CN102539232A - Convertible modular fixture of multifunctional frictional wear testing machine - Google Patents

Abstract

The invention provides a convertible modular fixture of a multifunctional frictional wear testing machine, relating to an indexable numeric control turning blade fixture. The primary structure of a convertible fixture of the convertible modular fixture provided by the invention is a stepped slot, the stepped slot is provided with an upper base surface, a slot side and a slot bottom surface, the slot side and the slot bottom surface are mutually vertical, the lower part of the stepped slot is provided with a U-shaped opening cutter feeding slotted hole, the upper part of the stepped slot is provided with a U-shaped opening cutter retracting slotted hole which is consist with the direction of the cutter feeding slotted hole, a slot included angle, a tool cutting edge angle, an oblique angle, tool cutting edge inclination and a front angle related angle are formed, and a calculation formula which can design and calculate an included angle-inclined angle between a center line of a slot and the horizontal line is provided, namely the tool cutting edge angle Kr is equal to 90 degrees plus or minus (oblique angle alpha-1/2. the slot included angle theta), thus the primary structure of the convertible fixture which can be comprehensively and accurately adaptive to a diversity indexable numeric control turning blade, and an accurate, high-efficiency and practical innovative tool is provided for detecting and evaluating tribological properties and cutting capacity of the indexable numeric control turning blade.

Description

The convertible built-up jig of multifunction friction wear testing machine

Technical field

The convertible built-up jig of multifunction friction wear testing machine of the present invention is specifically related to multifunction friction wear testing machine (UMT) but transposition numerical control turning insert clamp.

Background technology

The UMT multifunction friction wear testing machine of U.S. CE TR company is a kind of widely used tribology test unit, adopts suitable anchor clamps, but can estimate the frictional behaviour of transposition numerical control turning blade and surface coating thereof.But because the variation of transposition numerical control turning insert shape, and in actual turning, the branch of left and right sides offset tool is arranged, and multiple tool cutting edge angle, anterior angle, cutting edge inclination, directly adopt transposition numerical control turning blade to carry out the test of UMT tribology to bring difficulty but give.The anchor clamps of prior art; Simply vertical direction is installed; But can clamping transposition numerical control turning blade model single, tool cutting edge angle, anterior angle, cutting edge inclination can not effectively embody, but and can not guarantee the repeatability of transposition numerical control turning blade clamping; So that influence the confidence level of experimental data, can not satisfy the demand of experiment.For this reason, need the convertible built-up jig of exploitation to UMT multifunction friction wear testing machine.

Summary of the invention

The purpose of this invention is to provide the convertible built-up jig of a kind of multifunction friction wear testing machine; But adapt to the direct clamping of variation transposition numerical control turning blade to testing machine; But be simulation transposition numerical control turning blade cut operating mode; But but detect the transposition numerical control turning blade and the tribological property of coating thereof, the cutting power of test and appraisal transposition numerical control turning blade accurately and effectively, accurate, efficient, practical innovation instrument is provided.

The convertible built-up jig of the present invention is made up of clamp base and convertible clip base, and convertible clip base is connected with the draw-in groove of clamp base through the upper end convex shoulder; Bolted, convertible clip base are a step trough, and this step trough has basal plane; Groove side and groove bottom, the groove side is vertical each other with groove bottom, has U type opening to go into the cutter slotted eye in the step trough bottom; On step trough top the U type opening withdrawing slotted eye consistent with cutter slotted eye direction arranged, is constructed as follows relevant how much angles:

But the opening angle of U type opening cutter slotted eye is the groove angle theta adaptive with transposition numerical control turning insert shape;

In the basal plane, blade main cutting edge and tested sample vertical direction angle are tool cutting edge angle Kr;

In the basal plane, the angle of groove center line and horizontal line is oblique angle α;

In the reference tool major cutting edge plane, the angle of blade main cutting edge and basal plane is cutting edge inclination λ;

In the reference orthogonal plane, the angle of groove bottom and basal plane is anterior angle γ;

Because groove angle theta, tool cutting edge angle Kr, anterior angle γ and cutting edge inclination λ each parameter relevant with indexable numerical control turning blade is known or definite; Cutting edge inclination λ and anterior angle γ have confirmed the angle position of the relative basal plane of groove bottom; Having only influences that the adaptive key parameter of the convertible clip base basal plane of the indexable numerical control turning blade of diversity --- the angle-oblique angle α of groove center line and horizontal line also need confirm; The present invention is according to the relation of the relevant geometric angle of convertible clip base step trough; Proposed to design the computing formula of the angle-oblique angle α of groove center line and horizontal line: tool cutting edge angle Kr=90 ° ± (oblique angle α-1/2 groove angle theta s); Can calculate the oblique angle α of convertible clip base by this formula

S relates to the trigonometric function coefficient of relationship of anterior angle γ and cutting edge inclination λ in the formula, and the numerical approximation value of coefficient s is 1, so this design calculation formula is expressed as:

Tool cutting edge angle Kr=90 ° ± (oblique angle α-1/2 groove angle theta)

When above-mentioned tool cutting edge angle Kr was the obtuse angle, this design calculation formula was:

Tool cutting edge angle Kr=90 °+(oblique angle α-1/2 groove angle theta);

When above-mentioned tool cutting edge angle Kr was right angle or acute angle, this design calculation formula was:

Tool cutting edge angle Kr=90 °-(oblique angle α-1/2 groove angle theta);

Through above-mentioned design calculation formula, thereby but obtain can with diversity transposition numerical control turning blade accurate adaptive convertible clip base comprehensively, but guarantee that transposition numerical control turning blade is identical with various angles and actual cut that sample contacts.

Go into the left and right direction of cutter slotted eye according to above-mentioned convertible clip base bottom U type opening, the insert of corresponding clamping is right avertence cutter and left avertence cutter respectively.

The convertible built-up jig of the present invention; But can be directly installed on transposition numerical control turning blade on the UMT multifunction friction wear testing machine; Guarantee that but transposition numerical control turning blade is identical with the various angles and the actual cut of sample, but simulate the cutting operating mode of transposition numerical control turning blade.Convertible built-up jig is divided into into clamp base and convertible clip base two large divisions, and wherein convertible clip base is arranged to disposable, and dismounting is simple and convenient with replacing, highly versatile.Convertible clip base is a step trough, but adopts semi open model to clamp to transposition numerical control turning blade, but so appearance similar, the transposition numerical control turning blade that varies in size, but on a kind of convertible clip base clampings all.But transposition numerical control turning blade all is that the face face contacts with convertible clip base; Make the clamping secure; The location is accurate, but the convertible built-up jig of the present invention adapts to the direct clamping of variation transposition numerical control turning blade to testing machine, but is simulation transposition numerical control turning blade cut operating mode; But but detect the transposition numerical control turning blade and the tribological property of coating thereof, the cutting power of test and appraisal transposition numerical control turning blade accurately and effectively, accurate, efficient, practical innovation instrument is provided.

Description of drawings

Fig. 1 is clamp base figure

Fig. 2 is each floor map of groove structure of clip base

Fig. 3 is clip base (right avertence cutter) front view, and α is groove center line and horizontal plane angle

Fig. 4 is a clip base vertical channel bottom surface direction partial view

Fig. 5 is the A-A cut-open view of clip base (right avertence cutter)

Fig. 6 is the B-B cut-open view of clip base (right avertence cutter)

Fig. 7 is clip base (left avertence cutter) front view

Fig. 8 is the anchor clamps full figures

Fig. 9 is anchor clamps whole assembling front views on UMT multifunction friction wear testing machine

Figure 10 is whole assembling C-C sectional view

Figure 11 is whole assembling D-D sectional view

Embodiment

How combine accompanying drawing to further specify the present invention implements at present:

In the example as shown in Figure 2, reference tool major cutting edge plane 21 is perpendicular to basal plane 1, and parallel with the intersection of groove bottom 3 with groove side 2, and reference orthogonal plane 20 is simultaneously perpendicular to basal plane 1 and reference tool major cutting edge plane 21.

In the example as shown in Figure 9, use four screws 12 to be installed in clamp base 6 on the UMT force transducer 11.Four screws 12 evenly are installed in 6 four jiaos of clamp base, make the clamping of clamp base 6 on testing machine firm, and the location accurately.

Then; But according to transposition numerical control turning blade 13, select suitable convertible clip base 7, but for example CNMG series transposition numerical control turning blade 13 shown in the figure is an example; According to industry standard, but should transposition numerical control turning blade 13 profile rhombus angles be 80 ° known.According to actual turning operating mode, all the other each angles are promptly thereupon by corresponding selected: right avertence cutter, tool cutting edge angle are 95 °; Anterior angle is negative 6 °, and cutting edge inclination is negative 6 °, and the groove angle theta of the convertible clip base 7 that forms a complete set of with it is 80 °; γ is designed to 6 °, and λ is designed to 6 °, so the angle position of groove bottom 3 and basal plane 1 is determined; According to design calculation formula: tool cutting edge angle Kr=90 °+(oblique angle α-1/2 groove angle theta), calculate the groove center line and horizontal direction angle oblique angle α should be designed to 45 °.So the required convertible clip base 7 that satisfies above-mentioned each geometric angle parameter is determined.But be stuck in the transposition numerical control turning blade of confirming 13 in clip base 7 grooves; But bolt 10 passes the center pit of transposition numerical control turning blade 13 and the U type opening of convertible clip base 7 is gone into cutter slotted eye 4, and nut 8 screws in bolt 10 at the other end, and manually fastening nut 8 arrives to a certain degree; But the position of adjustment transposition numerical control turning blade 13 in groove; But transposition numerical control turning blade 13 and groove side 2,19 are close to, with spanner grip nut 8, the bolt 10 of screwing then.Owing to adopt semi open model to clamp, therefore different sizes, but but the transposition numerical control turning blade 13 of appearance similar, but on a kind of convertible clip base 7 clampings all.But transposition numerical control turning blade 13 all is that the face face contacts with convertible clip base 7, makes the clamping secure.

But insert the convex shoulder 18 of the convertible clip base 7 of the good transposition numerical control turning of clamping blade 13 in the draw-in groove 17 of clamp base 6, the adjustment position makes the right ends alignment, and screw 9 pierces into both holes, just can tighten.When needs are changed convertible clip base 7, the screw 9 of only need back-outing, just dismantled and assembled replacing.Clamp base 6 is simple and convenient with convertible clip base 7 fractionations, but when carrying out 13 experiments of difference transposition numerical control turning blade, only needs to change convertible clip base 7 and just can.

Use two screws 15 to be fixed on the side of convertible clip base 7 to the sound transducer seat 16 that sound transducer is housed, guarantee that effectively sound transducer is close to convertible clip base 7.

According to above installation steps, on UMT multifunction friction wear testing machine, but each angle that transposition numerical control turning blade 13 contacts with sample 14 has just embodied identical tool cutting edge angle with actual turning, anterior angle, cutting edge inclination, left and right sides offset tool that experiment needs.

In the example shown in figure 10, parallel reference orthogonal plane 20 is done the C-C section of whole assembling, but transposition numerical control turning blade 13 transversals that obtain and the angle γ of basal plane 1 are exactly needed anterior angle negative 6.

In the example shown in figure 11, parallel reference tool major cutting edge plane 21 is done the D-D section of whole assembling, but transposition numerical control turning blade 13 transversals that obtain and the included angle X of basal plane 1 are exactly negative 6 ° of needed cutting edge inclination.

In the example as shown in Figure 9, main cutting edge 22 is tool cutting edge angle Kr with the angle of sample 14 vertical direction.But but when transposition numerical control turning blade 13 tool cutting edge angle right angles or acute angle; Tool cutting edge angle is the supplementary angle of Kr among the figure; Tool cutting edge angle is the situation at supplementary angle each other, and both installation way are identical, presses Kr=90 ° of design calculation formula tool cutting edge angle-(oblique angle α-1/2 groove angle theta); After calculating groove center line and horizontal direction angle oblique angle α, can confirm the convertible required convertible clip base 7 of institute with regard to use.

Claims (4)

1. the convertible built-up jig of multifunction friction wear testing machine is made up of clamp base and convertible clip base, it is characterized in that convertible clip base is connected with the draw-in groove of clamp base through the upper end convex shoulder; Bolted; Convertible clip base is a step trough, and this step trough has basal plane, groove side and groove bottom; The groove side is vertical each other with groove bottom; There is U type opening to go into the cutter slotted eye in the step trough bottom, the U type opening withdrawing slotted eye consistent with cutter slotted eye direction arranged on step trough top, be constructed as follows relevant how much angles:

But the opening angle of U type opening cutter slotted eye 4 is the groove angle theta adaptive with transposition numerical control turning insert shape;

In the basal plane, blade main cutting edge and tested sample vertical direction angle are tool cutting edge angle Kr;

In the basal plane, the angle of groove center line and horizontal line is oblique angle α;

In the reference tool major cutting edge plane, the angle of blade main cutting edge and basal plane is cutting edge inclination λ;

In the reference orthogonal plane, the angle of groove bottom and basal plane is anterior angle γ;

Because but groove angle theta, tool cutting edge angle Kr, anterior angle γ and cutting edge inclination λ each parameter relevant with transposition numerical control turning blade is known or definite; Cutting edge inclination λ and anterior angle γ have confirmed the angle position of the relative basal plane of groove bottom; Having only influences that but the adaptive key parameter of the convertible clip base basal plane of diversity transposition numerical control turning blade---the angle-oblique angle α of groove center line and horizontal line also need confirm; The present invention is according to the relation of the relevant geometric angle of convertible clip base step trough; Proposed to design the computing formula of the angle-oblique angle α of groove center line and horizontal line: tool cutting edge angle Kr=90 ° ± (oblique angle α-1/2 groove angle theta s); Can calculate the oblique angle α of convertible clip base through this formula; Because s relates to the trigonometric function coefficient of relationship of anterior angle γ and cutting edge inclination λ in the formula, the numerical approximation value of coefficient s is 1, so this design calculation formula is expressed as:

Tool cutting edge angle Kr=90 ° ± (oblique angle α-1/2 groove angle theta).

2. the convertible built-up jig of multifunction friction wear testing machine according to claim 1 is characterized in that Kr=90 ° of computing formula tool cutting edge angle ± (oblique angle α-1/2 groove angle theta), and when its tool cutting edge angle Kr was the obtuse angle, this design calculation formula was:

Tool cutting edge angle Kr=90 °+(oblique angle α-1/2 groove angle theta).

3. the convertible built-up jig of multifunction friction wear testing machine according to claim 1 is characterized in that Kr=90 ° of computing formula tool cutting edge angle ± (oblique angle α-1/2 groove angle theta), and when its tool cutting edge angle Kr was right angle or acute angle, this design calculation formula was:

Tool cutting edge angle Kr=90 °-(oblique angle α-1/2 groove angle theta).

4. the convertible built-up jig of multifunction friction wear testing machine according to claim 1 is characterized in that going into according to convertible clip base bottom U type opening the left and right direction of cutter slotted eye, respectively corresponding clamping right avertence cutter and left avertence cutter.

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