly connected to the lower portion of the bearing convex plate, and the four rollers I are all in contact with a fixing bottom plate.

As a further optimization of the technical scheme, the telescopic support pillar component of the soft magnetic material cutting device comprises a square sliding pillar, an extrusion pillar I, semicircular beads and springs, wherein the extrusion pillar I and the semicircular beads are fixedly connected to the front end and the rear end of the square sliding pillar, the springs are sleeved on the square sliding pillar, the four square sliding pillars are respectively connected in the four square sliding ports in a sliding manner, and the four springs are respectively positioned between the fixing ring and the four semicircular beads.

As a further optimization of the technical scheme, the flexible extrusion device of the soft magnetic material cutting device comprises a contact curved plate, two flexible sliding columns, a limiting ring and a telescopic rod I, wherein the contact curved plate is connected with the two flexible sliding columns in a sliding manner, the outer ends of the two flexible sliding columns are fixedly connected with the limiting ring, the contact curved plate is fixedly connected with the telescopic rod I, the two groups of flexible sliding columns are respectively and fixedly connected with the left end and the right end of a fixing ring, the two telescopic rods I are respectively and fixedly connected with the left end and the right end of the fixing ring, and the two contact curved plates are in contact with four semicircular beads.

As a further optimization of the technical scheme, the abutting connection device of the soft magnetic material cutting device comprises a supporting plate, an abutting ring and a convex block, wherein the supporting plate is fixedly connected to the fixed bottom plate and is rotatably connected with the screw rod I, the abutting ring is fixedly connected above the supporting plate, and the front end and the rear end of the left end of the abutting ring are fixedly connected with the two convex blocks.

As a further optimization of the technical scheme, the limiting and fixing device of the soft magnetic material cutting device comprises a fixing block, a telescopic rod II, a linkage sliding column and an extrusion column II, wherein the fixing block is fixedly connected above the top leaning ring, the telescopic rods II are fixedly connected to both ends of the fixing block, the linkage sliding columns are fixedly connected to the outer ends of the two telescopic rods II, the two linkage sliding columns are respectively connected with the two convex blocks in a sliding manner, and the extrusion column II is fixedly connected to the inner ends of the two linkage sliding columns.

As a further optimization of the technical scheme, the movable bearing panel of the soft magnetic material cutting device provided by the invention comprises a bearing plate, two idler wheels II, lifting sliding columns and a limiting plate, wherein the bearing plate is slidably connected with the two limiting sliding columns II and is in threaded connection with a screw rod II, four idler wheels II are fixedly connected below the bearing plate, all the four idler wheels II are in contact with a fixed bottom plate, two lifting sliding columns are fixedly connected on the bearing plate, and the limiting plate is fixedly connected above the two lifting sliding columns.

As a further optimization of the technical scheme, the lifting sliding cavity device of the soft magnetic material cutting device comprises a supporting block, a fixed sliding cavity, connecting lug plates and a telescopic rod III, wherein the supporting block is provided with the fixed sliding cavity, the left end and the right end in front of the supporting block are fixedly connected with the connecting lug plates, two lifting sliding columns are respectively connected in the two connecting lug plates in a sliding manner, the telescopic rod III is fixedly connected below the supporting block, and the telescopic rod III is fixedly connected to the bearing plate.

As a further optimization of the technical scheme, the lifting cutting device of the soft magnetic material cutting device comprises a telescopic sliding plate, a telescopic rod IV, a motor III and a cutting blade, wherein the telescopic rod IV is fixedly connected to the telescopic sliding plate, the telescopic sliding plate is slidably connected in the fixed sliding cavity, the telescopic rod IV is fixedly connected in the fixed sliding cavity, the motor III is fixedly connected below the telescopic sliding plate, and the cutting blade is fixedly connected to an output shaft of the motor III.

The soft magnetic material cutting device has the beneficial effects that:

place soft magnetic material in the fixed ring and support to the backing ring on, start two telescopic link I and utilize four extrusion post I to fix the material, start two telescopic link II and utilize two extrusion post II to fix the other end of material, the position of starter motor II adjustment cutting piece, thereby change the length of cutting material, start telescopic link IV drives the cutting piece and slides backward, starter motor III drives the cutting piece and rotates, two telescopic link III drive pivoted cutting piece in the start move down, thereby accomplish the cutting of material.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic structural diagram of a soft magnetic material cutting device according to the present invention;

FIG. 2 is a schematic view of a cut load table structure;

FIG. 3 is a schematic view of a sliding support device;

FIG. 4 is a schematic structural view of a telescoping jack post member;

FIG. 5 is a schematic view of a telescopic extrusion apparatus;

FIG. 6 is a schematic view of the structure of the abutting joint device;

FIG. 7 is a schematic structural view of a position-limiting fixing device;

FIG. 8 is a schematic view of a movable bearing surface plate structure;

FIG. 9 is a schematic view of the elevating slide chamber device;

fig. 10 is a schematic structural view of the lifting cutting device.

In the figure: cutting the load-bearing table top member 1; a fixed base plate 1-1; a side ear plate I1-2; a limiting sliding column I1-3; motor I1-4; a lead screw I1-5; a side ear plate II 1-6; a limiting sliding column II 1-7; lead screw II 1-8; motor II 1-9; a sliding supporting device 2; supporting the convex plate 2-1; a fixed ring 2-2; 2-3 of a square sliding opening; roller I2-4; a telescopic jack-post member 3; 3-1 of a square sliding column; extrusion column I3-2; 3-3 parts of semicircular beads; 3-4 parts of a spring; a telescopic extrusion device 4; a contact curved plate 4-1; 4-2 of a telescopic sliding column; 4-3 of a limiting ring; a telescopic rod I4-4; against the connecting means 5; a support plate 5-1; 5-2 of a top leaning ring; 5-3 of convex blocks; a limiting and fixing device 6; 6-1 of a fixed block; the telescopic rod II 6-2; 6-3 of a linkage sliding column; extrusion column II 6-4; the mobile load-bearing panel 7; a carrier plate 7-1; roller II 7-2; 7-3 of a lifting sliding column; 7-4 of a limiting plate; a lifting sliding cavity device 8; a support block 8-1; a fixed sliding cavity 8-2; connecting the ear plates 8-3; the telescopic rod III 8-4; a lifting cutting device 9; a telescopic sliding plate 9-1; the telescopic rod IV 9-2; motor III 9-3; and 9-4, cutting.

Detailed Description

The first embodiment is as follows:

the present invention relates to the field of soft magnetic material cutting technology, and more particularly to a soft magnetic material cutting device, which comprises a cutting bearing table top member 1, a sliding bearing device 2, a telescopic supporting column member 3, a telescopic extrusion device 4, a propping connection device 5, a limiting fixing device 6, a movable bearing panel 7, a lifting sliding cavity device 8 and a lifting cutting device 9, wherein the soft magnetic material is placed in a fixing ring 2-2 and propped against a propping ring 5-2, two telescopic rods I4-4 are started to fix the material by using four extrusion columns I3-2, the other end of the material is fixed by using two extrusion columns II6-4 when the two telescopic rods II6-2 are started, and a motor II1-9 is started to adjust the position of a cutting blade 9-4, so as to change the length of the cut material, starting the telescopic rod IV9-2 to drive the cutting blade 9-4 to slide backwards, starting the motor III9-3 to drive the cutting blade 9-4 to rotate, and starting the two telescopic rods III8-4 to drive the rotating cutting blade 9-4 to move downwards so as to complete the cutting of the material;

a soft magnetic material cutting device comprises a cutting bearing desktop component 1, and further comprises a sliding bearing device 2, a telescopic ejection column component 3, a telescopic extrusion device 4, a top leaning connecting device 5, a limiting fixing device 6, a movable bearing panel 7, a lifting sliding cavity device 8 and a lifting cutting device 9, wherein the cutting bearing desktop component 1 plays a role in bearing and supporting, the cutting bearing desktop component 1 is connected with the sliding bearing device 2 in a sliding way, the sliding bearing device 2 can drive the telescopic ejection column component 3 and the telescopic extrusion device 4 to move, the sliding bearing device 2 is connected with four telescopic ejection column components 3 in a sliding way, the soft magnetic material is fixed by utilizing the four telescopic ejection column components 3, the sliding bearing device 2 is fixedly connected with two telescopic extrusion devices 4, and the two telescopic extrusion devices 4 are utilized to drive the four telescopic ejection column components 3 to slide inwards, thereby fixing the material, two telescopic extrusion devices 4 are respectively contacted with four telescopic support pillar components 3, the right end of the cutting bearing table component 1 is fixedly connected with a propping connecting device 5, the propping connecting device 5 can provide a propping position for the other end of the material, a limiting and fixing device 6 is fixedly connected on the propping connecting device 5, the other end of the material is fixed by the limiting and fixing device 6, a movable bearing panel 7 is slidably connected on the cutting bearing table component 1, the movable bearing panel 7 can drive a lifting sliding cavity device 8 to move, the lifting sliding cavity device 8 is fixedly connected on the movable bearing panel 7, the height of the lifting cutting device 9 can be adjusted, the lifting sliding cavity device 8 is internally and slidably connected with the lifting cutting device 9, and the lifting cutting device 9 can stretch out and draw back, so that the position of the lifting cutting device 9 is adjusted to be positioned right above a material.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 1-10, and the cutting load-bearing table component 1 described in the present embodiment further describes the first embodiment includes a fixed bottom plate 1-1, a side upright ear plate I1-2, a limiting slide pillar I1-3, a motor I1-4, a screw I1-5, a side upright ear plate II1-6, a limiting slide pillar II1-7, a screw II1-8 and a motor II1-9, wherein the fixed bottom plate 1-1 plays a role of load-bearing connection, the left and right ends behind the fixed bottom plate 1-1 are fixedly connected with the side upright ear plate I1-2, the two side upright ear plates I1-2 can provide a fixed space for the two limiting slide pillars I1-3, the two limiting slide pillars I1-3 are fixedly connected between the two side upright ear plates I1-2, the two limiting slide pillars I1-3 can provide a sliding space for the supporting convex plate 2-1, the device is limited, a motor I1-4 is fixedly connected to a fixed bottom plate 1-1, the motor I1-4 can drive a lead screw I1-5 to rotate, a lead screw I1-5 is fixedly connected to an output shaft of the motor I1-4, a rotating lead screw I1-5 can drive a bearing convex plate 2-1 to move, the lead screw I1-5 is rotatably connected with a side upright ear plate I1-2 positioned at the left end, the left end and the right end in front of the fixed bottom plate 1-1 are fixedly connected with side upright ear plates II1-6, the side upright ear plates II1-6 can provide a fixed space for two limiting sliding columns II1-7, two limiting sliding columns II1-7 are fixedly connected between the two side upright ear plates II1-6, two ends of the lead screw II1-8 are respectively rotatably connected with the two side upright ear plates II1-6, and the motor II1-9 is fixedly connected to the fixed bottom plate 1-1 and fixedly connected with the lead screw II1-8 The motor II1-9 can drive the screw II1-8 to rotate so as to drive the bearing plate 7-1 to move, scales are arranged on the fixed bottom plate 1-1, the position of the bearing plate 7-1 can be observed in detail, the length of the cut soft magnetic material can be known as long as the position of the bearing plate 7-1 is determined, and accurate cutting is achieved.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1-10, and the embodiment further describes a second embodiment, where the sliding support device 2 includes a support convex plate 2-1, a fixed ring 2-2, a square sliding port 2-3, and a roller I2-4, the support convex plate 2-1 is slidably connected to two limiting sliding columns I1-3 and is connected to a screw I1-5 through a thread, the support convex plate 2-1 can provide a fixed space for the fixed ring 2-2 and drive it to move, the support convex plate 2-1 is fixedly connected to the fixed ring 2-2, the fixed ring 2-2 can provide a space for soft magnetic materials to pass through, the fixed ring 2-2 is provided with four square sliding ports 2-3, and the four square sliding ports 2-3 can provide a sliding space for the four square sliding columns 3-1, four rollers I2-4 are fixedly connected below the bearing convex plate 2-1, when the four rollers I2-4 are all contacted with the fixed bottom plate 1-1, sliding friction can be changed into rolling friction, and the bearing convex plate can play a role in supporting, so that the service life of the bearing convex plate 2-1 can be prolonged.

The fourth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1-10, and the present embodiment further describes the third embodiment, in which the telescopic top pillar member 3 includes a square sliding pillar 3-1, an extrusion pillar I3-2, a hemi-spherical bead 3-3 and a spring 3-4, the square sliding pillar 3-1 can drive the extrusion pillar I3-2 to move inward, the front and rear ends of the square sliding pillar 3-1 are fixedly connected with the extrusion pillar I3-2 and the hemi-spherical bead 3-3, the extrusion pillar I3-2 is used to fix the soft magnetic material, the hemi-spherical bead 3-3 can drive the square sliding pillar 3-1 to slide inward, the square sliding pillar 3-1 is sleeved with the spring 3-4, the square sliding pillar 3-1 can be returned to the original position after the spring 3-4 is arranged, the four square sliding pillars 3-1 are respectively slidably connected in the four square sliding ports 2-3, four springs 3-4 are respectively positioned between the fixed ring 2-2 and the four semicircular beads 3-3.

The fifth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1-10, and the present embodiment further describes the fourth embodiment, in which the telescopic extrusion apparatus 4 includes a contact curved plate 4-1, a telescopic sliding column 4-2, a limiting ring 4-3 and a telescopic rod I4-4, the two contact curved plates 4-1 are used to drive four hemi-beads 3-3 to move inward, the contact curved plate 4-1 is connected with two telescopic sliding columns 4-2 in a sliding manner, the contact curved plate 4-1 can be limited after the two telescopic sliding columns 4-2 are arranged, the contact curved plate 4-1 can only slide back and forth, the outer ends of the two telescopic sliding columns 4-2 are both fixedly connected with the limiting ring 4-3, the limiting ring 4-3 can limit the contact curved plate 4-1, and prevent the contact curved plate 4-1 from sliding off the telescopic sliding column 4-2, the contact curved plate 4-1 is fixedly connected with a telescopic rod I4-4, the contact curved plate 4-1 can be driven to slide back and forth by utilizing the telescopic rod I4-4, the two groups of telescopic sliding columns 4-2 are respectively and fixedly connected to the left end and the right end of the fixed ring 2-2, the two telescopic rods I4-4 are respectively and fixedly connected to the left end and the right end of the fixed ring 2-2, and the two contact curved plates 4-1 are in contact with the four semicircular beads 3-3.

The sixth specific implementation mode:

the following describes the present embodiment with reference to fig. 1 to 10, and the second embodiment is further described in the present embodiment, where the abutting connection device 5 includes a supporting plate 5-1, an abutting ring 5-2 and convex blocks 5-3, the supporting plate 5-1 is fixedly connected to a fixed bottom plate 1-1 and rotatably connected to a lead screw I1-5, the supporting plate 5-1 plays a role of bearing and supporting, the abutting ring 5-2 is fixedly connected above the supporting plate 5-1, the abutting ring 5-2 can provide an abutting space for a soft magnetic material, two convex blocks 5-3 are fixedly connected to front and rear ends of a left end of the abutting ring 5-2, and the two convex blocks 5-3 can provide a sliding space for two interlocking sliding columns 6-3.

The seventh embodiment:

the embodiment is described below with reference to fig. 1-10, and the sixth embodiment is further described in the present embodiment, in which the limiting and fixing device 6 includes a fixing block 6-1, a telescopic rod II6-2, a linkage sliding column 6-3 and an extrusion column II6-4, the fixing block 6-1 is fixedly connected above the top leaning ring 5-2, the fixing block 6-1 can provide a fixed space for the two telescopic rods II6-2, both ends of the fixing block 6-1 are fixedly connected with the telescopic rod II6-2, the telescopic rod II6-2 can drive the two linkage sliding columns 6-3 to move, the outer ends of the two telescopic rods II6-2 are fixedly connected with the linkage sliding column 6-3, the two linkage sliding columns 6-3 can drive the two extrusion columns II6-4 to move, the two linkage sliding columns 6-3 are respectively connected with the two convex blocks 5-3 in a sliding manner, the inner ends of the two linkage sliding columns 6-3 are fixedly connected with extrusion columns II6-4, and the other end of the soft magnetic material is fixed by the two extrusion columns II 6-4.

The specific implementation mode is eight:

this embodiment will be described below with reference to fig. 1 to 10, and this embodiment will further describe embodiment two: the movable bearing panel 7 comprises a bearing plate 7-1, rollers II7-2, lifting sliding columns 7-3 and limiting plates 7-4, the bearing plate 7-1 is in sliding connection with the two limiting sliding columns II1-7 and in threaded connection with a screw II1-8, the bearing plate 7-1 plays a role in bearing connection, four rollers II7-2 are fixedly connected below the bearing plate 7-1, the roller II7-2 has a role consistent with that of the roller I2-4, the service life of the bearing plate 7-1 is prolonged, the four rollers II7-2 are in contact with a fixed bottom plate 1-1, the bearing plate 7-1 is fixedly connected with the two lifting sliding columns 7-3, and the two lifting sliding columns 7-3 can provide sliding spaces for the two lug plates 8-3 and limit the lug plates, the lug connecting plate 8-3 can only slide up and down, a limiting plate 7-4 is fixedly connected above the two lifting sliding columns 7-3, and the lug connecting plate 8-3 can be prevented from being separated from the lifting sliding columns 7-3 after the limiting plate 7-4 is arranged.

The specific implementation method nine:

the embodiment is described below with reference to fig. 1 to 10, and the embodiment further describes the eighth embodiment, in which the lifting sliding cavity device 8 includes a supporting block 8-1, a fixed sliding cavity 8-2, a connecting ear plate 8-3 and a telescopic rod III8-4, the supporting block 8-1 plays a role of bearing, the supporting block 8-1 is provided with the fixed sliding cavity 8-2, the fixed sliding cavity 8-2 can provide a sliding space for the telescopic sliding plate 9-1, the left and right ends in front of the supporting block 8-1 are both fixedly connected with the connecting ear plate 8-3, the connecting ear plate 8-3 can provide a connecting space for the supporting block 8-1, the two lifting sliding columns 7-3 are respectively slidably connected in the two connecting ear plates 8-3, the telescopic rod III8-4 is fixedly connected below the supporting block 8-1, the telescopic rod III8-4 can drive the supporting block 8-1 to slide up and down, and the telescopic rod III8-4 is fixedly connected to the bearing plate 7-1.

The detailed implementation mode is ten:

the embodiment is described below with reference to fig. 1-10, and the lifting cutting device 9 further described in the embodiment nine includes a telescopic sliding plate 9-1, a telescopic rod IV9-2, a motor III9-3 and a cutting blade 9-4, where the telescopic sliding plate 9-1 plays a role of bearing connection, the telescopic sliding plate 9-1 is fixedly connected with a telescopic rod IV9-2, the telescopic rod IV9-2 is used to drive the telescopic sliding plate 9-1 to slide back and forth, the telescopic sliding plate 9-1 is slidably connected in a fixed sliding cavity 8-2, the telescopic rod IV9-2 is fixedly connected in the fixed sliding cavity 8-2, the motor III9-3 is fixedly connected below the telescopic sliding plate 9-1, the motor III9-3 can drive the cutting blade 9-4 to rotate, the cutting blade 9-4 is fixedly connected to an output shaft of the motor 9-3, the rotating cutting blade 9-4 can cut the fixed soft magnetic materials.

The working principle of the soft magnetic material cutting device provided by the invention is as follows:

soft magnetic materials are placed in a fixed ring 2-2 and are abutted against a top backing ring 5-2, two telescopic rods I4-4 are started to drive two contact curved plates 4-1 to slide inwards, so that four square sliding columns 3-1 are driven to slide inwards through four semicircular beads 3-3, four extrusion columns I3-2 are driven to slide inwards to fix the materials, two telescopic rods II6-2 are started to drive two linkage sliding columns 6-3 to slide inwards, at the moment, two extrusion columns II6-4 can slide inwards to fix the other end of the materials, a motor II1-9 is started according to the length of the soft magnetic materials, a bearing plate 7-1 and a lead screw II1-8 are connected through threads to drive the bearing plate 7-1 to move so as to adjust the position of a cutting piece 9-4, the position of the bearing plate 7-1 can be known through the scales on the fixed bottom plate 1-1, so that the length of the cut soft magnetic material can be known, the telescopic rod IV9-2 is started to drive the cutting blade 9-4 to slide backwards through the telescopic sliding plate 9-1 and the motor III9-3, the motor III9-3 is started to drive the cutting blade 9-4 to rotate, the two telescopic rods III8-4 are started to drive the rotating cutting blade 9-4 to move downwards through the supporting block 8-1, so that the material is cut, after the cutting is finished, the supporting block 8-1 is restored to the original position, the two telescopic rods II6-2 are started, so that the cutting part is taken down, the screw I1-5 is driven by the motor I1-4 to rotate so as to adjust the position of the bearing convex plate 2-1, so that the soft magnetic bird can also move, and enabling the soft magnetic material to be propped against the inside of the abutting ring 5-2 again, continuously starting the two telescopic rods III8-4 to fix the material, driving the cutting blade 9-4 to move downwards, and then performing secondary cutting on the soft magnetic material, and sequentially circulating to realize the cutting of a plurality of soft magnetic materials with equal length.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (10)

1. A soft magnetic material cutting device, comprising a cutting carrying table member (1), characterized in that: the soft magnetic material cutting device also comprises a sliding bearing device (2), a telescopic support pillar component (3), a telescopic extrusion device (4), a top leaning connection device (5), a limiting fixing device (6), a movable bearing panel (7), a lifting sliding cavity device (8) and a lifting cutting device (9), wherein the cutting bearing desktop component (1) is connected with the sliding bearing device (2) in a sliding way, the sliding bearing device (2) is connected with four telescopic support pillar components (3) in a sliding way, the sliding bearing device (2) is fixedly connected with two telescopic extrusion devices (4), the two telescopic extrusion devices (4) are respectively contacted with the four telescopic support pillar components (3), the right end of the cutting bearing desktop component (1) is fixedly connected with the top leaning connection device (5), and the top leaning connection device (5) is fixedly connected with the limiting fixing device (6), the cutting bearing table top component (1) is connected with a movable bearing panel (7) in a sliding mode, the movable bearing panel (7) is fixedly connected with a lifting sliding cavity device (8), and the lifting sliding cavity device (8) is connected with a lifting cutting device (9) in a sliding mode.

2. A soft magnetic material cutting apparatus according to claim 1, wherein: the cutting bearing desktop component (1) comprises a fixed bottom plate (1-1), side upright ear plates I (1-2), limiting sliding columns I (1-3), motors I (1-4), a screw I (1-5), side upright ear plates II (1-6), limiting sliding columns II (1-7), screw II (1-8) and motors II (1-9), wherein the left end and the right end of the rear part of the fixed bottom plate (1-1) are fixedly connected with the side upright ear plates I (1-2), two limiting sliding columns I (1-3) are fixedly connected between the two side upright ear plates I (1-2), the motor I (1-4) is fixedly connected onto the fixed bottom plate (1-1), and the screw I (1-5) is fixedly connected onto an output shaft of the motor I (1-4), the lead screw I (1-5) is rotatably connected with the side upright ear plate I (1-2) positioned at the left end, the left end and the right end in front of the fixed base plate (1-1) are fixedly connected with the side upright ear plates II (1-6), two limiting sliding columns II (1-7) are fixedly connected between the two side upright ear plates II (1-6), the two ends of the lead screw II (1-8) are respectively rotatably connected with the two side upright ear plates II (1-6), and the motor II (1-9) is fixedly connected on the fixed base plate (1-1) and is fixedly connected with the lead screw II (1-8).

3. A soft magnetic material cutting apparatus according to claim 2, wherein: the sliding bearing device (2) comprises a bearing convex plate (2-1), a fixing ring (2-2), a square sliding opening (2-3) and rollers I (2-4), the bearing convex plate (2-1) is connected with two limiting sliding columns I (1-3) in a sliding mode and is connected with a screw I (1-5) through threads, the fixing ring (2-2) is fixedly connected to the bearing convex plate (2-1), the four square sliding openings (2-3) are formed in the fixing ring (2-2), the four rollers I (2-4) are fixedly connected to the lower portion of the bearing convex plate (2-1), and the four rollers I (2-4) are all in contact with a fixing base plate (1-1).

4. A soft magnetic material cutting apparatus according to claim 3, wherein: the telescopic support pillar component (3) comprises a square sliding pillar (3-1), an extrusion pillar I (3-2), a semicircular bead (3-3) and springs (3-4), wherein the front end and the rear end of the square sliding pillar (3-1) are fixedly connected with the extrusion pillar I (3-2) and the semicircular bead (3-3), the springs (3-4) are sleeved on the square sliding pillar (3-1), the four square sliding pillars (3-1) are respectively connected in four square sliding ports (2-3) in a sliding mode, and the four springs (3-4) are respectively located between the fixing ring (2-2) and the four semicircular beads (3-3).

5. A soft magnetic material cutting apparatus according to claim 4, wherein: the telescopic extrusion device (4) comprises a contact curved plate (4-1), telescopic sliding columns (4-2), a limiting ring (4-3) and telescopic rods I (4-4), wherein the contact curved plate (4-1) is connected with the two telescopic sliding columns (4-2) in a sliding mode, the outer ends of the two telescopic sliding columns (4-2) are fixedly connected with the limiting ring (4-3), the contact curved plate (4-1) is connected with the telescopic rods I (4-4) in a fixed mode, the two groups of telescopic sliding columns (4-2) are fixedly connected to the left end and the right end of the fixing ring (2-2) respectively, the two telescopic rods I (4-4) are fixedly connected to the left end and the right end of the fixing ring (2-2) respectively, and the two contact curved plates (4-1) are in contact with the four semicircular beads (3-3).

6. A soft magnetic material cutting apparatus according to claim 2, wherein: the top-leaning connecting device (5) comprises a supporting plate (5-1), a top-leaning ring (5-2) and convex blocks (5-3), the supporting plate (5-1) is fixedly connected to the fixed bottom plate (1-1) and is rotatably connected with the screw I (1-5), the top-leaning ring (5-2) is fixedly connected to the upper portion of the supporting plate (5-1), and the front end and the rear end of the left end of the top-leaning ring (5-2) are fixedly connected with the two convex blocks (5-3).

7. A soft magnetic material cutting apparatus according to claim 6, wherein: the limiting and fixing device (6) comprises a fixing block (6-1), a telescopic rod II (6-2), linkage sliding columns (6-3) and extrusion columns II (6-4), wherein the fixing block (6-1) is fixedly connected above the top leaning ring (5-2), the two ends of the fixing block (6-1) are fixedly connected with the telescopic rod II (6-2), the outer ends of the two telescopic rods II (6-2) are fixedly connected with the linkage sliding columns (6-3), the two linkage sliding columns (6-3) are respectively in sliding connection with the two convex blocks (5-3), and the inner ends of the two linkage sliding columns (6-3) are fixedly connected with the extrusion columns II (6-4).

8. A soft magnetic material cutting apparatus according to claim 2, wherein: the movable bearing panel (7) comprises a bearing plate (7-1), idler wheels II (7-2), lifting sliding columns (7-3) and limiting plates (7-4), the bearing plate (7-1) is connected with the two limiting sliding columns II (1-7) in a sliding mode and is connected with screw rods II (1-8) through threads, four idler wheels II (7-2) are fixedly connected to the lower portion of the bearing plate (7-1), the four idler wheels II (7-2) are all in contact with the fixing base plate (1-1), two lifting sliding columns (7-3) are fixedly connected to the bearing plate (7-1), and the limiting plates (7-4) are fixedly connected to the upper portions of the two lifting sliding columns (7-3).

9. A soft magnetic material cutting apparatus according to claim 8, wherein: the lifting sliding cavity device (8) comprises a supporting block (8-1), a fixed sliding cavity (8-2), connecting lug plates (8-3) and a telescopic rod III (8-4), wherein the fixed sliding cavity (8-2) is arranged on the supporting block (8-1), the left end and the right end in front of the supporting block (8-1) are fixedly connected with the connecting lug plates (8-3), two lifting sliding columns (7-3) are respectively connected in the two connecting lug plates (8-3) in a sliding mode, the telescopic rod III (8-4) is fixedly connected below the supporting block (8-1), and the telescopic rod III (8-4) is fixedly connected onto the bearing plate (7-1).

10. A soft magnetic material cutting apparatus according to claim 9, wherein: the lifting cutting device (9) comprises a telescopic sliding plate (9-1), a telescopic rod IV (9-2), a motor III (9-3) and a cutting blade (9-4), wherein the telescopic rod IV (9-2) is fixedly connected to the telescopic sliding plate (9-1), the telescopic sliding plate (9-1) is connected to the inside of a fixed sliding cavity (8-2) in a sliding mode, the telescopic rod IV (9-2) is fixedly connected to the inside of the fixed sliding cavity (8-2), the motor III (9-3) is fixedly connected to the lower portion of the telescopic sliding plate (9-1), and the cutting blade (9-4) is fixedly connected to an output shaft of the motor III (9-3).

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