Be used for super finish machining device of hexagon socket head linear bearing
Technical Field
The utility model relates to a linear bearing technical field specifically is a be used for super finishing device of hexagon socket head linear bearing.
Background
The bearing is an important part in modern mechanical equipment, has the main functions of supporting a mechanical rotating body, reducing the friction coefficient in the motion process and ensuring the rotation precision of the mechanical rotating body, is a fixing part commonly used in engineering machinery, has various types on the market and wide application, has increasingly large requirements and higher requirements on the bearing along with the rapid development of social economy in the market, comprises an inner ring, an outer ring and a ball arranged between the inner ring and the outer ring, is a linear motion system, is used for matching a wireless stroke with a cylindrical shaft, has small friction and is more stable, does not change along with the speed of the bearing, and can obtain stable linear motion with high sensitivity and high precision, and comprises a straight cylindrical linear bearing, a flange linear bearing, a box type linear bearing, a linear shaft with a clamping handle, an inner hexagonal linear bearing and the like, the outer part of the bearing needs to be polished in the processing process, so that the appearance and the hand feeling of the bearing are improved.
However, the existing processing device has the disadvantages of high cost, large occupied area, complex operation and low processing precision; therefore, the existing requirements are not met, and an ultra-finishing device for the inner hexagonal linear bearing is provided for the requirement.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a be used for super finish machining device of hexagon socket head cap linear bearing to current processingequipment cost that proposes among the above-mentioned background is higher and area is big, and the operation is complicated, and the lower problem of machining precision.
In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a be used for super finishing device of hexagon socket head linear bearing, includes the support frame, the fixed plate is installed to the inside one side of support frame, the amesdial is installed to the front end of fixed plate, steady voltage portable power source is installed to the below of amesdial, the under casing is installed to one side of steady voltage portable power source.
Preferably, the internally mounted of under casing has the motor, the electromagnetism piece is installed to the upper end of under casing, install first bearing between electromagnetism piece and the under casing, and the one end of electromagnetism piece passes through the coupling joint with the motor.
Preferably, a first sleeve is installed on the top end inside the support frame, a first sleeve rod is installed at the lower end of the first sleeve, the first sleeve rod is embedded into the first sleeve, and a first fixing pin is installed between the first sleeve rod and the first sleeve.
Preferably, the internally mounted of first loop bar has the rotary rod, the magnetic adsorption piece is installed to the lower extreme of rotary rod, install the second bearing between rotary rod and the first loop bar, hexagonal linear bearing main part has been placed between magnetic adsorption piece and the electromagnetism piece.
Preferably, a second sleeve is installed to the inside opposite side of support frame, the second loop bar is installed to the telescopic one end of second, and second loop bar embedding second telescopic inside, and the inside of second loop bar is provided with the locating hole, the building stones of polishing are installed to the one end of second loop bar, install the guided way between second sleeve and the support frame, install the second fixed pin between second sleeve and the second loop bar.
Preferably, a screw rod is installed inside the second sleeve, a rotating handle is installed at one end of the screw rod, and a bearing seat is installed between the other end of the screw rod and the support frame.
Compared with the prior art, the beneficial effects of the utility model are that:
1. the utility model discloses a first sleeve and first loop bar mutually support and can change the extension length of first loop bar, can also fix to the interior hexagonal linear bearing main part of difference in height, get electric and adsorb each other with the magnetic adsorption piece through the electromagnetism piece, further fix interior hexagonal linear bearing main part, guarantee can not appear the displacement or sideslip in the course of working, and can not appear processing dead angle, guarantee to have higher machining precision to interior hexagonal linear bearing main part;
2. the utility model discloses a install the amesdial in one side of hexagonal linear bearing main part, the one end of amesdial and hexagonal linear bearing main part face contact in, carry out the real-time detection of smoothness to the surface of hexagonal linear bearing main part under the circumstances that does not influence hexagonal linear bearing main part normal rotation processing, can accurately observe the surface smoothness directly perceivedly through the deflection angle of pointer, guarantee that the machining precision to hexagonal linear bearing main part is higher;
3. the utility model discloses a second loop bar and the telescopic cooperation of second can realize also can process the interior hexagonal linear bearing main part that the width is different to the ascending adjustment of stone material horizontal direction of polishing, and the flexibility is higher, and the overall device simple structure, the cost is lower, and area is little, and operation process is convenient.
Drawings
Fig. 1 is a schematic structural diagram of an inner hexagonal linear bearing super finishing device according to the present invention;
FIG. 2 is a partial enlarged view of region A of the present invention;
fig. 3 is a schematic structural diagram of the present invention.
In the figure: 1. a support frame; 2. a fixing plate; 3. a dial indicator; 4. a voltage-stabilizing mobile power supply; 5. a bottom box; 6. a motor; 7. an electromagnetic block; 8. a first bearing; 9. a first sleeve; 10. a first loop bar; 11. rotating the rod; 12. a magnetic adsorption block; 13. a hexagonal socket linear bearing body; 14. a second sleeve; 15. a second loop bar; 16. grinding stone; 17. a guide rail; 18. a screw rod; 19. rotating the handle; 20. a bearing seat; 21. a second bearing; 22. positioning holes; 23. a first fixing pin; 24. a second fixing pin.
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.
Referring to fig. 1-3, the present invention provides an embodiment: the utility model provides a be used for super finish machining device of hexagon socket head cap linear bearing, including support frame 1, fixed plate 2 is installed to 1 inside one side of support frame, amesdial 3 is installed to the front end of fixed plate 2, steady voltage portable power source 4 is installed to the below of amesdial 3, under-box 5 is installed to one side of steady voltage portable power source 4, the one end and 13 face contact of hexagon socket head cap linear bearing main part of amesdial 3, do not influence the real-time detection of smoothness to the surface of hexagon socket head cap linear bearing main part 13 under the condition that hexagon socket head cap linear bearing main part 13 normally rotates processing.
Further, the internally mounted of under casing 5 has motor 6, and electromagnetism piece 7 is installed to the upper end of under casing 5, installs first bearing 8 between electromagnetism piece 7 and the under casing 5, and the one end of electromagnetism piece 7 passes through the coupling joint with motor 6, when motor 6 drives electromagnetism piece 7 and rotates, can drive hexagon socket head linear bearing main part 13 and magnetic adsorption piece 12 and rotate together to process.
Further, first sleeve 9 is installed on the inside top of support frame 1, and first loop bar 10 is installed to the lower extreme of first sleeve 9, and the inside of first sleeve 9 of first loop bar 10 embedding, installs first fixed pin 23 between first sleeve 10 and the first sleeve 9, can change the extension length of first loop bar 10 through mutually supporting of first sleeve 9 and first loop bar 10, also can fix to the hexagon socket head linear bearing main part 13 of high difference.
Further, the internally mounted of first loop bar 10 has rotary rod 11, and magnetic adsorption piece 12 is installed to the lower extreme of rotary rod 11, installs second bearing 21 between rotary rod 11 and the first loop bar 10, has placed hexagon socket head linear bearing main part 13 between magnetic adsorption piece 12 and the electromagnetism piece 7, has got electric and magnetic adsorption piece 12 mutual adsorption through electromagnetism piece 7, and further fixed to hexagon socket head linear bearing main part 13, guarantee can not appear the displacement in the course of working or sideslip.
Further, a second sleeve 14 is installed on the other side of the inside of the support frame 1, a second loop bar 15 is installed at one end of the second sleeve 14, the second loop bar 15 is embedded in the second sleeve 14, a positioning hole 22 is formed in the second loop bar 15, a grinding stone 16 is installed at one end of the second loop bar 15, a guide rail 17 is installed between the second sleeve 14 and the support frame 1, a second fixing pin 24 is installed between the second sleeve 14 and the second loop bar 15, the extending length of the second loop bar 15 relative to the second sleeve 14 is adjusted through the second fixing pin 24, and the hexagon socket head linear bearing main body 13 with different widths can be processed.
Further, a screw rod 18 is arranged in the second sleeve 14, a rotating handle 19 is arranged at one end of the screw rod 18, a bearing seat 20 is arranged between the other end of the screw rod 18 and the support frame 1, the rotating handle 19 is rotated, and the grinding stone 16 can axially move along the guide rail 17 through the screw rod 18.
The working principle is as follows: when the inner hexagonal linear bearing machining device is used, an inner hexagonal linear bearing main body 13 to be machined is placed between an electromagnetic block 7 and a magnetic adsorption block 12, the extension length of a first sleeve rod 10 relative to a first sleeve 9 is adjusted through a first fixing pin 23, the inner hexagonal linear bearing main body 13 is fixed, the inner hexagonal linear bearing main body 13 with different heights can be machined, a second bearing 21 is installed between the first sleeve rod 10 and a rotary rod 11, when a motor 6 drives the electromagnetic block 7 to rotate, the inner hexagonal linear bearing main body 13 and the magnetic adsorption block 12 can be driven to rotate together, machining is carried out, a dial indicator 3 is installed on one side of the inner hexagonal linear bearing main body 13, one end of the dial indicator 3 is in surface contact with the inner hexagonal linear bearing main body 13, real-time detection is carried out on the surface of the inner hexagonal linear bearing main body 13 under the condition that the inner hexagonal linear bearing main body 13 normally rotates and is not influenced, through the pointer deflection angle of amesdial 3 can accurately observe the surface smoothness of hexagon socket head cap linear bearing main part 13 directly perceivedly, guarantee that the machining precision of hexagon socket head cap linear bearing main part 13 is higher, adjust the extension length of second loop bar 15 for second sleeve 14 through second fixed pin 24, also can process hexagon socket head cap linear bearing main part 13 to the width difference, rotate twist grip 19, it can be along guided way 17 axial displacement to polish building stones 16 through lead screw 18, thereby change the height of building stones 16 for hexagon socket head cap linear bearing main part 13 of polishing, comprehensive processing is carried out to hexagon socket head cap linear bearing main part 13, and the machining precision is improved, the flexibility is higher, the whole device simple structure, the cost is lower, the floor area is little, and the operation process is convenient.
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.