CN113977381B - Manganese zinc material magnetic core production is with high-efficient machine that grinds of multiaxis - Google Patents
Manganese zinc material magnetic core production is with high-efficient machine that grinds of multiaxis Download PDFInfo
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- CN113977381B CN113977381B CN202111251683.4A CN202111251683A CN113977381B CN 113977381 B CN113977381 B CN 113977381B CN 202111251683 A CN202111251683 A CN 202111251683A CN 113977381 B CN113977381 B CN 113977381B
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- WJZHMLNIAZSFDO-UHFFFAOYSA-N manganese zinc Chemical compound [Mn].[Zn] WJZHMLNIAZSFDO-UHFFFAOYSA-N 0.000 title claims abstract description 36
- 239000000463 material Substances 0.000 title claims abstract description 21
- 238000004519 manufacturing process Methods 0.000 title description 7
- 230000003014 reinforcing effect Effects 0.000 claims description 5
- 238000003780 insertion Methods 0.000 claims description 4
- 230000037431 insertion Effects 0.000 claims description 4
- 230000000149 penetrating effect Effects 0.000 claims description 4
- 238000010168 coupling process Methods 0.000 claims 2
- 238000005859 coupling reaction Methods 0.000 claims 2
- 230000000694 effects Effects 0.000 abstract description 4
- 238000005498 polishing Methods 0.000 description 10
- 229910001651 emery Inorganic materials 0.000 description 4
- 239000000969 carrier Substances 0.000 description 2
- 238000010586 diagram Methods 0.000 description 1
- 230000005389 magnetism Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 230000003245 working effect Effects 0.000 description 1
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B24—GRINDING; POLISHING
- B24B—MACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
- B24B9/00—Machines or devices designed for grinding edges or bevels on work or for removing burrs; Accessories therefor
- B24B9/02—Machines or devices designed for grinding edges or bevels on work or for removing burrs; Accessories therefor characterised by a special design with respect to properties of materials specific to articles to be ground
- B24B9/04—Machines or devices designed for grinding edges or bevels on work or for removing burrs; Accessories therefor characterised by a special design with respect to properties of materials specific to articles to be ground of metal, e.g. skate blades
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B24—GRINDING; POLISHING
- B24B—MACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
- B24B23/00—Portable grinding machines, e.g. hand-guided; Accessories therefor
- B24B23/02—Portable grinding machines, e.g. hand-guided; Accessories therefor with rotating grinding tools; Accessories therefor
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B24—GRINDING; POLISHING
- B24B—MACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
- B24B41/00—Component parts such as frames, beds, carriages, headstocks
- B24B41/06—Work supports, e.g. adjustable steadies
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B24—GRINDING; POLISHING
- B24B—MACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
- B24B47/00—Drives or gearings; Equipment therefor
- B24B47/10—Drives or gearings; Equipment therefor for rotating or reciprocating working-spindles carrying grinding wheels or workpieces
- B24B47/12—Drives or gearings; Equipment therefor for rotating or reciprocating working-spindles carrying grinding wheels or workpieces by mechanical gearing or electric power
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Finish Polishing, Edge Sharpening, And Grinding By Specific Grinding Devices (AREA)
Abstract
The invention discloses a multi-axis high-efficiency grinding machine for producing a manganese-zinc material magnetic core, which comprises an operation table, wherein a grinding structure and a supporting and bearing structure are arranged on the operation table; the abrasive structure includes: the grinding wheel grinding machine comprises a servo motor, a first grinding wheel and a first inclined gear; the support frame is fixed on the operating table, a first circular through hole is formed in the upper wall surface of the support frame, the servo motor is inserted into the first circular through hole, a first connecting rod is installed on the driving end of the servo motor, and the first inclined gear is installed on the first connecting rod. The magnetic core grinding machine has the advantages that the manganese-zinc material magnetic core is conveniently ground through the grinding structure, manual operation is not needed, the working efficiency is improved, the manganese-zinc material magnetic core is conveniently supported and placed during magnetic grinding through the supporting and bearing structure, the grinding position is conveniently increased through the auxiliary grinding structure, and the grinding effect is improved.
Description
Technical Field
The invention relates to the field of manganese-zinc material magnetic core production, in particular to a multi-axis high-efficiency grinding machine for manganese-zinc material magnetic core production.
Background
When manganese-zinc material magnetic core production, the corner often has deckle edge, receives the hindrance when leading to using, so when manganese-zinc material magnetic core production, need carry out reasonable polishing, when traditional manganese-zinc material magnetic core production was polished, manual operation was adopted to the majority, when leading to polishing, needed a large amount of manpowers to manual operation work efficiency is low, can't satisfy work efficiency.
Disclosure of Invention
The invention aims to solve the problems and designs a multi-axis high-efficiency grinding machine for producing a manganese-zinc material magnetic core.
The technical scheme of the invention is that the multi-axis high-efficiency grinding machine for producing the manganese-zinc material magnetic core comprises an operation table, wherein a grinding structure and a supporting and bearing structure are arranged on the operation table;
the abrasive structure includes: the grinding device comprises a servo motor, a first grinding wheel and a first inclined gear;
a support frame is fixed on the operating table, a first circular through hole is formed in the upper wall surface of the support frame, a servo motor is inserted into the first circular through hole, a first connecting rod is installed on the driving end of the servo motor, a first inclined gear is installed on the first connecting rod, first supports are fixed on the upper wall surface of the operating table and positioned on the left side and the right side of the support frame, a second circular through hole is formed in each first support, a first guide rod is inserted into each second circular through hole, a first disc is fixed at one end of each first guide rod, a plurality of first jacks are formed in each first disc, a second support is fixed on the upper wall surface of the operating table and positioned at the edge of each first disc, an arc-shaped frame is fixed at the upper end of each second support, a plurality of idler wheels are installed on the arc-shaped frame, and a connecting cylinder is placed on each arc-shaped frame, and a second disc corresponding to the first disc is fixed on each connecting cylinder, a first inserted rod penetrating through the first insertion hole is installed on each second disc, a second guide rod is fixed at one end of each connecting cylinder, a second inclined gear matched with the first inclined gear is installed on each second guide rod, the first grinding wheel is arranged on the first guide rod, and an auxiliary grinding structure is arranged on the operating platform.
The support and load bearing structure comprises: the device comprises a support upright post, a sleeve, a bearing frame and a baffle plate;
the support columns are arranged on the upper wall surface of the operating platform and are close to four corners, the sleeves are sleeved on each support column, a bearing frame is fixed on each pair of sleeves corresponding to the support columns in position, a strip-shaped through hole is formed in the upper wall surface of the bearing frame, third guide rods are fixed on two sides of the bearing frame, a sliding frame is sleeved on each third guide rod, the baffle is arranged on the sliding frame, a rectangular notch is formed in the baffle, and reinforcing ribs in lap joint with the support columns are installed on the operating platform.
The auxiliary polishing structure includes: the second grinding wheel, the third disc and the second inserted link;
the grinding wheel grinding machine is characterized in that a door-shaped frame stretching across the support frame is fixed on the operating table, a second circular through hole is formed in the door-shaped frame, a fourth guide rod is inserted into the second circular through hole, a third disc is fixed on the lower wall surface of the fourth guide rod, a fourth disc matched with the third disc is fixed on the first connecting rod, a second jack is formed in the fourth disc, a second inserted rod matched with the second jack is formed in the third disc, and the second grinding wheel is arranged on the fourth guide rod.
And a bearing is inserted at the joint of the first guide rod and the first circular through hole.
Support columns are fixed on the lower wall surface of the operating platform and close to four corners, and a base plate is lapped on the lower wall surface of each support column.
The first disc is fixedly provided with a first annular frame wrapping a part of the first inserting rod, the first annular frame is provided with a first threaded hole, the first inserting rod is provided with a first threaded groove matched with the first threaded hole, and a first screw lapped with the first threaded groove is inserted in the first threaded hole.
The sliding frame is provided with a second threaded opening, the third guide rod is provided with a second threaded groove matched with the second threaded opening, and a second screw lapped with the second threaded groove is inserted into the second threaded opening.
The sleeve is provided with a third threaded hole, the support upright post is provided with a third threaded groove matched with the third threaded hole, and a third screw lapped with the third threaded groove is inserted in the third threaded hole.
The door-shaped frame is provided with a second annular frame wrapping a part of the fourth guide rod, the second annular frame is provided with a fourth threaded opening, the fourth guide rod is provided with a fourth threaded groove matched with the fourth threaded opening, and a fourth screw lapped with the fourth threaded groove is inserted in the fourth threaded opening.
A third annular frame wrapping a part of the second inserted link is fixed on the fourth disc, a fifth threaded hole is formed in the third annular frame, a fifth threaded groove matched with the fifth threaded hole is formed in the second inserted link, and a fifth screw lapped with the fifth threaded groove is inserted in the fifth threaded hole.
The multi-axis high-efficiency grinding machine for producing the manganese-zinc material magnetic core, which is manufactured by the technical scheme of the invention, is convenient for grinding the manganese-zinc material magnetic core through the grinding structure without manual operation, improves the working efficiency, is convenient for bearing and placing the manganese-zinc material during magnetic grinding through the supporting and bearing structure, is convenient for increasing the grinding position through the auxiliary grinding structure, and improves the grinding effect.
Drawings
FIG. 1 is a schematic structural diagram of a multi-axis high-efficiency grinding machine for producing a manganese-zinc magnetic core according to the invention;
FIG. 2 is a front view of a grinding structure of the multi-axis high-efficiency grinding machine for producing a manganese-zinc magnetic core;
FIG. 3 is a side view of a supporting and bearing structure of the multi-axis high-efficiency grinding machine for producing manganese-zinc magnetic cores, which is disclosed by the invention;
FIG. 4 is a side view of a door type frame of a multi-axis high-efficiency grinding machine for producing a manganese-zinc magnetic core according to the invention;
FIG. 5 is a top view of a bearing frame of the multi-axis high-efficiency grinding machine for producing manganese-zinc magnetic cores, which is disclosed by the invention;
FIG. 6 is a front view of a second disc of the multi-axis high-efficiency grinding machine for producing a manganese-zinc magnetic core according to the invention;
FIG. 7 is a side view of an arc-shaped frame of a multi-axis high-efficiency grinding machine for producing manganese-zinc magnetic cores, which is disclosed by the invention;
in the figure, 1, an operation table; 2. a servo motor; 3. a first grinding wheel; 4. a first tilt gear; 5. a support frame; 6. a first connecting rod; 7. a first bracket; 8. a first guide bar; 9. a first disc; 10. a second bracket; 11. an arc-shaped frame; 12. a roller; 13. a connecting cylinder; 14. a second disc; 15. a first plunger; 16. a second guide bar; 17. a second tilt gear; 18. supporting the upright post; 19. a sleeve; 20. a carrier; 21. a baffle plate; 22. a third guide bar; 23. a carriage; 24. reinforcing ribs; 25. a second grinding wheel; 26. a third disc; 27. a second plunger; 28. a fourth guide bar; 29. a fourth disc; 30. a bearing; 31. support columns, 32, a backing plate; 33. a first annular frame; 34. a first screw; 35. a second screw; 36. a third screw; 37. a second annular frame; 38. a fourth screw; 39. a third annular frame; 40. a fifth screw; 41. a door-shaped frame.
Detailed Description
The invention is described in detail with reference to the accompanying drawings, and as shown in fig. 1-7, a multi-axis high-efficiency grinding machine for producing manganese-zinc magnetic cores comprises an operation table 1, wherein a grinding structure and a supporting and bearing structure are arranged on the operation table 1; the grinding structure includes: a servo motor 2, a first grinding wheel 3 and a first bevel gear 4; a supporting frame 5 is fixed on an operating platform 1, a first circular through hole is formed in the upper wall surface of the supporting frame 5, a servo motor 2 is inserted into the first circular through hole, a first connecting rod 6 is installed on the driving end of the servo motor 2, a first inclined gear 4 is installed on the first connecting rod 6, first supports 7 are fixed on the upper wall surface of the operating platform 1 and positioned on the left side and the right side of the supporting frame 5, second circular through holes are formed in the first supports 7, first guide rods 8 are inserted into the second circular through holes, a first disc 9 is fixed at one end of each first guide rod 8, a plurality of first jacks are formed in the first disc 9, a second support 10 is fixed on the upper wall surface of the operating platform 1 and positioned at the edge of each first disc 9, an arc-shaped frame 11 is fixed at the upper end of the second support 10, a plurality of rollers 12 are installed on the arc-shaped frame 11, a connecting cylinder 13 is placed on each arc-shaped frame 11, and a second disc 14 corresponding to the position of the first disc 9 is fixed on each connecting cylinder 13, a first inserted link 15 penetrating through the first jack is arranged on the second disc 14, a second guide rod 16 is fixed at one end of the connecting cylinder 13, a second inclined gear 17 matched with the first inclined gear 4 is arranged on each second guide rod 16, the first grinding wheel 3 is arranged on the first guide rod 8, and an auxiliary grinding structure is arranged on the operating platform 1; the support and load bearing structure comprises: support uprights 18, sleeves 19, carriers 20 and flaps 21; the supporting columns 18 are arranged on the upper wall surface of the operating platform 1 and are close to four corners, the sleeves 19 are sleeved on each supporting column 18, a bearing frame 20 is fixed on a pair of sleeves 19 corresponding to each other, a strip-shaped through hole is formed in the upper wall surface of the bearing frame 20, third guide rods 22 are fixed on two sides of the bearing frame 20, a sliding frame 23 is sleeved on each third guide rod 22, the baffle plate 21 is arranged on the sliding frame 23, a rectangular notch is formed in the baffle plate 21, and reinforcing ribs 24 in lap joint with the supporting columns 18 are arranged on the operating platform 1; supplementary structure of polishing includes: a second grinding wheel 25, a third disc 26 and a second insert rod 27; a door-shaped frame 41 crossing the support frame 5 is fixed on the operating platform 1, a second circular through hole is formed in the door-shaped frame 41, a fourth guide rod 28 is inserted into the second circular through hole, a third circular disc 26 is fixed on the lower wall surface of the fourth guide rod 28, a fourth circular disc 29 matched with the third circular disc 26 is fixed on the first connecting rod 6, a second jack is formed in the fourth circular disc 29, a second inserting rod 27 matched with the second jack is formed in the third circular disc 26, and a second grinding wheel 25 is arranged on the fourth guide rod 28; a bearing 30 is inserted at the joint of the first guide rod 8 and the first circular through hole; the lower wall surface of the operation table 1 and the positions close to the four corners are respectively fixed with a support column 31, and the lower wall surface of each support column 31 is lapped with a base plate 32; a first annular frame 33 wrapping a part of the first inserting rod 15 is fixed on the first disc 9, a first threaded hole is formed in the first annular frame 33, a first threaded groove matched with the first threaded hole is formed in the first inserting rod 15, and a first screw 34 overlapped with the first threaded groove is inserted in the first threaded hole; a second threaded hole is formed in the sliding frame 23, a second threaded groove matched with the second threaded hole is formed in the third guide rod 22, and a second screw 35 lapped with the second threaded groove is inserted into the second threaded hole; a third threaded hole is formed in the sleeve 19, a third threaded groove matched with the third threaded hole is formed in the support upright post 18, and a third screw 36 lapped with the third threaded groove is inserted into the third threaded hole; a second annular frame 37 wrapping a part of the fourth guide rod 28 is mounted on the door-shaped frame 41, a fourth threaded hole is formed in the second annular frame 37, a fourth threaded groove matched with the fourth threaded hole is formed in the fourth guide rod 28, and a fourth screw 38 lapped with the fourth threaded groove is inserted in the fourth threaded hole; a third annular frame 39 wrapping a part of the second inserting rod 27 is fixed on the fourth disc 29, a fifth threaded hole is formed in the third annular frame 39, a fifth threaded groove matched with the fifth threaded hole is formed in the second inserting rod 27, and a fifth screw 40 overlapped with the fifth threaded groove is inserted in the fifth threaded hole.
The embodiment is characterized by comprising an operating platform 1, wherein a grinding structure and a supporting and bearing structure are arranged on the operating platform 1;
the grinding structure includes: a servo motor 2, a first grinding wheel 3 and a first bevel gear 4;
a supporting frame 5 is fixed on an operating platform 1, a first circular through hole is formed in the upper wall surface of the supporting frame 5, a servo motor 2 is inserted into the first circular through hole, a first connecting rod 6 is installed on the driving end of the servo motor 2, a first inclined gear 4 is installed on the first connecting rod 6, first supports 7 are fixed on the upper wall surface of the operating platform 1 and positioned on the left side and the right side of the supporting frame 5, second circular through holes are formed in the first supports 7, first guide rods 8 are inserted into the second circular through holes, a first disc 9 is fixed at one end of each first guide rod 8, a plurality of first jacks are formed in the first disc 9, a second support 10 is fixed on the upper wall surface of the operating platform 1 and positioned at the edge of each first disc 9, an arc-shaped frame 11 is fixed at the upper end of the second support 10, a plurality of rollers 12 are installed on the arc-shaped frame 11, a connecting cylinder 13 is placed on each arc-shaped frame 11, and a second disc 14 corresponding to the position of the first disc 9 is fixed on each connecting cylinder 13, install on the second disc 14 and run through first inserted bar 15 in the first jack, connecting cylinder 13 one end is fixed with second guide arm 16, all install on every second guide arm 16 with 4 assorted second bevel gears 17 of first bevel gear, first emery wheel 3 settles on first guide arm 8, be equipped with supplementary structure of polishing on operation panel 1, through grinding the structure, the manganese zinc material magnetic core of being convenient for grinds, need not artifical manual operation, and the work efficiency is improved, and bear when being convenient for manganese zinc material magnetism to polish through supporting bearing structure and place, through supplementary structure of polishing, be convenient for increase the position of polishing, the effect of polishing is improved.
In the embodiment, the polishing device comprises an operating platform 1, wherein a grinding structure and a supporting and bearing structure are arranged on the operating platform 1;
the grinding structure includes: a servo motor 2, a first grinding wheel 3 and a first bevel gear 4;
a supporting frame 5 is fixed on an operating platform 1, a first circular through hole is formed in the upper wall surface of the supporting frame 5, a servo motor 2 is inserted into the first circular through hole, a first connecting rod 6 is installed on the driving end of the servo motor 2, a first inclined gear 4 is installed on the first connecting rod 6, first supports 7 are fixed on the upper wall surface of the operating platform 1 and positioned on the left side and the right side of the supporting frame 5, second circular through holes are formed in the first supports 7, first guide rods 8 are inserted into the second circular through holes, a first disc 9 is fixed at one end of each first guide rod 8, a plurality of first jacks are formed in the first disc 9, a second support 10 is fixed on the upper wall surface of the operating platform 1 and positioned at the edge of each first disc 9, an arc-shaped frame 11 is fixed at the upper end of the second support 10, a plurality of rollers 12 are installed on the arc-shaped frame 11, a connecting cylinder 13 is placed on each arc-shaped frame 11, and a second disc 14 corresponding to the position of the first disc 9 is fixed on each connecting cylinder 13, a first inserted link 15 penetrating through the first jack is arranged on the second disc 14, a second guide rod 16 is fixed at one end of the connecting cylinder 13, a second inclined gear 17 matched with the first inclined gear 4 is arranged on each second guide rod 16, the first grinding wheel 3 is arranged on the first guide rod 8, and an auxiliary grinding structure is arranged on the operating platform 1;
it should be noted that:
the operating table 1 plays a supporting role for supporting the support frame 5, a first connecting rod 6 is installed at the driving end of a servo motor 2 on the support frame 5 and sleeved with a first inclined gear 4, a second guide rod 16 is installed with a second inclined gear 17 matched with the first inclined gear 4, the first inclined gear 4 is overlapped with the second inclined gear 17, so that when the first inclined gear 4 rotates, the second inclined gear 17 can be driven to rotate, the second inclined gear 17 is supported by a second guide rod 16, so that when the second inclined gear 17 rotates, the second guide rod 16 rotates, a connecting cylinder 13 on the second guide rod 16 is connected with the first disc 9 through a first inserting rod 15 on the second disc 14, so that the first disc 9 can also be rotated by the rotating force, thereby driving the first guide rod 8 to rotate to achieve the rotation of the first grinding wheel 3, and the manganese-zinc material can be conveniently ground through the first grinding wheel 3, because first emery wheel 3 is about two, so when two second bevel gears 17 and first bevel gear 4 overlap joint, can let two first emery wheels 3 simultaneous workings, if need use one, then can stimulate first inserted bar 15, first inserted bar 15 inserts the first jack on first disc 9, so can stimulate the adjustment, can let second bevel gear 17 keep away from first bevel gear 4, then can use arbitrary one first emery wheel 3 alone, gyro wheel 12 on the arc frame 11 on the second support 10 overlaps with connecting cylinder 13 wall, when connecting cylinder 13 rotates, gyro wheel 12 also can rotate, can not use at connecting cylinder 13, and to the reasonable support of connecting cylinder 13, arc frame 11 reaches the support effect.
The support and load bearing structure comprises: support uprights 18, sleeves 19, carriers 20 and flaps 21;
the supporting columns 18 are arranged on the upper wall surface of the operating platform 1 and are close to four corners, the sleeves 19 are sleeved on each supporting column 18, a bearing frame 20 is fixed on a pair of sleeves 19 corresponding to each other, a strip-shaped through hole is formed in the upper wall surface of the bearing frame 20, third guide rods 22 are fixed on two sides of the bearing frame 20, a sliding frame 23 is sleeved on each third guide rod 22, the baffle plate 21 is arranged on the sliding frame 23, a rectangular notch is formed in the baffle plate 21, and reinforcing ribs 24 in lap joint with the supporting columns 18 are arranged on the operating platform 1;
it should be noted that: the support column 18 plays a supporting role for supporting the sleeve 19, and the sleeve 19 can be adjusted up and down on the support column 18, so that the use height of the bearing frame 20 can be adjusted, the strip-shaped through hole in the bearing frame 20 is convenient for the first grinding wheel 3 to stretch out for use, the adjustment height of the bearing frame 20 can be adjusted, so that the stretching-out amount of the first grinding wheel 3 can be adjusted, the sliding frame 23 on the third guide rod 22 can be moved, the position of the baffle plate 21 can be adjusted, and the position of the strip-shaped through hole which is left is convenient to shelter through the baffle plate 21.
Supplementary structure of polishing includes: a second grinding wheel 25, a third disc 26 and a second insert rod 27;
a door-shaped frame 41 crossing the support frame 5 is fixed on the operating platform 1, a second circular through hole is formed in the door-shaped frame 41, a fourth guide rod 28 is inserted into the second circular through hole, a third circular disc 26 is fixed on the lower wall surface of the fourth guide rod 28, a fourth circular disc 29 matched with the third circular disc 26 is fixed on the first connecting rod 6, a second jack is formed in the fourth circular disc 29, a second inserting rod 27 matched with the second jack is formed in the third circular disc 26, and a second grinding wheel 25 is arranged on the fourth guide rod 28;
it should be noted that: the second inserted bar 27 on the third disc 26 on the fourth guide bar 28 is inserted into the fourth disc 29 on the first connection bar 6, when the first connection bar 6 rotates, the fourth guide bar 28 is driven to rotate, the fourth guide bar 28 is provided with the second grinding wheel 25, so that the second grinding wheel 25 rotates, the manganese-zinc magnetic core can be conveniently ground, and if the second grinding wheel 25 is not suitable, the second inserted bar 27 and the fourth disc 29 can be separated.
As a preferred technical solution, further, a bearing 30 is inserted at the connection position of the first guide rod 8 and the first circular through hole.
As a preferred technical solution, furthermore, support columns 31 are fixed on the lower wall surface of the operation table 1 and close to the four corners, and a pad 32 is lapped on the lower wall surface of each support column 31; through support column 31, be convenient for this device reasonable removal.
As a preferable technical solution, further, a first annular frame 33 wrapping a part of the first inserting rod 15 is fixed on the first disc 9, a first threaded hole is formed on the first annular frame 33, a first threaded groove matched with the first threaded hole is formed on the first inserting rod 15, and a first screw 34 overlapping with the first threaded groove is inserted in the first threaded hole; the first screw 34 is screwed, so that the first inserting rod 15 is fixed conveniently, and the first grinding wheel 3 is convenient to use.
As a preferable technical scheme, further, a second threaded hole is formed in the carriage 23, a second threaded groove matched with the second threaded hole is formed in the third guide rod 22, and a second screw 35 lapped with the second threaded groove is inserted into the second threaded hole; by screwing the second screw 35, the carriage 23 and therefore the shutter 21 are fixed.
As a preferable technical scheme, furthermore, a third threaded hole is formed in the sleeve 19, a third threaded groove matched with the third threaded hole is formed in the support column 18, and a third screw 36 lapped with the third threaded groove is inserted into the third threaded hole; the sleeve 19 and thus the carrier 20 can be fixed in height by screwing the third screw 36.
As a preferable technical solution, further, a second annular frame 37 wrapping a part of the fourth guide rod 28 is installed on the door-shaped frame 41, a fourth threaded hole is opened on the second annular frame 37, a fourth threaded groove matched with the fourth threaded hole is opened on the fourth guide rod 28, and a fourth screw 38 overlapping with the fourth threaded groove is inserted in the fourth threaded hole; the fourth guide bar 28 is fixed by the fourth screw 38, and the fourth guide bar 28 is fixed and supported after the second insert rod 27 is separated from the fourth disc 29 when the second grinding wheel 25 is not in use.
As a preferable technical solution, further, a third annular frame 39 wrapping a part of the second inserting rod 27 is fixed on the fourth disc 29, a fifth threaded hole is formed on the third annular frame 39, a fifth threaded groove matched with the fifth threaded hole is formed on the second inserting rod 27, and a fifth screw 40 overlapping with the fifth threaded groove is inserted into the fifth threaded hole; the fifth screw 40 is screwed, so that the second insert rod 27 is conveniently fixed, and the second grinding wheel 25 is conveniently used.
The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications made to some parts by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.
Claims (9)
1. The multi-axis high-efficiency grinding machine for producing the manganese-zinc material magnetic core comprises an operation table (1), and is characterized in that a grinding structure and a supporting and bearing structure are arranged on the operation table (1);
the abrasive structure includes: a servo motor (2), a first grinding wheel (3) and a first bevel gear (4);
a support frame (5) is fixed on the operating platform (1), a first circular through hole is formed in the upper wall surface of the support frame (5), the servo motor (2) is inserted into the first circular through hole, a first connecting rod (6) is installed at the driving end of the servo motor (2), the first inclined gear (4) is arranged on the first connecting rod (6), first supports (7) are fixed on the upper wall surface of the operating platform (1) and positioned on the left side and the right side of the support frame (5), second circular through holes are formed in the first supports (7), first guide rods (8) are inserted into the second circular through holes, a first disc (9) is fixed at one end of each first guide rod (8), a plurality of first insertion holes are formed in the first disc (9), a second support (10) is fixed on the upper wall surface of the operating platform (1) and positioned on the edge of each first disc (9), an arc-shaped frame (11) is fixed at the upper end of the second support (10), a plurality of rollers (12) are mounted on the arc-shaped frame (11), a connecting cylinder (13) is placed on each roller (12) on the arc-shaped frame (11), a second disc (14) corresponding to the first disc (9) in position is fixed on each connecting cylinder (13), a first inserting rod (15) penetrating through a first inserting hole is mounted on each second disc (14), a second guide rod (16) is fixed at one end of each connecting cylinder (13), a second inclined gear (17) matched with the first inclined gear (4) is mounted on each second guide rod (16), the first grinding wheel (3) is mounted on the first guide rod (8), and an auxiliary grinding structure is arranged on the operating table (1);
the support and load bearing structure comprises: a support column (18), a sleeve (19), a carrier (20) and a baffle (21);
the supporting columns (18) are arranged on the upper wall surface of the operating platform (1) and are close to four corners, the sleeves (19) are sleeved on each supporting column (18), a bearing frame (20) is fixed on the sleeves (19) corresponding to each other in a pair of positions, a strip-shaped through hole is formed in the upper wall surface of each bearing frame (20), third guide rods (22) are fixed on two sides of each bearing frame (20), a sliding frame (23) is sleeved on each third guide rod (22), the baffle plate (21) is arranged on each sliding frame (23), rectangular grooves are formed in the baffle plate (21), and reinforcing ribs (24) which are overlapped with the supporting columns (18) are arranged on the operating platform (1).
2. The multi-axis high-efficiency grinding machine for producing the manganese-zinc magnetic core as claimed in claim 1, wherein the auxiliary grinding structure comprises: a second grinding wheel (25), a third disc (26) and a second insert rod (27);
a door-shaped frame (41) stretching across the support frame (5) is fixed on the operating platform (1), a second circular through hole is formed in the door-shaped frame (41), a fourth guide rod (28) is inserted into the second circular through hole, a third disc (26) is fixed on the lower wall surface of the fourth guide rod (28), a fourth disc (29) matched with the third disc (26) is fixed on the first connecting rod (6), a second inserting hole is formed in the fourth disc (29), a second inserting rod (27) matched with the second inserting hole is formed in the third disc (26), and the second grinding wheel (25) is arranged on the fourth guide rod (28).
3. A multi-axis high-efficiency grinding machine for producing manganese-zinc magnetic cores as claimed in claim 1, wherein the bearing (30) is inserted at the connection part of the first guide rod (8) and the first circular through hole.
4. A multi-axis high-efficiency grinding machine for producing manganese-zinc material magnetic cores as claimed in claim 1, wherein supporting columns (31) are fixed on the lower wall surface of the operating platform (1) and close to four corners, and base plates (32) are lapped on the lower wall surface of each supporting column (31).
5. A multi-coupling high-efficiency grinding machine for producing a manganese-zinc magnetic core, as recited in claim 1, wherein the first disc (9) is fixed with a first annular frame (33) wrapping a part of the first insertion rod (15), the first annular frame (33) is provided with a first threaded opening, the first insertion rod (15) is provided with a first threaded groove matching the first threaded opening, and the first threaded opening is internally provided with a first screw (34) overlapping the first threaded groove.
6. The multi-axis high-efficiency grinding machine for producing the manganese-zinc material magnetic core is characterized in that a second threaded opening is formed in the sliding frame (23), a second threaded groove matched with the second threaded opening is formed in the third guide rod (22), and a second screw (35) lapped with the second threaded groove is inserted into the second threaded opening.
7. A multi-axis high-efficiency grinding machine for producing a manganese-zinc magnetic core, as recited in claim 1, wherein the sleeve (19) is provided with a third threaded opening, the support column (18) is provided with a third threaded groove matching with the third threaded opening, and a third screw (36) overlapping with the third threaded groove is inserted into the third threaded opening.
8. A multi-axis high-efficiency grinding machine for producing manganese-zinc magnetic cores according to claim 2, wherein a second annular frame (37) wrapping a part of a fourth guide rod (28) is mounted on the gate-shaped frame (41), a fourth threaded hole is formed in the second annular frame (37), a fourth threaded groove matched with the fourth threaded hole is formed in the fourth guide rod (28), and a fourth screw (38) overlapped with the fourth threaded groove is inserted in the fourth threaded hole.
9. A multi-coupling high-efficiency grinding machine for producing a manganese-zinc magnetic core, as claimed in claim 2, wherein a third annular frame (39) wrapping a part of the second inserted link (27) is fixed on the fourth disk (29), a fifth threaded hole is formed in the third annular frame (39), a fifth threaded groove matched with the fifth threaded hole is formed in the second inserted link (27), and a fifth screw (40) overlapping with the fifth threaded groove is inserted into the fifth threaded hole.
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| CN202111251683.4A CN113977381B (en) | 2021-10-26 | 2021-10-26 | Manganese zinc material magnetic core production is with high-efficient machine that grinds of multiaxis |
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| CN113977381B true CN113977381B (en) | 2022-09-30 |
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| CN213971640U (en) * | 2020-09-17 | 2021-08-17 | 吉林省广盛工艺品有限公司 | Automatic feeding and cutting device for craft wood boards |
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| US4330962A (en) * | 1977-11-22 | 1982-05-25 | Constructions De Clichy | Assembly of grinding-wheels of grinding machines |
| CN209503738U (en) * | 2018-12-28 | 2019-10-18 | 广东大王椰电器有限公司 | A kind of pot of electric pressure pot cover production Omnidirectional rotation burnishing device |
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