CN204413800U - A kind of polished machine syndeton - Google Patents

Abstract

The utility model discloses polished machine syndeton, between the drive division that this syndeton is connected to the clamping part for clamping workpiece to be processed and drives described clamping part to rotate, comprise the clamping part connector be connected separably with described clamping part, and the locking device for described clamping part and described clamping part connector are carried out locking.The utility model structure is simple, easy to operate, and clamping is firm, can effectively increase work efficiency, and effectively ensures the processing technology quality of product.

Description

A kind of polished machine syndeton

Technical field

The utility model relates to precise machine machining field, particularly relates to a kind of polished machine syndeton.

Background technology

Diamond is with the physical and mechanical properties of its uniqueness, and especially its high hardness, has in industry manufacture and scientific and technical research field the application being difficult to substitute.The U.S. in the 50's Mos of eighties of last century, for the demand for development adapting to ultra precision cutting technology develops SPDT(Single Point Diamond Turning) technology.In this technology, diamond is as cutting tool manufactured materials, and this also makes diamond cutter manufacturing technology become key technology in ultraprecise field of machining.Diamond itself has strong anisotropy.Most typical in the present frictional behavior of this property list is exactly that the material removal efficiency in the different crystal face crystal orientation of diamond presents significant difference under same mechanical lapping condition.In reality when to adamantine some crystal face attrition process, in order to raise the efficiency, always will adjustment gradually, the grinding direction finding material removing rate high, and the parameter values in concrete sign grinding direction is difficult to obtain.

Given this, Chinese patent literature CN 103616394 A discloses a kind of method determining diamond lap crystal orientation, by providing an abradant surface and the rib needing attrition process surface to be formed as the way with reference to crystal orientation in advance, only need to do initial demarcation to crystal face crystal orientation, laser confocal microscope just can be adopted in follow-up attrition process to measure the characterization parameter in concrete grinding direction, do not need the locus and the attitude that record the placement of diamond workpiece, convenient and swift.But, before grinding and polishing is carried out to diamond, first to determine this step in diamond lap crystal orientation, inherently greatly reduce diamond grinding polishing operating efficiency.Therefore, be necessary to design a kind of novel polished machine and adamantine grinding and polishing method to overcome above-mentioned defect of the prior art, accomplish real effective raising operating efficiency.

Utility model content

The technical problems to be solved in the utility model is to provide one to be installed on convenient disassembly, stable connection, can increase substantially the polished machine syndeton of efficiency.

To achieve these goals, a kind of polished machine syndeton of the present utility model, between the drive division that this syndeton is connected to the clamping part for clamping workpiece to be processed and drives described clamping part to rotate, comprise the clamping part connector be connected separably with described clamping part, and the locking device for described clamping part and described clamping part connector are carried out locking.

Described locking device comprises one end and is connected to clamping part, and the other end is provided with the joint pin of an orbicule, also comprises the conically shaped be positioned at for orbicule insertion on clamping part connector; The sidewall circumference of described conically shaped is provided with at least one initial and along the axially extended split cavity of described conically shaped from the insertion end inserted for described orbicule of described conically shaped, thus the diameter of the insertion end of described conically shaped can be enable to expand along with the insertion of described orbicule; Be provided with the orbicule cavity volume of groove-like near the side of described insertion end at the inwall of described conically shaped.

Described conically shaped arranged outside has the spacer of tubular, and described spacer is provided with the tilt internal wall corresponding with described conically shaped outer wall shape.

Described conically shaped is connected with power set by a push rod, and described power set can drive described conically shaped to stretch out or described spacer of retracting by described push rod.

Described power set are cylinder.

Described clamping part connector is tubular, and it is inner that described conically shaped is positioned at described clamping part connector, and one end of clamping part connector is used for described orbicule and inserts, the passage that the other end is connected with described power set for providing described push rod.

One end that described push rod is connected with described power set is T-shaped, and outside described push rod, cover has the second Compress Spring, and the T-shaped end of described push rod is withstood in described second Compress Spring one end, and the other end withstands described spacer.

Described second Compress Spring is disk spring.

Adopt technique scheme, polished machine syndeton of the present utility model, when needs take off described clamping part, opening cylinder makes it promote push rod forward slip, second Compress Spring compress energy storage, conically shaped ejects by push rod in spacer, thus orbicule is easy to extract from the insertion end of conically shaped; When the fixing described clamping part of needs, described orbicule is inserted in described conically shaped, shifter cylinder thus make the second Compress Spring promote push rod to move backward, drive conically shaped to enter in spacer, thus clamping part to be fixed.The utility model structure is simple, easy to operate, and clamping is firm, can effectively increase work efficiency, and effectively ensures the processing technology quality of product.

Accompanying drawing explanation

Fig. 1 is the overall structure schematic diagram of the polished machine adopting the utility model structure.

Fig. 2 is the decomposition texture schematic diagram of grip unit.

Fig. 3 is the partial sectional view of grip unit.

Fig. 4 is the partial exploded view of grip unit.

Fig. 5 is the sectional view of clamping part.

Fig. 6 is the decomposing schematic representation of clamping part.

Fig. 7 is the partial sectional perspective view of grip unit.

Detailed description of the invention

Below by way of the drawings and specific embodiments, the utility model is described in further detail.

The present embodiment provides a kind of syndeton of polished machine, is installed on polished machine.As shown in Figure 1, described polished machine comprises frame 1 and is positioned at the mill unit 2 in frame 1, and the mill grinding and polishing face in described mill unit 2 is horizontally disposed with, above described mill unit 2, be provided with grip unit 3.

Described frame 1 is also provided with the lifting motor 4 for driving described grip unit 3 entirety to move up and down and touch screen control panel 5, described grip unit 3 is provided with lifting support 34, described lifting support 34 connects a slide block, and described slide block is arranged on the line slideway 6 of vertically setting.

As shown in Figure 2, the drive division 32 that described grip unit 3 comprises the clamping part 31 for clamping workpiece to be processed and drives described clamping part to rotate for axis with the vertical line in described mill grinding and polishing face, the rotation of described clamping part can be rotation, also can be revolution, also can be revolve round the sun rotation while.

Particularly, described clamping part 31, as shown in Figure 5,6, comprises frock clamp body 311, and described frock clamp body 311 is provided with spring mechanism, for workpiece to be processed being withstood on the grinding and polishing face of mill.

Described spring mechanism is included in pilot hole 312, first Compress Spring 313 that the vertical line direction in mill grinding and polishing face is arranged and is positioned at described pilot hole 312 and one end is fixed, and the other end withstands the workpiece connecting portion 314 that workpiece to be processed 100 is housed.

Described workpiece connecting portion 314 comprises the connecting rod portion 314a near described first Compress Spring 313 side, and described connecting rod portion 314a is inserted in described pilot hole 312.

Described connecting rod portion 314a and described first Compress Spring 313 contact jaw are T-shaped, the hole wall of described pilot hole 312 are provided with the spacing preiection portion 315 of the T-shaped end for stopping connecting rod portion 314a.

Described frock clamp body 311 offers installing hole 316 and insert the mount pad 317 of installing hole 316, described pilot hole 312 is positioned at described mount pad 317.

The hole wall of described installing hole 316 is provided with shoulder 316a, make described installing hole 316 in the aperture of described shoulder 316a near side, described mill grinding and polishing face (i.e. the downside of described shoulder 316a), be greater than described installing hole 316 in the aperture of described shoulder 316a away from side, described mill grinding and polishing face (i.e. the upside of described shoulder 316a); Contrary one end that described mount pad 317 offers one end of pilot hole 312 is fixed with one first locking nut 350 through after described installing hole 316; Described mount pad 317 sidewall is provided with the boss structure 317a withstood on described shoulder 316a, after the first locking nut 350 is tightened in described mount pad 317 top, described boss structure 317a is clamped on described shoulder 316a, thus is fixed on described frock clamp body 311 by described mount pad 317.

Described frock clamp body 311 is provided with multiple spring mechanism.That is, each frock clamp body 311 can clamp multiple workpiece to be processed.

Described frock clamp body 311 is plate-like, and described multiple spring mechanism is evenly distributed in the circumference of described frock clamp body 311.

As shown in Fig. 2,3,4,7, described drive division 32 comprises drive motors 321 and gear drive.

Described gear drive comprises the planetary gear 323 being connected to drive motors 321 clutch end, and the central gear 322 to be meshed with planetary gear 323, described clamping part 31 and described driven gear 323 to be connected also synchronous axial system by clamping part connector 33.

Described planetary gear 323 is multiple, and correspond ground, described clamping part 31, described clamping part connector 33 are respectively multiple.

Each described clamping part connector 33 is arranged in an outer sleeve 331, and is provided with upper bearing (metal) 327a and lower bearing 327b between described clamping part connector 33 and described outer sleeve 331, and the two can rotate relatively.

Described clamping part connector 33 is positioned at the axial location of described frock clamp body 311, by the rotation of clamping part connector 33, drives described frock clamp body 311 to rotate, thus the multiple workpieces to be processed be positioned on frock clamp body 311 are together rotated.

Multiple described outer sleeve 331 is set in parallel on a planet reel 338, and multiple described outer sleeve 331 is fixedly connected as a single entity by described planet reel 338.

Described planet reel 338 offers lower main axis hole 338a, the main shaft 324 be connected with the clutch end of drive motors 321 is connected with the 3rd locking nut 365 be positioned at below planet reel 338 through after described lower main axis hole 338a, described planet reel 338 can be locked on described main shaft 324 by described 3rd locking nut 365, and between described main shaft 324 and described planet reel 338, be provided with key, thus the rotation of main shaft 324 can drive planet reel 338 and outer sleeve 331, planetary gear 323 together rotates.

Described clamping part 31 is connected by locking device separably with described clamping part connector 33.

Described locking device comprises one end and is connected to clamping part 31, and the other end is provided with the joint pin 319 of an orbicule 318, also comprises the conically shaped 333 be positioned at for orbicule insertion on clamping part connector 33.Described joint pin 319 connects a Morse taper shank 340, and Morse taper shank 340 is connected to described frock clamp body 311.

The sidewall circumference of described conically shaped 333 is provided with at least one initial and along the axially extended split cavity 333a of described conically shaped 333 from the insertion end inserted for described orbicule of described conically shaped 333, thus the diameter of the insertion end of described conically shaped 333 can be enable to expand along with the insertion of described orbicule 318; Be provided with the orbicule cavity volume 333b of groove-like near the side of described insertion end at the inwall of described conically shaped 333.

Described conically shaped 333 arranged outside has the spacer 334 of tubular, and described spacer 334 is provided with the tilt internal wall corresponding with described conically shaped 333 outer wall shape.

Described conically shaped 333 is connected with power set by a push rod 335, and described power set can drive described conically shaped 333 to stretch out or described spacer 334 of retracting by described push rod 335.

Described power set are cylinder 336.

Described clamping part connector 33 is tubular, and it is inner that described conically shaped 333 is positioned at described clamping part connector 33, and one end of clamping part connector 33 is used for described orbicule 318 and inserts, the passage that the other end is connected with described power set for providing described push rod 335.

One end that described push rod 335 is connected with described power set is T-shaped, and outside described push rod 335, cover has the second Compress Spring 337, and the T-shaped end of described push rod 335 is withstood in described second Compress Spring 337 one end, and the other end withstands described spacer 334.

Described second Compress Spring 337 is disk spring.

Described cylinder 336 is fixed on the upper surface of an air cylinder support 325, and the cylinder rod of cylinder 336 is through the T-shaped end upper surface withstanding on described push rod 335 after the through hole that described air cylinder support 325 is offered.

Also be provided with sealing ring 328a and lower seal 328b in the both sides up and down of described upper bearing (metal) 327a and lower bearing 327b, upper sealing ring 328a is enclosed within outside a spacer ring 329, and spacer ring 329 is enclosed within outside described clamping part connector 33.The upper end of described spacer 329 withstands on the lower surface of described driven gear 323, and one second locking nut 330 withstands on the upper surface of described central gear 322.Spacing end cap 320 is screwed onto the upper surface of described clamping part connector 33 by screw.

When needs take off described clamping part 31, opening cylinder 336 makes it promote push rod 335 forward slip, second Compress Spring 337 compress energy storage, conically shaped 333 ejects by push rod 335 in spacer 334, thus orbicule 318 is easy to extract from the insertion end of conically shaped 333.

As shown in Figure 7, the power output shaft of described drive motors 321 is connected with decelerator 35, and main shaft 324 is connected to described decelerator 35 through the through hole be opened on lifting support 34, is also provided with spindle jacket 36 in the upper of described lifting support 34; Described spindle jacket 36 is set in outside described main shaft 324, and described lifting support 34 is fixed in one end, and the other end is fixed on described air cylinder support 325.Described main shaft 324 through the upper spindle hole 325a be installed on described air cylinder support 325, and can rotate in spindle hole 325a on described.

In described drive motors 321, decelerator 35, spindle jacket 36, lifting support 34 and air cylinder support 325, owing to all being interfixed by screw between adjacent parts, thus make above-mentioned parts form an entirety, can move up and down under the drive of lifting motor 4.

Claims (8)

1. a polished machine syndeton, between the drive division that this syndeton is connected to the clamping part for clamping workpiece to be processed and drives described clamping part to rotate, it is characterized in that: comprise the clamping part connector be connected separably with described clamping part, and the locking device for described clamping part and described clamping part connector are carried out locking.

2. polished machine syndeton as claimed in claim 1, is characterized in that: described locking device comprises one end and is connected to clamping part, and the other end is provided with the joint pin of an orbicule, also comprises the conically shaped be positioned at for orbicule insertion on clamping part connector; The sidewall circumference of described conically shaped is provided with at least one initial and along the axially extended split cavity of described conically shaped from the insertion end inserted for described orbicule of described conically shaped, thus the diameter of the insertion end of described conically shaped can be enable to expand along with the insertion of described orbicule; Be provided with the orbicule cavity volume of groove-like near the side of described insertion end at the inwall of described conically shaped.

3. polished machine syndeton as claimed in claim 2, it is characterized in that: described conically shaped arranged outside has the spacer of tubular, described spacer is provided with the tilt internal wall corresponding with described conically shaped outer wall shape.

4. polished machine syndeton as claimed in claim 3, is characterized in that: described conically shaped is connected with power set by a push rod, and described power set can drive described conically shaped to stretch out or described spacer of retracting by described push rod.

5. polished machine syndeton as claimed in claim 4, is characterized in that: described power set are cylinder.

6. polished machine syndeton as claimed in claim 5, it is characterized in that: described clamping part connector is tubular, it is inner that described conically shaped is positioned at described clamping part connector, one end of clamping part connector is used for described orbicule and inserts, the passage that the other end is connected with described power set for providing described push rod.

7. polished machine syndeton as claimed in claim 6, it is characterized in that: one end that described push rod is connected with described power set is T-shaped, outside described push rod, cover has the second Compress Spring, and the T-shaped end of described push rod is withstood in described second Compress Spring one end, and the other end withstands described spacer.

8. polished machine syndeton as claimed in claim 7, is characterized in that: described second Compress Spring is disk spring.