CN108043512B - Automatic grinding machine suitable for online grinding of magnetic sheets in XY direction and implementation method thereof - Google Patents

Automatic grinding machine suitable for online grinding of magnetic sheets in XY direction and implementation method thereof Download PDF

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Publication number
CN108043512B
CN108043512B CN201711232172.1A CN201711232172A CN108043512B CN 108043512 B CN108043512 B CN 108043512B CN 201711232172 A CN201711232172 A CN 201711232172A CN 108043512 B CN108043512 B CN 108043512B
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grinding
direction sliding
driving
belt
frame
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CN108043512A (en
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杨海涛
张海南
方秀平
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Hengdian Group DMEGC Magnetics Co Ltd
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Hengdian Group DMEGC Magnetics Co Ltd
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B02CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
    • B02CCRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
    • B02C4/00Crushing or disintegrating by roller mills
    • B02C4/10Crushing or disintegrating by roller mills with a roller co-operating with a stationary member
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B02CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
    • B02CCRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
    • B02C4/00Crushing or disintegrating by roller mills
    • B02C4/28Details
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B02CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
    • B02CCRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
    • B02C4/00Crushing or disintegrating by roller mills
    • B02C4/28Details
    • B02C4/42Driving mechanisms; Roller speed control
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01FMAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
    • H01F41/00Apparatus or processes specially adapted for manufacturing or assembling magnets, inductances or transformers; Apparatus or processes specially adapted for manufacturing materials characterised by their magnetic properties
    • H01F41/02Apparatus or processes specially adapted for manufacturing or assembling magnets, inductances or transformers; Apparatus or processes specially adapted for manufacturing materials characterised by their magnetic properties for manufacturing cores, coils, or magnets
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02WCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
    • Y02W30/00Technologies for solid waste management
    • Y02W30/50Reuse, recycling or recovery technologies
    • Y02W30/62Plastics recycling; Rubber recycling

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  • Engineering & Computer Science (AREA)
  • Food Science & Technology (AREA)
  • Power Engineering (AREA)
  • Manufacturing & Machinery (AREA)
  • Crushing And Grinding (AREA)
  • Finish Polishing, Edge Sharpening, And Grinding By Specific Grinding Devices (AREA)

Abstract

The invention discloses an automatic grinding machine suitable for online grinding of magnetic sheets in XY directions, which comprises a feeding pressure roller, a grinding soft platform, a Y-direction synchronous belt driving mechanism, an X-direction synchronous belt driving mechanism and a frame; the device comprises a frame, a grinding soft platform, a fixing table, a grinding soft platform, a grinding machine and a grinding machine, wherein an electric box is arranged in the frame, the fixing table is arranged on the upper surface of the frame, and the grinding soft platform is arranged on the upper surface of the fixing table; the invention also discloses a realization method of the automatic grinding machine suitable for online grinding of the magnetic sheet in the XY direction; according to the invention, the magnetic sheets are rolled in the X direction and the Y direction simultaneously, so that the sufficient rolling of the magnetic sheets is ensured, the time required by rolling is shortened, and the processing efficiency is improved; the automatic grinding magnetic sheet replaces manual operation, so that the manual use amount is reduced, the labor cost is reduced, and meanwhile, the automatic grinding machine is convenient to manage uniformly; according to the invention, through the arrangement of the Y-direction pressing cylinder and the X-direction pressing cylinder, the pressing force can be accurately controlled, and the sufficient rolling is ensured.

Description

Automatic grinding machine suitable for online grinding of magnetic sheets in XY direction and implementation method thereof
Technical Field
The invention belongs to the technical field of automatic production of magnetic materials, and particularly relates to an automatic grinding machine suitable for online grinding of magnetic sheets in XY directions and a realization method thereof.
Background
The wheel mill is a device for breaking (crushing) or mixing materials, which is composed of a roller and a grinding disc as main working components. The device as crushing (pulverizing) is called a dry mill. For example, a pan rotary wheel mill has a pair of rollers and a pan on which material is crushed by the rollers. The outer ring of the grinding disc is provided with sieve holes, and the crushed materials are discharged from the sieve holes. The method is mainly used for breaking (pulverizing) clay, clinker, silica and the like with medium hardness in the refractory material industry. Are commonly used for medium and fine crushing of materials. The product particles crushed by the dry roller are approximately spherical, and the edges and corners are not sharp. The dry mill has the advantages of simpler structure, easier manufacture and maintenance, less strict feeding size requirement, large energy consumption and lower production efficiency.
The equipment used for mixing is called a wet mill, and the structure of the equipment is similar to that of a dry mill, except that a milling disc is provided with no sieve holes, a milling roller is lighter, and a discharging mechanism and the like are arranged. Adding the batch and water into the roller, evenly mixing, and discharging the batch by a discharging mechanism. The mixing process has the functions of stirring and extrusion, can well remove air among the material particles, ensures that the mixed pug has uniform moisture, has sufficient surface wetting of the particles, has good mixing effect, and has a certain destructive effect on the granularity of the material. The wet mill is heavy, the yield is low, the energy consumption is high, but the quality of the mud is good. However, the prior art magnetic material mill has the following problems: 1. the existing magnetic sheet cannot be crushed automatically on line after peritoneum; 2. the grinding machine can not automatically grind, often needs manual operation, and is troublesome to use.
Disclosure of Invention
The invention aims to provide an automatic grinding machine suitable for online grinding of magnetic sheets in XY directions, so as to solve the problems in the prior art. The automatic grinding machine suitable for the online grinding of the magnetic sheets in the XY direction has the characteristics of replacing manual operation with automatic grinding of the magnetic sheets, reducing the manual use amount, reducing the labor cost and being convenient for unified management.
The invention further aims at providing an implementation method of the automatic grinding machine suitable for online grinding of magnetic sheets in the XY direction.
In order to achieve the above purpose, the present invention provides the following technical solutions: an automatic grinding machine suitable for grinding magnetic sheets in XY direction on line comprises a feeding pressure roller, a grinding soft platform, a Y-direction synchronous belt driving mechanism, an X-direction synchronous belt driving mechanism and a frame; the feeding device comprises a frame, a feeding pressure roller, a Y-direction synchronous belt driving mechanism, a Y-direction pressing roller, a Y-direction pressing cylinder, a guide shaft, a Y-direction pressing driving motor, a Y-direction installation seat and a Y-direction sliding frame, wherein an electric box is arranged in the frame, a fixed table is arranged on the upper surface of the frame, a soft grinding platform is arranged on the upper surface of the fixed table, the feeding pressure roller is fixedly installed on the side edge of the fixed table through a bolt, and the Y-direction synchronous belt driving mechanism is arranged on one side, close to the feeding pressure roller, of the fixed table; the Y-direction installation seat is fixedly installed on the side edge of the fixed table through a bolt, one side edge above the Y-direction installation seat is provided with a Y-direction grinding driving motor, the other side edge above the Y-direction installation seat is provided with a Y-direction sliding frame, the lower part of the Y-direction sliding frame is provided with a Y-direction grinding pressing roller, two ends of the Y-direction grinding pressing roller are in sliding connection with the Y-direction sliding frame through a guide shaft, the Y-direction grinding pressing roller is connected with the Y-direction sliding frame through a Y-direction lower pressing cylinder, the Y-direction lower pressing cylinder is installed at the bottom of the Y-direction sliding frame, one side, far away from the feeding pressure roller, of the Y-direction synchronous belt driving mechanism is provided with an X-direction synchronous belt driving mechanism, and the X-direction synchronous belt driving mechanism comprises the guide shaft, the X-direction grinding driving motor, the X-direction grinding pressing roller, the X-direction lower pressing cylinder, the X-direction installation seat and the X-direction sliding frame; the X-direction mounting seat is fixedly mounted on the side edge of the fixing table through bolts, an X-direction grinding driving motor is arranged on one side edge above the X-direction mounting seat, an X-direction sliding frame is arranged on the other side edge above the X-direction mounting seat, an X-direction grinding pressing roller is arranged below the X-direction sliding frame, two ends of the X-direction grinding pressing roller are in sliding connection with the X-direction sliding frame through guide shafts, the X-direction grinding pressing roller is connected with the X-direction sliding frame through an X-direction lower pressing cylinder, the X-direction lower pressing cylinder is mounted on the bottom of the X-direction sliding frame, a magnetic sheet film belt is placed above the fixing table, and the magnetic sheet film belt is located in the middle of the grinding soft platform.
In the invention, the Y-direction synchronous belt driving mechanism further comprises a driving belt pulley, a driving belt, a driven belt pulley, a Y-direction sliding rail, a Y-direction moving block, a Y-direction sliding seat and a Y-direction sliding groove; the Y-direction grinding drive motor comprises a Y-direction grinding drive motor, wherein a driving belt pulley is arranged on an output shaft of the Y-direction grinding drive motor, a driven belt pulley is arranged above the Y-direction sliding frame, the driving belt pulley is in transmission connection with the driven belt pulley through a transmission belt, a Y-direction moving block is arranged at a position, corresponding to the transmission belt, above the Y-direction sliding frame, of the Y-direction sliding frame, the Y-direction moving block is fixedly arranged on the Y-direction sliding frame through a bolt, the transmission belt penetrates through the Y-direction moving block, the transmission belt is meshed with the Y-direction moving block through transmission teeth, a Y-direction sliding groove is arranged in the middle of the Y-direction mounting seat, Y-direction sliding rails are arranged on two sides of the Y-direction sliding groove, a Y-direction sliding seat is arranged at a position, corresponding to the Y-direction sliding rail, below the Y-direction sliding frame is in sliding connection with the Y-direction mounting seat through the Y-direction sliding rail, and the Y-direction sliding seat, and the Y-direction pressing cylinder is positioned in the Y-direction sliding groove.
In the invention, the X-direction synchronous belt driving mechanism further comprises a driving belt pulley, a driving belt, a driven belt pulley, an X-direction sliding rail, an X-direction moving block, an X-direction sliding seat and an X-direction sliding groove; the X-direction grinding drive motor comprises an X-direction grinding drive motor, wherein a driving belt pulley is arranged on an output shaft of the X-direction grinding drive motor, a driven belt pulley is arranged above an X-direction sliding frame, the driving belt pulley is in transmission connection with the driven belt pulley through a transmission belt, an X-direction moving block is arranged at a position, corresponding to the transmission belt, above the X-direction sliding frame, through a bolt, fixedly arranged on the X-direction sliding frame, the transmission belt passes through the X-direction moving block, the transmission belt is in meshed connection with the X-direction moving block through transmission teeth, an X-direction sliding groove is arranged in the middle of an X-direction mounting seat, X-direction sliding rails are arranged on two sides of the X-direction sliding groove, an X-direction sliding seat is arranged at a position, corresponding to the X-direction sliding rail, between the X-direction sliding frame and the X-direction mounting seat, through the X-direction sliding rail and the X-direction sliding seat are in sliding connection, and the X-direction pressing cylinder is positioned in the X-direction sliding groove.
In the invention, the Y-direction grinding drive motor and the X-direction grinding drive motor are electrically connected with the electric box.
In the invention, the realization method of the automatic grinding machine suitable for the online grinding of the magnetic sheet in the XY direction comprises the following steps:
(1) Conveying products: the magnetic sheet film strip coated by the laminating machine is conveyed back through a feeding pressure roller and passes through a grinding soft platform;
(2) Rolling in the Y direction: when the magnetic sheet film belt passes through the lower part of the Y-direction synchronous belt driving mechanism, the Y-direction grinding driving motor on the Y-direction mounting seat drives the driving belt pulley to rotate, the driving belt pulley drives the driven belt pulley to rotate through the driving belt, the Y-direction moving block is fixed on the Y-direction sliding frame through bolts and is meshed with the driving belt through driving teeth, the Y-direction sliding frame is in sliding connection with the Y-direction mounting seat through a Y-direction sliding rail and a Y-direction sliding seat, and two ends of the Y-direction grinding pressing roller are in sliding connection with the Y-direction sliding frame through a guide shaft and are connected with the Y-direction sliding frame through a Y-direction pressing cylinder, so that the Y-direction grinding pressing roller moves downwards under the positive and negative rotation action of the Y-direction grinding driving motor and under the action of the Y-direction pressing cylinder to press the magnetic sheet along the Y-direction sliding rail in a reciprocating way, and after the action times are completed according to the process requirements, the Y-direction pressing cylinder drives the Y-direction grinding pressing roller to rise;
(3) Rolling in the X direction: when the magnetic sheet film belt passes through the lower part of the X-direction synchronous belt driving mechanism, an X-direction grinding driving motor on an X-direction installation seat drives a driving belt pulley to rotate, the driving belt pulley drives a driven belt pulley to rotate through a driving belt, an X-direction moving block is fixed on an X-direction sliding frame through a bolt and is meshed with the driving belt through a driving tooth, the X-direction sliding frame is in sliding connection with the X-direction installation seat through an X-direction sliding rail and an X-direction sliding seat, two ends of an X-direction grinding pressing roller are in sliding connection with the X-direction sliding frame through a guide shaft, and the X-direction grinding pressing roller is connected with the X-direction sliding frame through an X-direction pressing cylinder, so that the X-direction grinding pressing roller moves downwards under the positive and negative rotation of the X-direction grinding driving motor and under the action of the X-direction pressing cylinder to press the magnetic sheet along the Y-direction sliding rail to reciprocate to grind the magnetic sheet, and after the action times are completed according to the technological requirements, the X-direction pressing cylinder drives the X-direction grinding pressing roller to rise;
(4) Outputting a product: the crushed product slides out through the crushing soft platform.
In the invention, the method for realizing the automatic grinding machine suitable for online grinding of magnetic sheets in XY directions is further characterized in that the Y-direction synchronous belt driving mechanism further comprises a driving belt pulley, a driving belt, a driven belt pulley, a Y-direction sliding rail, a Y-direction moving block, a Y-direction sliding seat and a Y-direction sliding groove; the Y-direction grinding drive motor comprises a Y-direction grinding drive motor, wherein an output shaft of the Y-direction grinding drive motor is provided with a driving belt pulley, a driven belt pulley is arranged above a Y-direction sliding frame, the driving belt pulley is in transmission connection with the driven belt pulley through a transmission belt, a Y-direction moving block is arranged above the Y-direction sliding frame and corresponds to the transmission belt, the Y-direction moving block is fixedly arranged on the Y-direction sliding frame through a bolt, the transmission belt passes through the Y-direction moving block, the transmission belt is in meshed connection with the Y-direction moving block through transmission teeth, a Y-direction sliding groove is arranged in the middle of the Y-direction mounting seat, Y-direction sliding rails are arranged on two sides of the Y-direction sliding groove, a Y-direction sliding seat is arranged below the Y-direction sliding frame and corresponds to the Y-direction sliding rail, the Y-direction sliding frame is in sliding connection with the Y-direction mounting seat through a Y-direction sliding rail and a Y-direction sliding seat, and a Y-direction down cylinder is positioned in the Y-direction sliding groove; the X-direction synchronous belt driving mechanism further comprises a driving belt pulley, a driving belt, a driven belt pulley, an X-direction sliding rail, an X-direction moving block, an X-direction sliding seat and an X-direction sliding groove; the X-direction grinding drive motor comprises an X-direction grinding drive motor, wherein a driving belt pulley is arranged on an output shaft of the X-direction grinding drive motor, a driven belt pulley is arranged above an X-direction sliding frame, the driving belt pulley is in transmission connection with the driven belt pulley through a transmission belt, an X-direction moving block is arranged at a position, corresponding to the transmission belt, above the X-direction sliding frame, and fixedly arranged on the X-direction sliding frame through a bolt, the transmission belt passes through the X-direction moving block, the transmission belt is in meshed connection with the X-direction moving block through transmission teeth, an X-direction sliding groove is arranged in the middle position of an X-direction mounting seat, X-direction sliding rails are arranged on two sides of the X-direction sliding groove, an X-direction sliding seat is arranged at a position, corresponding to the X-direction sliding rail, between the X-direction sliding frame and the X-direction mounting seat, and a X-direction pressing cylinder is positioned in the X-direction sliding groove; the Y-direction grinding driving motor and the X-direction grinding driving motor are electrically connected with the electric box.
Compared with the prior art, the invention has the beneficial effects that:
1. according to the invention, the magnetic sheets are rolled in the X direction and the Y direction simultaneously, so that the sufficient rolling of the magnetic sheets is ensured, the time required by rolling is shortened, and the processing efficiency is improved;
2. according to the invention, manual operation is replaced by automatic grinding of the magnetic sheets, so that the manual usage amount is reduced, the labor cost is reduced, and meanwhile, the automatic grinding machine is convenient to uniformly manage;
3. according to the invention, through the arrangement of the Y-direction pressing cylinder and the X-direction pressing cylinder, the pressing force can be accurately controlled, and the rolling is ensured to be sufficient;
4. the driving motor adopts the servo motor, so that the energy is saved, the consumption is reduced, the production efficiency is improved, and the resource waste is avoided;
5. the invention is provided with the grinding soft platform, so that the damage to the processing table surface during grinding the magnetic sheet is avoided.
Drawings
FIG. 1 is a schematic diagram of the structure of the present invention;
FIG. 2 is a schematic diagram of a Y-direction synchronous belt driving mechanism according to the present invention;
FIG. 3 is a schematic diagram of an X-direction synchronous belt driving mechanism according to the present invention;
in the figure: 1. a magnetic sheet film strip; 2. a feed pressure roller; 3. grinding the soft platform; 4. grinding the press roller in the Y direction; 5. a cylinder is pressed down in the Y direction; 6. a guide shaft; 7. grinding driving motor in Y direction; 8. a Y-direction synchronous belt driving mechanism; 81. a Y-direction mounting seat; 82. a Y-direction slide rail; 83. a Y-direction moving block; 84. a Y-direction sliding seat; 85. a Y-direction carriage; 86. a Y-direction sliding groove; 9. grinding driving motor in X direction; 10. grinding the press roller in the X direction; 11. an X-direction pressing cylinder; 12. an X-direction synchronous belt driving mechanism; 121. an X-direction mounting seat; 122. an X-direction slide rail; 123. an X-direction moving block; 124. an X-direction sliding seat; 125. an X-direction sliding frame; 126. an X-direction sliding groove; 13. a frame; 14. a fixed table; 15. a driving pulley; 16. a drive belt; 17. a driven pulley.
Detailed Description
The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.
Example 1
Referring to fig. 1-3, the present invention provides the following technical solutions: an automatic grinding machine suitable for on-line grinding of magnetic sheets in XY directions comprises a feeding pressure roller 2, a grinding soft platform 3, a Y-direction synchronous belt driving mechanism 8, an X-direction synchronous belt driving mechanism 12 and a frame 13; wherein, an electric box is arranged in the frame 13, a fixed table 14 is arranged on the upper surface of the frame 13, a grinding soft platform 3 is arranged on the upper surface of the fixed table 14, a feeding pressure roller 2 is fixedly arranged on the side edge of the fixed table 14 through bolts, a Y-direction synchronous belt driving mechanism 8 is arranged on one side, close to the feeding pressure roller 2, above the fixed table 14, the Y-direction synchronous belt driving mechanism 8 comprises a Y-direction grinding press roller 4, a Y-direction lower press cylinder 5, a guide shaft 6, a Y-direction grinding driving motor 7, a Y-direction mounting seat 81 and a Y-direction sliding frame 85; wherein, the Y-direction mount 81 is fixedly mounted on the side of the fixed table 14 through bolts, one side above the Y-direction mount 81 is provided with a Y-direction grinding driving motor 7, the other side above the Y-direction mount 81 is provided with a Y-direction sliding frame 85, the lower part of the Y-direction sliding frame 85 is provided with a Y-direction grinding pressing roller 4, two ends of the Y-direction grinding pressing roller 4 are in sliding connection with the Y-direction sliding frame 85 through a guide shaft 6, the Y-direction grinding pressing roller 4 is connected with the Y-direction sliding frame 85 through a Y-direction down-pressing cylinder 5, the Y-direction down-pressing cylinder 5 is mounted at the bottom of the Y-direction sliding frame 85, one side of the Y-direction synchronous belt driving mechanism 8, which is far away from the feeding pressure roller 2, is provided with an X-direction synchronous belt driving mechanism 12, and the X-direction synchronous belt driving mechanism 12 comprises the guide shaft 6, the X-direction grinding driving motor 9, the X-direction grinding pressing roller 10, the X-direction down-pressing cylinder 11, the X-direction mount 121 and the X-direction sliding frame 125; wherein, X direction mount pad 121 passes through the side of bolt fixed mounting at fixed station 14, one side of X direction mount pad 121 top is provided with X direction and grinds driving motor 9, and the other side of X direction mount pad 121 top is provided with X direction carriage 125, the below of X direction carriage 125 is provided with X direction and grinds compression roller 10, X direction grinds compression roller 10's both ends and X direction carriage 125 sliding connection through guiding axle 6, and X direction grinds compression roller 10 and X direction carriage 125 between be connected through X direction down force cylinder 11, X direction down force cylinder 11 is installed in the bottom of X direction carriage 125, magnetic sheet membrane area 1 is placed in the top of fixed station 14, and magnetic sheet membrane area 1 is located the intermediate position that grinds soft platform 3.
As shown in fig. 2, the Y-direction synchronous belt driving mechanism 8 further includes a driving pulley 15, a transmission belt 16, a driven pulley 17, a Y-direction slide rail 82, a Y-direction moving block 83, a Y-direction slide seat 84, and a Y-direction slide groove 86; the output shaft of the Y-direction grinding driving motor 7 is provided with a driving pulley 15, a driven pulley 17 is arranged above a Y-direction sliding frame 85, the driving pulley 15 is in transmission connection with the driven pulley 17 through a transmission belt 16, a Y-direction moving block 83 is arranged at a position corresponding to the transmission belt 16 above the Y-direction sliding frame 85, the Y-direction moving block 83 is fixedly arranged on the Y-direction sliding frame 85 through bolts, the transmission belt 16 passes through the Y-direction moving block 83, the transmission belt 16 is in meshed connection with the Y-direction moving block 83 through transmission teeth, a Y-direction sliding groove 86 is arranged at the middle position of the Y-direction mounting seat 81, Y-direction sliding rails 82 are arranged at two sides of the Y-direction sliding groove 86, a Y-direction sliding seat 84 is arranged at a position corresponding to the Y-direction sliding rail 82 below the Y-direction sliding frame 85, the Y-direction sliding frame 85 is in sliding connection with the Y-direction mounting seat 81 through the Y-direction sliding rail 82, and the Y-direction sliding seat 84, and the Y-direction pressing cylinder 5 is positioned inside the Y-direction sliding groove 86.
As shown in fig. 3, the X-direction synchronous belt driving mechanism 12 further includes a driving pulley 15, a transmission belt 16, a driven pulley 17, an X-direction slide rail 122, an X-direction moving block 123, an X-direction slide seat 124, and an X-direction slide groove 126; the output shaft of the X-direction grinding driving motor 9 is provided with a driving pulley 15, a driven pulley 17 is arranged above an X-direction sliding frame 125, the driving pulley 15 is in transmission connection with the driven pulley 17 through a transmission belt 16, an X-direction moving block 123 is arranged at a position corresponding to the transmission belt 16 above the X-direction sliding frame 125, the X-direction moving block 123 is fixedly arranged on the X-direction sliding frame 125 through a bolt, the transmission belt 16 passes through the X-direction moving block 123, the transmission belt 16 is in meshed connection with the X-direction moving block 123 through transmission teeth, an X-direction sliding groove 126 is arranged at the middle position of the X-direction mounting seat 121, X-direction sliding rails 122 are arranged at two sides of the X-direction sliding groove 126, an X-direction sliding seat 124 is arranged at a position corresponding to the X-direction sliding rail 122 below the X-direction sliding frame 125, the X-direction sliding frame 125 is in sliding connection with the X-direction mounting seat 121 through the X-direction sliding rail 122, and the X-direction pressing cylinder 11 is positioned in the X-direction sliding groove 126.
Further, the Y-direction grinding drive motor 7 and the X-direction grinding drive motor 9 are electrically connected to the electrical box.
Further, the implementation method of the automatic grinding machine suitable for online grinding of magnetic sheets in the XY direction comprises the following steps:
(1) Conveying products: the magnetic sheet film strip 1 coated by the laminator is conveyed back through the feeding pressure roller 2 and passes through the grinding soft platform 3;
(2) Rolling in the Y direction: when the magnetic sheet film strip 1 passes below the Y-direction synchronous belt driving mechanism 8, the Y-direction grinding driving motor 7 on the Y-direction mounting seat 81 drives the driving pulley 15 to rotate, the driving pulley 15 drives the driven pulley 17 to rotate through the driving belt 16, the Y-direction moving block 83 is fixed on the Y-direction sliding frame 85 through bolts, and the Y-direction moving block 83 is meshed with the driving belt 16 through driving teeth, the Y-direction sliding frame 85 is in sliding connection with the Y-direction mounting seat 81 through the Y-direction sliding rail 82 and the Y-direction sliding seat 84, and two ends of the Y-direction grinding pressing roller 4 are in sliding connection with the Y-direction sliding frame 85 through the guide shaft 6, and the Y-direction grinding pressing roller 4 is connected with the Y-direction sliding frame 85 through the Y-direction lower pressing cylinder 5, so that the Y-direction sliding frame 85 moves downwards under the positive and negative rotation of the Y-direction grinding driving motor 7 and the Y-direction pressing roller 4 presses the magnetic sheet along the Y-direction sliding rail 82 to reciprocate according to the process requirement, and the Y-direction pressing roller 4 lifts the Y-direction pressing sheet back;
(3) Rolling in the X direction: when the magnetic sheet film strip 1 passes under the X-direction synchronous belt driving mechanism 12, the X-direction grinding driving motor 9 on the X-direction mounting seat 121 drives the driving pulley 15 to rotate, the driving pulley 15 drives the driven pulley 17 to rotate through the driving belt 16, the X-direction moving block 123 is fixed on the X-direction sliding frame 125 through bolts, and the X-direction moving block 123 is meshed with the driving belt 16 through driving teeth, the X-direction sliding frame 125 is in sliding connection with the X-direction mounting seat 121 through the X-direction sliding rail 122 and the X-direction sliding seat 124, and the two ends of the X-direction grinding pressing roller 10 are in sliding connection with the X-direction sliding frame 125 through the guide shaft 6, and the X-direction grinding pressing roller 10 is connected with the X-direction sliding frame 125 through the X-direction lower pressing cylinder 11, so that the Y-direction sliding frame 85 moves downwards under the positive and negative rotation of the X-direction grinding driving motor 9 and the X-direction pressing roller 10 presses the magnetic sheet along the Y-direction sliding rail 82 to reciprocate according to the process requirement, and the X-direction pressing roller 10 lifts the X-direction pressing roller 10 back;
(4) Outputting a product: the crushed product slides out through the crushing soft platform 3.
Further, the Y-direction synchronous belt driving mechanism 8 further includes a driving pulley 15, a driving belt 16, a driven pulley 17, a Y-direction slide rail 82, a Y-direction moving block 83, a Y-direction slide seat 84, and a Y-direction slide groove 86; the output shaft of the Y-direction grinding driving motor 7 is provided with a driving pulley 15, a driven pulley 17 is arranged above a Y-direction sliding frame 85, the driving pulley 15 is in transmission connection with the driven pulley 17 through a transmission belt 16, a Y-direction moving block 83 is arranged at a position corresponding to the transmission belt 16 above the Y-direction sliding frame 85, the Y-direction moving block 83 is fixedly arranged on the Y-direction sliding frame 85 through bolts, the transmission belt 16 passes through the Y-direction moving block 83, the transmission belt 16 is in meshed connection with the Y-direction moving block 83 through transmission teeth, a Y-direction sliding groove 86 is arranged at the middle position of the Y-direction mounting seat 81, Y-direction sliding rails 82 are arranged at two sides of the Y-direction sliding groove 86, a Y-direction sliding seat 84 is arranged at a position corresponding to the Y-direction sliding rail 82 below the Y-direction sliding frame 85, the Y-direction sliding frame 85 is in sliding connection with the Y-direction mounting seat 81 through the Y-direction sliding rail 82, and the Y-direction sliding seat 84, and the Y-direction pressing cylinder 5 is positioned inside the Y-direction sliding groove 86; the X-direction synchronous belt driving mechanism 12 further includes a driving pulley 15, a transmission belt 16, a driven pulley 17, an X-direction slide rail 122, an X-direction moving block 123, an X-direction sliding seat 124, and an X-direction sliding groove 126; the output shaft of the X-direction grinding driving motor 9 is provided with a driving pulley 15, a driven pulley 17 is arranged above an X-direction sliding frame 125, the driving pulley 15 is in transmission connection with the driven pulley 17 through a transmission belt 16, an X-direction moving block 123 is arranged at a position corresponding to the transmission belt 16 above the X-direction sliding frame 125, the X-direction moving block 123 is fixedly arranged on the X-direction sliding frame 125 through a bolt, the transmission belt 16 passes through the X-direction moving block 123, the transmission belt 16 is in meshed connection with the X-direction moving block 123 through transmission teeth, an X-direction sliding groove 126 is arranged at the middle position of the X-direction mounting seat 121, X-direction sliding rails 122 are arranged at two sides of the X-direction sliding groove 126, an X-direction sliding seat 124 is arranged at a position corresponding to the X-direction sliding rail 122 below the X-direction sliding frame 125, the X-direction sliding frame 125 is in sliding connection with the X-direction mounting seat 121 through the X-direction sliding rail 122, and the X-direction pressing cylinder 11 is positioned in the X-direction sliding groove 126; the Y-direction grinding drive motor 7 and the X-direction grinding drive motor 9 are electrically connected to the electrical box.
The magnetic sheet is arranged on the magnetic sheet film strip 1 and is conveyed to the grinding soft platform 3 through the feeding pressure roller 2, when the magnetic sheet film strip 1 passes through the lower part of the Y-direction synchronous belt driving mechanism 8, the Y-direction grinding driving motor 7 on the Y-direction installation seat 81 drives the driving pulley 15 to rotate, the driving pulley 15 drives the driven pulley 17 to rotate through the driving belt 16, the Y-direction moving block 83 is fixed on the Y-direction sliding frame 85 through bolts, and the Y-direction moving block 83 is connected with the driving belt 16 through the meshing of the driving teeth, the Y-direction sliding frame 85 is in sliding connection with the Y-direction installation seat 81 through the Y-direction sliding rail 82 and the Y-direction sliding seat 84, two ends of the Y-direction grinding pressing roller 4 are in sliding connection with the Y-direction sliding frame 85 through the guide shaft 6, and the Y-direction grinding pressing roller 4 is connected with the Y-direction sliding frame 85 through the Y-direction lower pressing cylinder 5, so that the Y-direction sliding frame 85 moves downwards under the positive and negative rotation of the Y-direction grinding driving motor 7 and under the action of the Y-direction lower pressing cylinder 5 to press the magnetic sheet along the Y-direction sliding frame 82 to press the Y-direction pressing along the Y-direction sliding frame, and the magnetic sheet is in a reciprocating motion along the Y-direction sliding rail 82 to press the Y-direction pressing cylinder, and the times of pressing the grinding pressing roller 4 is required to move back to the Y-direction pressing roller to press the pressing roller according to the times to the grinding process, and the pressing roller and the pressing machine to the pressing machine and the grinding machine; when the magnetic sheet film strip 1 passes under the X-direction synchronous belt driving mechanism 12, the X-direction grinding driving motor 9 on the X-direction mounting seat 121 drives the driving pulley 15 to rotate, the driving pulley 15 drives the driven pulley 17 to rotate through the driving belt 16, the X-direction moving block 123 is fixed on the X-direction sliding frame 125 through bolts, and the X-direction moving block 123 is meshed with the driving belt 16 through driving teeth, the X-direction sliding frame 125 is in sliding connection with the X-direction mounting seat 121 through the X-direction sliding rail 122 and the X-direction sliding seat 124, and the two ends of the X-direction grinding pressing roller 10 are in sliding connection with the X-direction sliding frame 125 through the guide shaft 6, and the X-direction grinding pressing roller 10 is connected with the X-direction sliding frame 125 through the X-direction lower pressing cylinder 11, so that the Y-direction sliding frame 85 moves downwards under the positive and negative rotation of the X-direction grinding driving motor 9 and the X-direction pressing roller 10 presses the magnetic sheet along the Y-direction sliding rail 82 to reciprocate according to the process requirement, and the X-direction pressing roller 10 lifts the X-direction pressing roller 10 back; the crushed product slides out through the crushing soft platform 3, so that the magnetic sheets are fully crushed and the product is portable to use.
Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (4)

1. An automatic grinding machine suitable for online grinding of magnetic sheet XY direction, its characterized in that: comprises a feeding pressure roller (2), a grinding soft platform (3), a Y-direction synchronous belt driving mechanism (8), an X-direction synchronous belt driving mechanism (12) and a frame (13); the automatic grinding machine comprises a frame (13), wherein an electric box is arranged in the frame (13), a fixed table (14) is arranged on the upper surface of the frame (13), a grinding soft platform (3) is arranged on the upper surface of the fixed table (14), a feeding pressure roller (2) is fixedly arranged on the side edge of the fixed table (14) through bolts, a Y-direction synchronous belt driving mechanism (8) is arranged on one side, close to the feeding pressure roller (2), of the upper side of the fixed table (14), and the Y-direction synchronous belt driving mechanism (8) comprises a Y-direction grinding pressure roller (4), a Y-direction lower pressure cylinder (5), a guide shaft (6), a Y-direction grinding driving motor (7), a Y-direction mounting seat (81) and a Y-direction sliding frame (85); the Y-direction grinding press roller (4) is fixedly arranged on the side edge of the fixed table (14) through bolts, a Y-direction grinding drive motor (7) is arranged on one side edge above the Y-direction mounting seat (81), a Y-direction slide frame (85) is arranged on the other side edge above the Y-direction mounting seat (81), a Y-direction grinding press roller (4) is arranged below the Y-direction slide frame (85), two ends of the Y-direction grinding press roller (4) are in sliding connection with the Y-direction slide frame (85) through guide shafts (6), the Y-direction grinding press roller (4) and the Y-direction slide frame (85) are connected through a Y-direction lower press cylinder (5), the Y-direction lower press cylinder (5) is arranged at the bottom of the Y-direction slide frame (85), an X-direction synchronous belt drive mechanism (12) is arranged on one side of the Y-direction synchronous belt drive mechanism (8) far away from the feeding press roller (2), and the X-direction synchronous belt drive mechanism (12) comprises guide shafts (6), an X-direction grinding drive motor (9), an X-direction lower press roller (10) and an X-direction press cylinder (125) are arranged on the X-direction press cylinder (121); the X-direction mounting seat (121) is fixedly mounted on the side edge of the fixed table (14) through a bolt, an X-direction grinding driving motor (9) is arranged on one side edge above the X-direction mounting seat (121), an X-direction sliding frame (125) is arranged on the other side edge above the X-direction mounting seat (121), an X-direction grinding press roller (10) is arranged below the X-direction sliding frame (125), two ends of the X-direction grinding press roller (10) are in sliding connection with the X-direction sliding frame (125) through a guide shaft (6), the X-direction grinding press roller (10) is connected with the X-direction sliding frame (125) through an X-direction lower press cylinder (11), the X-direction lower press cylinder (11) is mounted at the bottom of the X-direction sliding frame (125), the magnetic sheet film belt (1) is placed above the fixed table (14), and the magnetic sheet film belt (1) is positioned in the middle position of the soft platform (3);
the Y-direction synchronous belt driving mechanism (8) further comprises a driving belt pulley (15), a driving belt (16), a driven belt pulley (17), a Y-direction sliding rail (82), a Y-direction moving block (83), a Y-direction sliding seat (84) and a Y-direction sliding groove (86); the Y-direction grinding driving motor (7) is characterized in that a driving belt pulley (15) is mounted on an output shaft of the Y-direction grinding driving motor (7), a driven belt pulley (17) is arranged above a Y-direction sliding frame (85), the driving belt pulley (15) is in transmission connection with the driven belt pulley (17) through a transmission belt (16), Y-direction sliding blocks (83) are arranged above the Y-direction sliding frame (85) at positions corresponding to the transmission belt (16), the Y-direction sliding blocks (83) are fixedly mounted on the Y-direction sliding frame (85) through bolts, the transmission belt (16) penetrates through the Y-direction sliding blocks (83), the transmission belt (16) is in meshed connection with the Y-direction sliding blocks (83) through transmission teeth, Y-direction sliding grooves (86) are arranged in the middle of the Y-direction mounting seat (81), Y-direction sliding seats (82) are arranged on two sides of the Y-direction sliding grooves (86), Y-direction sliding seats (84) are arranged at positions, corresponding to the Y-direction sliding tracks (82), and the Y-direction sliding frames (85) and the Y-direction sliding seats (84) are arranged in the Y-direction sliding seats (82) through the Y-direction sliding seats (84);
the X-direction synchronous belt driving mechanism (12) further comprises a driving belt pulley (15), a driving belt (16), a driven belt pulley (17), an X-direction sliding rail (122), an X-direction moving block (123), an X-direction sliding seat (124) and an X-direction sliding groove (126); the X-direction grinding drive motor comprises an X-direction grinding drive motor (9), wherein a driving pulley (15) is arranged on an output shaft of the X-direction grinding drive motor (9), a driven pulley (17) is arranged above an X-direction sliding frame (125), the driving pulley (15) is in transmission connection with the driven pulley (17) through a transmission belt (16), an X-direction sliding block (123) is arranged above the X-direction sliding frame (125) at a position corresponding to the transmission belt (16), the X-direction sliding block (123) is fixedly arranged on the X-direction sliding frame (125) through bolts, the transmission belt (16) penetrates through the X-direction sliding block (123), the transmission belt (16) is in meshed connection with the X-direction sliding block (123) through transmission teeth, an X-direction sliding groove (126) is arranged in the middle of the X-direction mounting seat (121), X-direction sliding seats (122) are arranged on two sides of the X-direction sliding groove (126), an X-direction sliding seat (124) is arranged at the position corresponding to the X-direction sliding frame (122), and the X-direction sliding frame (125) is arranged between the X-direction sliding frame (125) and the X-direction sliding seat (122) through the transmission teeth and the X-direction sliding seat (122).
2. An automatic grinding mill suitable for on-line grinding of magnetic flakes in XY directions according to claim 1, characterized in that: the Y-direction grinding driving motor (7) and the X-direction grinding driving motor (9) are electrically connected with the electric box.
3. The method for realizing the automatic grinding machine suitable for the online grinding of the magnetic sheets in the XY direction according to any one of claims 1 to 2, comprising the following steps:
(1) Conveying products: the magnetic sheet film strip (1) coated by the film coating machine is conveyed back through the feeding pressure roller (2) and passes through the grinding soft platform (3);
(2) Rolling in the Y direction: when the magnetic sheet film strip (1) passes through the lower part of the Y-direction synchronous belt driving mechanism (8), the Y-direction grinding driving motor (7) on the Y-direction installation seat (81) drives the driving pulley (15) to rotate, the driving pulley (15) drives the driven pulley (17) to rotate through the driving belt (16), the Y-direction moving block (83) is fixed on the Y-direction sliding frame (85) through bolts, and the Y-direction moving block (83) is connected with the driving belt (16) through the driving teeth, because the Y-direction sliding frame (85) is in sliding connection with the Y-direction installation seat (81) through the Y-direction sliding rail (82) and the Y-direction sliding seat (84), and because the two ends of the Y-direction pressing roller (4) are in sliding connection with the Y-direction sliding frame (85) through the guide shaft (6), and the Y-direction grinding pressing roller (4) is connected with the Y-direction sliding frame (85) through the Y-direction lower pressing cylinder (5), the magnetic sheet is pressed along the Y-direction sliding frame (82) under the positive and negative rotation action of the Y-direction grinding driving motor (7) and the action of the Y-direction lower pressing cylinder (5) to move reciprocally according to the required times, the Y-direction pressing cylinder (5) drives the Y-direction grinding press roller (4) to rise back;
(3) Rolling in the X direction: when the magnetic sheet film strip (1) passes under the X-direction synchronous belt driving mechanism (12), the X-direction grinding driving motor (9) on the X-direction mounting seat (121) drives the driving pulley (15) to rotate, the driving pulley (15) drives the driven pulley (17) to rotate through the transmission belt (16), the X-direction moving block (123) is fixed on the X-direction sliding frame (125) through bolts, and the X-direction moving block (123) is connected with the transmission belt (16) through transmission teeth, because the X-direction sliding frame (125) is in sliding connection with the X-direction mounting seat (121) through the X-direction sliding rail (122) and the X-direction sliding seat (124), and because two ends of the X-direction pressing roller (10) are in sliding connection with the X-direction sliding frame (125) through the guide shaft (6), and the X-direction grinding pressing roller (10) is connected with the X-direction sliding frame (125) through the X-direction lower pressing cylinder (11), the X-direction grinding roller (10) moves along the Y-direction sliding frame (82) under the positive and negative rotation action of the X-direction grinding driving motor (9) under the action of the X-direction lower pressing cylinder (11) to reciprocate along the Y-direction sliding frame (82) to complete the magnetic sheet according to the required times, the X-direction pressing cylinder (11) drives the X-direction grinding press roller (10) to rise back;
(4) Outputting a product: the crushed product slides out through the crushing soft platform (3).
4. The method for realizing the automatic grinding roll suitable for online grinding of magnetic sheets in XY directions according to claim 3, wherein the method comprises the following steps: the Y-direction synchronous belt driving mechanism (8) further comprises a driving belt pulley (15), a driving belt (16), a driven belt pulley (17), a Y-direction sliding rail (82), a Y-direction moving block (83), a Y-direction sliding seat (84) and a Y-direction sliding groove (86); the Y-direction grinding driving motor (7) is characterized in that a driving belt pulley (15) is mounted on an output shaft of the Y-direction grinding driving motor (7), a driven belt pulley (17) is arranged above a Y-direction sliding frame (85), the driving belt pulley (15) is in transmission connection with the driven belt pulley (17) through a transmission belt (16), Y-direction sliding blocks (83) are arranged above the Y-direction sliding frame (85) at positions corresponding to the transmission belt (16), the Y-direction sliding blocks (83) are fixedly mounted on the Y-direction sliding frame (85) through bolts, the transmission belt (16) penetrates through the Y-direction sliding blocks (83), the transmission belt (16) is in meshed connection with the Y-direction sliding blocks (83) through transmission teeth, Y-direction sliding grooves (86) are arranged in the middle of the Y-direction mounting seat (81), Y-direction sliding seats (82) are arranged on two sides of the Y-direction sliding grooves (86), Y-direction sliding seats (84) are arranged at positions, corresponding to the Y-direction sliding tracks (82), and the Y-direction sliding frames (85) and the Y-direction sliding seats (84) are arranged in the Y-direction sliding seats (82) through the Y-direction sliding seats (84); the X-direction synchronous belt driving mechanism (12) further comprises a driving belt pulley (15), a driving belt (16), a driven belt pulley (17), an X-direction sliding rail (122), an X-direction moving block (123), an X-direction sliding seat (124) and an X-direction sliding groove (126); the X-direction grinding driving motor (9) is characterized in that a driving belt pulley (15) is mounted on an output shaft of the X-direction grinding driving motor (9), a driven belt pulley (17) is arranged above an X-direction sliding frame (125), the driving belt pulley (15) is in transmission connection with the driven belt pulley (17) through a transmission belt (16), an X-direction sliding block (123) is arranged above the X-direction sliding frame (125) at a position corresponding to the transmission belt (16), the X-direction sliding block (123) is fixedly mounted on the X-direction sliding frame (125) through bolts, the transmission belt (16) penetrates through the X-direction sliding block (123), the transmission belt (16) is in meshed connection with the X-direction sliding block (123) through transmission teeth, an X-direction sliding groove (126) is formed in the middle position of the X-direction mounting seat (121), X-direction sliding seats (122) are formed in two sides of the X-direction sliding groove (126), an X-direction sliding seat (124) is formed in positions, corresponding to the X-direction sliding rail (122), and the X-direction sliding frame (125) and the X-direction sliding seat (122) are connected with the X-direction sliding seat (122) through transmission teeth, and the X-direction sliding seat (122) are arranged in the direction sliding seat (126); the Y-direction grinding driving motor (7) and the X-direction grinding driving motor (9) are electrically connected with the electric box.
CN201711232172.1A 2017-11-30 2017-11-30 Automatic grinding machine suitable for online grinding of magnetic sheets in XY direction and implementation method thereof Active CN108043512B (en)

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