CN214265063U - Multifunctional magnetic shoe precision copying machining equipment - Google Patents

Abstract

The utility model discloses an accurate contour machining equipment of multi-functional magnetic shoe, including base and elevating platform, still including the centre gripping structure that can conveniently fix, can be to the convenient pushing structure who takes out after the magnetic shoe processing and the rotating-structure that can improve the machining precision, the air pump is installed to the both sides of the inside bottom of base, and the top of air pump installs the telescopic link, the top of telescopic link runs through the base top and installs the elevating platform, and one side on elevating platform top installs the fixed block, the intermediate position department on base top installs the installation cabinet, and the top of base installation cabinet one end installs and collects the cabinet, centre gripping structrual installation is in the inside of installing the cabinet. The utility model discloses an open servo motor, under servo motor's rotation, drive the worm and rotate, can drive half ring gear and come and go the rotation under the rotation of worm, because the reason of half ring gear form, can make the rolling disc carry out reciprocating rotation.

Description

Multifunctional magnetic shoe precision copying machining equipment

Technical Field

The utility model relates to a magnetic shoe contour machining technical field specifically is a multi-functional magnetic shoe precision contour machining equipment.

Background

In the development of modern science and technology, motors are ubiquitous, the life and work of people are greatly improved, magnetic shoes in the motors are indispensable and important for processing and manufacturing the magnetic shoes, and the efficiency and the quality of the magnetic shoes are generally improved by profiling the magnetic shoes in the modern science and technology.

The traditional method has the following defects:

(1) the traditional magnetic shoe profiling machining equipment has low efficiency in machining the magnetic shoe, and the magnetic shoe needs to be moved manually to perform profiling machining, so that the efficiency is low;

(2) when the traditional magnetic shoe profiling machining equipment is used, a better fixing structure is lacked, damage is easy to occur in machining, and the yield is low;

(3) when the traditional magnetic shoe profiling machining equipment is used, a better taking-out structure is lacked, and danger is easy to occur through manual taking-out.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a multi-functional magnetic shoe precision profile modeling equipment to the efficiency that provides is lower, lack good fixed knot structure and lack the problem of better structure of taking out among the solution above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a multifunctional magnetic shoe precision profiling machining device comprises a base, a lifting table, a clamping structure, a pushing structure and a rotating structure, wherein the clamping structure can be conveniently fixed, the pushing structure can be conveniently taken out after a magnetic shoe is machined, and the rotating structure can improve machining precision;

the clamping structure comprises a base, an air pump, a telescopic rod, a lifting table, a fixing block, an installation cabinet, a collection cabinet and a clamping structure, wherein the air pump is arranged on two sides of the bottom end inside the base, the telescopic rod is arranged at the top end of the air pump, the lifting table is arranged at the top end of the telescopic rod, the lifting table penetrates through the top end of the base, the fixing block is arranged on one side of the top end of the lifting table, the installation cabinet is arranged in the middle of the top end of the base, the collection cabinet is arranged at one end of the installation cabinet at the top end of the base, and the clamping structure is arranged inside the installation cabinet;

the top end of the mounting cabinet is provided with a clamping plate, and the pushing structure is arranged above the mounting cabinet;

the top end of the lifting platform is provided with a fixed plate, and the rotating structure is arranged at the top end of the lifting platform;

rotating-structure still includes servo motor, servo motor installs the one side of keeping away from the fixed block on the elevating platform top, and servo motor's output is connected with the worm, the one end of worm is passed through the bearing and is installed in connecting rod one side, the rolling disc is installed through the bearing in the inside of fixed plate, and the below of the inside one end of rolling disc installs driving motor, driving motor's output is connected with the connecting rod, and the one end of connecting rod runs through rolling disc one end and installs the tool bit, the one end that the tool bit was kept away from to the rolling disc is installed half ring gear.

Preferably, the shape of the semi-toothed ring is arc, and the outer side of the semi-toothed ring is provided with sawteeth meshed with the worm.

Preferably, the clamping structure includes threaded rod, movable plate, first rotation pole, thread piece, first connecting block, sleeve and loop bar, the threaded rod passes through the bearing and installs in the inside top of installation cabinet, and the one end of threaded rod runs through installation cabinet one side and is connected with first rotation pole, the outside cover of threaded rod is equipped with the thread piece, and the bottom welding of thread piece has first connecting block, the loop bar is installed to the inside below of installation cabinet, and the outside cover of loop bar is equipped with the sleeve, the movable plate is installed to the installation cabinet top is run through on the top of thread piece.

Preferably, the top end of the sleeve is connected with the first connecting block, the shape of the moving plate is the same as the size of the clamping plate, and the moving plate and the clamping plate are located on the same horizontal line.

Preferably, the pushing structure includes second connecting block, spring block, ejector pad, driven bevel gear, second dwang, initiative bevel gear and dead lever, the dead lever is installed in the inside bottom of installation cabinet, and the outside of dead lever installs driven bevel gear, the top of dead lever runs through the installation cabinet top and installs the second connecting block, and the second connecting block keeps away from one side of rolling disc and installs the spring block, the ejector pad is installed to the one end of spring block, the second dwang is installed through the bearing in the inside one side of installation cabinet, and the outside of second dwang one end installs initiative bevel gear, the other end of second dwang runs through installation cabinet one side.

Preferably, the driving bevel gear is meshed with the driven bevel gear, and one end of the push block is arc-shaped.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) by arranging the rotating disc, the tool bit, the worm, the servo motor and the half-toothed ring, when a worker uses the device, the worker can drive the worm to rotate under the rotation of the servo motor by opening the servo motor, and can drive the half-toothed ring to rotate back and forth under the rotation of the worm;

(2) by arranging the threaded rod, the moving plate, the first rotating rod, the threaded block and the first connecting block, when the magnetic tile is processed, the magnetic tile can be placed at the top end of the installation cabinet, then the threaded rod is driven to rotate together by rotating the first rotating rod, the threaded block is driven to rotate by rotating the threaded rod, the threaded block is connected with the sleeve through the first connecting block, the threaded block is enabled to translate on the outer side of the threaded rod under the limitation of the sleeve, the moving plate is enabled to translate together under the driving of the threaded block, and the magnetic tile is fixedly clamped by the translation of the moving plate and the fixation of the clamping plate, so that the functions of fixing and adjusting the magnetic tile are realized;

(3) through being provided with the second connecting block, the ejector pad, driven conical gear, the second dwang, initiative conical gear and dead lever, after processing, the staff can be through rotating the second dwang, it rotates together to drive initiative conical gear under the rotation of second dwang, it rotates to drive driven conical gear under initiative conical gear's rotation, it rotates together to drive the dead lever under driven conical gear's rotation, so the shell drives the second connecting block and the ejector pad rotates under the rotation of dead lever, can promote the complete magnetic shoe of processing under the rotation of ejector pad and take out, take out the magnetic shoe, the artifical safety threat that arouses of taking out has been avoided, the function of conveniently taking out has been realized through this.

Drawings

FIG. 1 is a schematic front sectional view of the present invention;

FIG. 2 is a schematic side sectional view of the present invention;

fig. 3 is a schematic view of the rotating structure of the present invention;

fig. 4 is an enlarged schematic structural diagram of the position a of the present invention.

In the figure: 1. a base; 2. an air pump; 3. a telescopic rod; 4. a lifting platform; 5. a fixed block; 6. a clamping structure; 601. a threaded rod; 602. moving the plate; 603. a first rotating lever; 604. a thread block; 605. a first connection block; 606. a sleeve; 607. a loop bar; 7. a fixing plate; 8. a splint; 9. rotating the disc; 10. a cutter head; 11. a worm; 12. a servo motor; 13. a half-toothed ring; 14. a drive motor; 15. a connecting rod; 16. a pushing structure; 1601. a second connecting block; 1602. a spring block; 1603. a push block; 1604. a driven bevel gear; 1605. a second rotating lever; 1606. a driving bevel gear; 1607. fixing the rod; 17. a collection cabinet; 18. and (6) installing the cabinet.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1: referring to fig. 1-4, a multifunctional magnetic shoe precision profiling machining device comprises a base 1, a lifting table 4, a clamping structure 6 which can be conveniently fixed, a pushing structure 16 which can be conveniently taken out after the magnetic shoe is machined, and a rotating structure which can improve the machining precision;

the air pump 2 is installed on two sides of the bottom end inside the base 1, the type of the air pump 2 can be AS26, the top end of the air pump 2 is provided with the telescopic rod 3, the top end of the telescopic rod 3 penetrates through the top end of the base 1 to be provided with the lifting table 4, one side of the top end of the lifting table 4 is provided with the fixed block 5, the installation cabinet 18 is installed in the middle position of the top end of the base 1, one end of the installation cabinet 18 at the top end of the base 1 is provided with the collection cabinet 17, and the clamping structure 6 is installed inside the installation cabinet 18;

the top end of the mounting cabinet 18 is provided with a clamping plate 8, and the pushing structure 16 is arranged above the mounting cabinet 18;

the top end of the lifting platform 4 is provided with a fixed plate 7, and the rotating structure is arranged at the top end of the lifting platform 4;

referring to fig. 1-4, the multifunctional magnetic shoe precision profiling machining equipment further comprises a rotating structure, the rotating structure further comprises a servo motor 12, the type of the servo motor 12 can be RDX-101-V36F5E13, the servo motor 12 is installed on one side, far away from the fixed block 5, of the top end of the lifting table 4, the output end of the servo motor 12 is connected with a worm 11, one end of the worm 11 is installed on one side of a connecting rod 15 through a bearing, a rotating disc 9 is installed inside the fixed plate 7 through a bearing, a driving motor 14 is installed below one end inside the rotating disc 9, the type of the driving motor 14 can be 86BL, the output end of the driving motor 14 is connected with the connecting rod 15, one end of the connecting rod 15 penetrates through one end of the rotating disc 9 and is provided with a cutter head 10, and one end, far away from the cutter head 10, of the rotating disc 9 is provided with a half-tooth ring 13;

the half-toothed ring 13 is arc-shaped, and sawteeth meshed with the worm 11 are arranged on the outer side of the half-toothed ring 13;

specifically, as shown in fig. 1, 2 and 3, by turning on the servo motor 12, the worm 11 is driven to rotate under the rotation of the servo motor 12, the half-toothed ring 13 can be driven to rotate back and forth under the rotation of the worm 11, and due to the shape of the half-toothed ring 13, the rotating disc 9 can rotate back and forth, the cutter head 10 can be driven to rotate under the back and forth rotation of the rotating disc 9, and then the cutter head 10 itself can rotate under the driving of the driving motor 14, so that the magnetic shoe can be better polished around the radian of the magnetic shoe;

example 2: the clamping structure 6 comprises a threaded rod 601, a moving plate 602, a first rotating rod 603, a threaded block 604, a first connecting block 605, a sleeve 606 and a loop bar 607, the threaded rod 601 is mounted above the inside of the mounting cabinet 18 through a bearing, one end of the threaded rod 601 penetrates through one side of the mounting cabinet 18 and is connected with the first rotating rod 603, the threaded block 604 is sleeved outside the threaded rod 601, the first connecting block 605 is welded at the bottom end of the threaded block 604, the loop bar 607 is mounted below the inside of the mounting cabinet 18, the sleeve 606 is sleeved outside the loop bar 607, and the moving plate 602 is mounted at the top end of the threaded block 604 penetrating through the top end of the mounting cabinet 18;

the top end of the sleeve 606 is connected with the first connecting block 605, the shape of the moving plate 602 is the same as that of the clamping plate 8, and the moving plate 602 and the clamping plate 8 are located on the same horizontal line;

specifically, as shown in fig. 1, 2 and 4, the magnetic shoe is placed at the top end of the mounting cabinet 18, and then the threaded rod 601 is driven to rotate together by rotating the first rotating rod 603, the threaded block 604 is driven to rotate by rotating the threaded rod 601, because the threaded block 604 is connected with the sleeve 606 through the first connecting block 605, the threaded block 604 is enabled to translate outside the threaded rod 601 under the restriction of the sleeve 606, the moving plate 602 is enabled to translate together under the driving of the threaded block 604, and the magnetic shoe is fixedly clamped by the translation of the moving plate 602 and the fixation of the clamping plate 8;

example 3: the pushing structure 16 comprises a second connecting block 1601, a spring block 1602, a pushing block 1603, a driven bevel gear 1604, a second rotating rod 1605, a driving bevel gear 1606 and a fixing rod 1607, the fixing rod 1607 is installed at the bottom end inside the installation cabinet 18, the driven bevel gear 1604 is installed on the outer side of the fixing rod 1607, the top end of the fixing rod 1607 penetrates through the top end of the installation cabinet 18 to be installed with the second connecting block 1601, the spring block 1602 is installed on one side, away from the rotating disc 9, of the second connecting block 1601, the pushing block 1603 is installed at one end of the spring block 1602, the second rotating rod 1605 is installed on one side inside the installation cabinet 18 through a bearing, the driving bevel gear 1606 is installed on the outer side of one end of the second rotating rod 1605, and the other end of the second rotating rod 1605 penetrates through one side of the installation cabinet 18;

the driving bevel gear 1606 is meshed with the driven bevel gear 1604, and one end of the push block 1603 is arc-shaped;

specifically, as shown in fig. 1 and fig. 4, the worker can rotate the second rotating rod 1605, the driving bevel gear 1606 is driven to rotate together under the rotation of the second rotating rod 1605, the driven bevel gear 1604 is driven to rotate under the rotation of the driving bevel gear 1606, the fixing rod 1607 is driven to rotate together under the rotation of the driven bevel gear 1604, so the housing drives the second connecting block 1601 and the pushing block 1603 to rotate under the rotation of the fixing rod 1607, and the completely processed magnetic shoe can be pushed and taken out under the rotation of the pushing block 1603.

The working principle is as follows: firstly, when working personnel process the magnetic tiles, the magnetic tiles can be placed at the top end of the installation cabinet 18, then the threaded rod 601 is driven to rotate together by rotating the first rotating rod 603, the threaded block 604 is driven to rotate by rotating the threaded rod 601, the threaded block 604 is connected with the sleeve 606 through the first connecting block 605, the threaded block 604 is enabled to translate on the outer side of the threaded rod 601 under the limitation of the sleeve 606, the moving plate 602 is enabled to translate together under the driving of the threaded block 604, and the magnetic tiles are fixedly clamped by the translation of the moving plate 602 and the fixation of the clamping plate 8;

then, a worker drives the cutter head 10 to rotate under the action of the driving motor 14 by starting the driving motor 14, then the cutter head 10 can be driven to rotate under the rotation of the driving motor 14 by starting the servo motor 12, the worm 11 can be driven to rotate under the rotation of the servo motor 12, the half-toothed ring 13 can be driven to rotate back and forth under the rotation of the worm 11, due to the shape of the half-toothed ring 13, the rotating disc 9 can rotate back and forth, the cutter head 10 can be driven to rotate under the back and forth rotation of the rotating disc 9, then the cutter head 10 can also rotate by itself under the driving of the driving motor 14, and then the fixing plate 7 is integrally lifted under the action of the air pump 2 to move the cutter head 10 to a proper position for polishing;

finally after processing, the staff can drive initiative conical gear 1606 to rotate together under the rotation of second dwang 1605 through rotating second dwang 1605, drive driven conical gear 1604 and rotate under the rotation of initiative conical gear 1606, drive dead lever 1607 and rotate together under the rotation of driven conical gear 1604, so the shell drives second connecting block 1601 and ejector pad 1603 through the rotation of dead lever 1607 and rotates, can promote under the rotation of ejector pad 1603 and take out the complete magnetic shoe of processing.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides a multi-functional magnetic shoe precision contour machining equipment, includes base (1) and elevating platform (4), its characterized in that: the magnetic shoe machining device also comprises a clamping structure (6) which can be conveniently fixed, a pushing structure (16) which can be conveniently taken out after the magnetic shoe is machined, and a rotating structure which can improve the machining precision;

the air pump (2) is installed on two sides of the bottom end inside the base (1), the telescopic rod (3) is installed at the top end of the air pump (2), the lifting platform (4) is installed at the top end of the telescopic rod (3) penetrating through the top end of the base (1), the fixed block (5) is installed on one side of the top end of the lifting platform (4), the installation cabinet (18) is installed in the middle position of the top end of the base (1), the collection cabinet (17) is installed at one end of the installation cabinet (18) at the top end of the base (1), and the clamping structure (6) is installed inside the installation cabinet (18);

the top end of the mounting cabinet (18) is provided with a clamping plate (8), and the pushing structure (16) is arranged above the mounting cabinet (18);

a fixed plate (7) is installed at the top end of the lifting platform (4), and the rotating structure is installed at the top end of the lifting platform (4);

rotating-structure still includes servo motor (12), servo motor (12) are installed and are kept away from one side of fixed block (5) on elevating platform (4) top, and the output of servo motor (12) is connected with worm (11), the one end of worm (11) is passed through the bearing and is installed in connecting rod (15) one side, rolling disc (9) are installed through the bearing in the inside of fixed plate (7), and the below of the inside one end of rolling disc (9) installs driving motor (14), the output of driving motor (14) is connected with connecting rod (15), and the one end of connecting rod (15) runs through rolling disc (9) one end and installs tool bit (10), half ring gear (13) are installed to the one end that tool bit (10) were kept away from in rolling disc (9).

2. The multifunctional magnetic shoe precision profiling machining device of claim 1, characterized in that: the shape of the half-toothed ring (13) is arc-shaped, and sawteeth meshed with the worm (11) are arranged on the outer side of the half-toothed ring (13).

3. The multifunctional magnetic shoe precision profiling machining device of claim 1, characterized in that: clamping structure (6) include threaded rod (601), movable plate (602), first rotation pole (603), screw block (604), first connecting block (605), sleeve (606) and loop bar (607), threaded rod (601) pass through the bearing and install in the inside top of installation cabinet (18), and the one end of threaded rod (601) runs through installation cabinet (18) one side and is connected with first rotation pole (603), the outside cover of threaded rod (601) is equipped with screw block (604), and the bottom welding of screw block (604) has first connecting block (605), loop bar (607) is installed to the inside below of installation cabinet (18), and the outside cover of loop bar (607) is equipped with sleeve (606), movable plate (602) are installed on the top of installation cabinet (18) is run through to the top of screw block (604).

4. The multifunctional magnetic shoe precision profiling machining device of claim 3, characterized in that: the top end of the sleeve (606) is connected with the first connecting block (605), the shape of the moving plate (602) is the same as the size of the clamping plate (8), and the moving plate (602) and the clamping plate (8) are located on the same horizontal line.

5. The multifunctional magnetic shoe precision profiling machining device of claim 1, characterized in that: the pushing structure (16) comprises a second connecting block (1601), a spring block (1602), a pushing block (1603), a driven bevel gear (1604), a second rotating rod (1605), a driving bevel gear (1606) and a fixing rod (1607), the fixing rod (1607) is installed at the bottom end inside the installation cabinet (18), and the outer side of the fixed rod (1607) is provided with a driven bevel gear (1604), the top end of the fixed rod (1607) penetrates through the top end of the installation cabinet (18) and is provided with a second connecting block (1601), and one side of the second connecting block (1601) far away from the rotating disc (9) is provided with a spring block (1602), one end of the spring block (1602) is provided with a push block (1603), one side inside the installation cabinet (18) is provided with a second rotating rod (1605) through a bearing, and the outer side of one end of the second rotating rod (1605) is provided with a driving bevel gear (1606), the other end of the second rotating rod (1605) penetrates through one side of the installation cabinet (18).

6. The multifunctional magnetic shoe precision profiling machining device of claim 5, characterized in that: the driving bevel gear (1606) is meshed with the driven bevel gear (1604), and one end of the push block (1603) is arc-shaped.

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