CN203557262U - Adjustable elastic clamping device for ultra-precision spindle hydrodynamic float polishing - Google Patents

Abstract

The utility model discloses an adjustable elastic clamping device for ultra-precision spindle hydrodynamic float polishing. The adjustable elastic clamping device for ultra-precision spindle hydrodynamic float polishing comprises a connecting flange and a substrate, wherein a wedge-shaped sleeve is arranged on the inner side of the substrate, and a spring sleeve is arranged on the inner side of the wedge-shaped sleeve; the substrate, the wedge-shaped sleeve and the spring sleeve are in sliding contact; the connecting flange fixes a workpiece through a first screw, and the spring sleeve is connected with a lapping tool through a third screw; the wedge-shaped sleeve is in threaded connection with a rotating sleeve, and a spring is arranged at the bottom end of the wedge-shaped sleeve; thrust steel balls are arranged at the upper row and the lower row of the rotating sleeve, and the substrate is in grease-lubricated connection with a thrust baffle plate through a second screw. The clamping device can automatically complete clamping and loosening actions and regulate the size of gaps of a polishing solution. In the ultra-precision spindle polishing process, the clamping device has the self-locking function, has a certain adjustment range, and can be used for implement the processing of workpiece shafts with the size in a certain range. The clamping device can synchronously adjust a mechanism in a radial direction and avoids an eccentric state.

Description

A kind of adjustable ultraprecise main shaft dynamic pressure floats off polishing flexible clamping device

Technical field

The utility model relates to Ultraprecision Machining, and what be specifically related to is that the dynamic pressure of a kind of adjustable ultraprecise main shaft floats off polishing flexible clamping device.

Background technology

In Ultraprecision Machining field, dynamic pressure floats off polishing (Review of The Current Situation of Ultra-precision Machining, mechanical engineering journal the 1st phase of volume January 43 in 2007) based on hydrodynamic bearing principle, by the wedge shape between polishing lap tool and workpiece, the pressure of surging producing when polishing is rotated, make workpiece float on polishing lap tool surface, by the polishing material particulate in flying height, workpiece is carried out to polishing.Because there is no frictional heat and grinding tool wearing and tearing, index plane can not change, and therefore can repeat to obtain accurate surface of the work.Comparatively universal is to utilize technique to process (as the patent No. 200410011216.4) to plane at present.

The abrasive polishing method of main shaft has a lot, and general appearance profile is guaranteed by coarse plain emery wheel grinding, and surface smoothness is guaranteed by precise finiss polishing.Current axle class polishing machine belongs to traditional polishing wheel processing mode, and workpiece spindle all can have clamping operation (as the patent No. 201020550479.3), can effectively avoid occurring that product crushes, and simple in structure, each parts disassembling, assembling and replacing is efficient and convenient.But still there is clamping operation with workpiece spindle surface, still can produce certain active force.

Utility model content

The purpose of this utility model is to overcome the above problem that prior art exists, provide the dynamic pressure of a kind of adjustable ultraprecise main shaft to float off polishing flexible clamping device, can automatically complete clamping, loosening up, regulate polishing fluid gap length, in ultraprecise main shaft polishing process, there is auto-lock function, and there is certain adjustable range, meet the processing of certain limit dimension workpiece axle.

For realizing above-mentioned technical purpose, reach above-mentioned technique effect, the utility model is achieved through the following technical solutions:

A kind of adjustable ultraprecise main shaft dynamic pressure floats off polishing flexible clamping device, comprise adpting flange and pedestal, described pedestal inner side arranges wedge shape sleeve, described wedge shape sleeve inner side arranges spring spool, described pedestal, described wedge shape sleeve and described spring spool sliding-contact, described adpting flange is by the first screw fixation workpiece, described spring spool connects lap tool by the 3rd screw, described wedge shape sleeve is threaded with turnbarrel, the bottom of described wedge shape sleeve is provided with spring, the two rows of described turnbarrel are provided with thrust steel balls, described pedestal is connected by grease lubrication with thrust baffle by the second screw.

The beneficial effects of the utility model are:

1, the clamping device in the utility model can complete clamping, loosening up automatically, regulates polishing fluid gap length, in ultraprecise main shaft polishing process, has auto-lock function, and has certain adjustable range, meets the processing of certain limit dimension workpiece axle.Clamping device can, from synchronous adjusting mechanism radially, avoid producing eccentric state.Clamping device is completed and is adjusted and self-locking by wedge shape and the acting in conjunction of fine setting sleeve, guarantees can not occur radial displacement when polishing.The utility model adopts the principle of wedge and spring spool, has simple in structurely, is easy to the advantages such as realization.Clamping device only need be changed inner lap tool, just can meet inside dimension main shaft polishing in a big way.In polishing process, only need the adjustment worm screw on fine setting clamping device, can realize the clamping of clamping device and loosen, simple to operate.

2, between lap tool and workpiece, there is micron order gap during polishing, due to the homogenization of liquid, can greatly improve the fineness of the last polishing of workpiece, reduce the required precision to lap tool simultaneously, reduced processing cost.

3, workpiece spindle, radially in free state, utilizes the self adaptation certralizing ability of polishing fluid when it rotates, can auto-compensation workpiece spindle and the coaxiality error of lap tool, guarantee the quality of finish of surface to be machined.

Accompanying drawing explanation

Fig. 1 is cutaway view of the present utility model;

Fig. 2 is the partial sectional view of top view of the present utility model.

Number in the figure explanation: 1, adpting flange, 2, the first screw, 3, thrust baffle, 4, the second screw, 5, turnbarrel, 6, thrust steel balls, 7, pedestal, 8, wedge shape sleeve, 9, spring, 10, spring spool, 11, adjust worm screw, 12, lap tool, 13, workpiece, 14, the 3rd screw.

The specific embodiment

Below with reference to the accompanying drawings and in conjunction with the embodiments, describe the utility model in detail.

With reference to Fig. 1, shown in Fig. 2, a kind of adjustable ultraprecise main shaft dynamic pressure floats off polishing flexible clamping device, comprise adpting flange 1 and pedestal 7, described pedestal 7 inner sides arrange wedge shape sleeve 8, described wedge shape sleeve 8 inner sides arrange spring spool 10, described pedestal 7, described wedge shape sleeve 8 and 10 sliding-contacts of described spring spool, described adpting flange 1 is by the first screw 2 fixation workpieces 13, described spring spool 10 connects lap tool 12 by the 3rd screw 14, described wedge shape sleeve 8 is threaded with turnbarrel 5, the bottom of described wedge shape sleeve 8 is provided with spring 9, the two rows of described turnbarrel 5 are provided with thrust steel balls 6, described pedestal 7 is connected by grease lubrication with thrust baffle 3 by the second screw 4.

The operation principle of the present embodiment is as follows:

The clamping process of clamping device, screws clockwise by adjusting worm screw 11, is delivered to turnbarrel 5.Turnbarrel 5, by two rows thrust steel balls 6 axial limitings, can only rotate by circumferencial direction.Turnbarrel 5 is threaded with wedge shape sleeve 8, wedge shape sleeve 8 axial downward movement as shown in fig. 1.Wedge shape sleeve 8 moves downward vertically, and spring spool 10, by pedestal 7 axial limitings, radially tightens up spring spool 10 by wedge shape.As shown in Figure 2, lap tool 12 adopt 4 split type, be connected by screw 14 with spring spool 10.Finally complete the clamping of lap tool 12.

The process of loosening of clamping device, loosens counterclockwise by adjusting worm screw 11, and spring 9 release pressures, form thrust to wedge shape sleeve 8.Turnbarrel, by two rows thrust steel balls 6 axial limitings, can only rotate by circumferencial direction simultaneously.Turnbarrel 5 is threaded with wedge shape sleeve 8, and wedge shape sleeve 8 axially moves upward as shown in fig. 1.Wedge shape sleeve 8 moves upward vertically, by wedge shape, spring spool 10 is radially loosened, and as shown in Figure 2, finally completes loosening of ceramic lap tool 12.

Claims (1)

1. adjustable ultraprecise main shaft dynamic pressure floats off polishing flexible clamping device, comprise adpting flange (1) and pedestal (7), it is characterized in that: described pedestal (7) inner side arranges wedge shape sleeve (8), described wedge shape sleeve (8) inner side arranges spring spool (10), described pedestal (7), described wedge shape sleeve (8) and described spring spool (10) sliding-contact, described adpting flange (1) is by the first screw (2) fixation workpiece (13), described spring spool (10) connects lap tool (12) by the 3rd screw (14), described wedge shape sleeve (8) is threaded with turnbarrel (5), the bottom of described wedge shape sleeve (8) is provided with spring (9), the two rows of described turnbarrel (5) are provided with thrust steel balls (6), described pedestal (7) is connected by grease lubrication with thrust baffle (3) by the second screw (4).

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