CN105157653B - A kind of accurate device and method for measuring big dens in dente diameter - Google Patents

Abstract

The invention discloses a kind of accurate device and method for measuring big dens in dente diameter, including rack, housing face-plate, conduct vertical axis precision column and controller, frontal electronics shiftable clamps in rack, actuator vertical axis connects conduction vertical axis precision column with rear linear electron shiftable clamps across rack top, horizontal linearity electronics shiftable clamps are installed in the level of conduction axis precision block of conduction vertical axis precision top end, measuring force adjusts system, driver trunnion axis main shaft, scan arm and electronic probe, scan arm end is equipped with duplex scanning probe, replaceable gauge fixture is movably installed in gauge fixture support on housing face-plate, it is placed on replaceable gauge fixture and is calibrated gauge.By measuring setting gauge respectively and being calibrated the diameter of gauge, then accurately calculated.The device of the invention is simple to operate, has very accurate measurement result, so as to greatly reduce measurement error, ensures the accuracy of measurement data.

Description

A kind of accurate device and method for measuring big dens in dente diameter

Technical field

The present invention relates to a kind of measurement apparatus, specifically a kind of accurate device and method for measuring big dens in dente diameter.

Background technology

The measurement to the major diameter of cylinder and conical object, central diameter and tooth side diameter of existing measuring device cannot carry out It is accurate to measure, measurement data is caused to deviate truthful data to a certain extent, so as to large error occur, is seriously affected follow-up Operation, and existing measuring method is calibrated and is measured different objects, Ran Houzai using identical measurement method Calibration calculating is carried out, therefore do not meet actual conditions with same formula using data, so as to cause the error of bigger.

Invention content

The purpose of the present invention is to provide a kind of accurate device and method for measuring big dens in dente diameter, to solve above-mentioned background skill The problem of being proposed in art.

To achieve the above object, the present invention provides following technical solution：

A kind of accurate device for measuring big dens in dente diameter, including rack, housing face-plate, conduction vertical axis precision column and control Device, the housing face-plate are fixedly mounted on rack top side, and the controller is movably arranged on rack top opposite side, described Frontal electronics shiftable clamps, actuator vertical axis and rear linear electron shiftable clamps, actuator is longitudinally provided in rack to hang down D-axis is located among frontal electronics shiftable clamps and rear linear electron shiftable clamps, frontal electronics shiftable clamps and rear linear The output terminal of electronics shiftable clamps is stretched into inside housing face-plate, and actuator vertical axis upper end is connected with the driving across rack top Device vertical axis main shaft, the both ends of the conduction vertical axis precision column are mounted on frontal electronics shiftable clamps and rear linear electron moves The output terminal of position fixture, driver vertical axis main shaft are mounted among conduction vertical axis precision column lower end, the conduction vertical axis Precision top end is equipped with level of conduction axis precision block, and horizontal linearity electronics displacement folder is equipped in level of conduction axis precision block Tool, measuring force adjust system, driver trunnion axis main shaft, scan arm and electronic probe, connect on the driver trunnion axis main shaft The actuator trunnion axis across housing face-plate is connected to, the scan arm end is equipped with duplex scanning probe, with controller homonymy Housing face-plate on be installed with gauge fixture support, gauge fixture support on be movably installed with replaceable gauge fixture, can It replaces to be placed on gauge fixture and is calibrated gauge, pusher corresponding with scan arm is installed on the controller.

A kind of measuring method of the accurate device for measuring big dens in dente diameter, includes the following steps：

(1) the setting gauge with accurate alignment diameter is clamped between two parties in the support of replaceable gauge fixture, scanned Probe carries out the scanning of certain length in the upper side and lower side in the hole of setting gauge, to determine the diameter of setting gauge；

(2) gauge will be calibrated to be clamped on replaceable gauge fixture, and it is replaceable to be calibrated being centrally located in for gauge On the hole of gauge fixture so that the center line for being calibrated the hole of gauge is parallel with the plane of scanning motion that scanning probe is formed opposite, sweeps It retouches probe and carries out the scanning of certain length in the upper side and lower side in the hole for being calibrated gauge, to determine to be calibrated the diameter of gauge；

(3) gauge will be set and is calibrated the diameter progress accurately calculating of gauge.

Compared with prior art, the beneficial effects of the invention are as follows：The device of the invention is simple to operate, by measurement side Method has very accurate measurement result to the major diameter of cylinder and conical object, central diameter and tooth side diameter, is surveyed so as to greatly reduce Error is measured, ensures the accuracy of measurement data.

Description of the drawings

Fig. 1 is the dimensional structure diagram of the present invention.

Fig. 2 is the schematic diagram with scanning probe in Fig. 3 present invention.

Fig. 4 is the schematic diagram of the plane of scanning motion in the present invention.

Fig. 5 is the vertical view of the present invention.

Fig. 6 is the partial schematic diagram at A in Fig. 1.

Fig. 7 is the schematic diagram of gauge fixture in the present invention.

Fig. 8 is the schematic diagram supported in the present invention.

Fig. 9 is the position view that ring gauge is set in the present invention.

Figure 10 and Figure 11 is the instrumentation plan that feeler gauge is set in the present invention.

Figure 12 and Figure 13 is the schematic diagram of the tapered thread feeler gauge with external gauge taper and screw pitch.

Figure 14 is the schematic diagram that taper thread's plug guage is measured in the present invention.

To contain in the present invention, there are two the instrumentation plans for the screw thread circular cone for supporting cone for Figure 15~19.

Figure 20 and Figure 21 is the calibration schematic diagram that the upper cylindrical part of cone is supported in the present invention.

Figure 22 and Figure 23 is to the calibration schematic diagram of internal tapered tread in the present invention.

In figure：The frontal electronics shiftable clamps of 01-；02- actuator vertical axises；Linear electron shiftable clamps after 03-；04- Driver vertical axis main shaft；05- conducts vertical axis precision column；06- level of conduction axis precision blocks；07- horizontal linearitys electronics shifts Fixture；08- measuring forces adjust system；09- actuator trunnion axis；10- driver trunnion axis main shafts；11- scan arms；12- shells Panel；13- gauges fixture supports；The replaceable gauge fixtures of 14-；15- duplex scannings are popped one's head in；16- is calibrated gauge；17- electronics Probe；18- pushers；19- hinges；The 20- planes of scanning motion；21- centering edges；22- sets ring gauge；23- center lines；24- is supported； 25- central planes；26- installing plates；27- sets feeler gauge；28- centering planes；Supports of the 29- with V planes；30- tapered tread plugs Rule；31- surface sides；32- feeler gauge planes；33- supports cone；35- parallel circle cylindricalitys；Tapered tread inside 36-.

Specific embodiment

Below in conjunction with the attached drawing in the embodiment of the present invention, the technical solution in the embodiment of the present invention is carried out clear, complete Site preparation describes, it is clear that described embodiment is only part of the embodiment of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, those of ordinary skill in the art are obtained every other without making creative work Embodiment shall fall within the protection scope of the present invention.

Referring to Fig. 1, in the embodiment of the present invention, a kind of accurate device for measuring big dens in dente diameter, including rack, housing face-plate 12nd, conduction vertical axis precision column 05 and controller, housing face-plate 12 are fixedly mounted on rack top side, controller activity installation Frontal electronics shiftable clamps 01, actuator vertical axis 02 and rear linear are longitudinally provided in rack top opposite side, rack Electronics shiftable clamps 03, actuator vertical axis 02 are located in frontal electronics shiftable clamps 01 and rear linear electron shiftable clamps 03 Between, the output terminal of frontal electronics shiftable clamps 01 and rear linear electron shiftable clamps 03 is stretched into inside housing face-plate 12, actuating 02 upper end of device vertical axis is connected with the driver vertical axis main shaft 04 across rack top, the both ends of conduction vertical axis precision column 05 Mounted on the output terminal of frontal electronics shiftable clamps 01 and rear linear electron shiftable clamps 03, driver vertical axis main shaft 04 is pacified Among 05 lower end of conduction vertical axis precision column, 05 top of conduction vertical axis precision column is equipped with level of conduction axis precision block 06, horizontal linearity electronics shiftable clamps 07, measuring force adjustment system 08, driver water are installed in 06 piece of level of conduction axis precision Flat axis main shaft 10, scan arm 11 and electronic probe 17 are connected with the cause across housing face-plate 12 on driver trunnion axis main shaft 10 Dynamic device trunnion axis 09,11 end of scan arm are equipped with fixed on duplex scanning probe 15, with the housing face-plate 12 of controller homonymy Gauge fixture support 13 is installed, replaceable gauge fixture 14, replaceable gauge folder are movably installed in gauge fixture support 13 It is placed on tool 14 and is calibrated gauge 16, be equipped on controller and 11 corresponding pusher 18 of scan arm.

As shown in figure 3, scanning probe 15 in one plane moves, the X which is formed by level of conduction axis precision 06 It is determined in the Y-axis and X-Y plane that axis, conduction vertical axis precision column 05 are formed around the rotation of hinge 19, the plane is sweeping Retouch plane.

The measuring method of the above-mentioned accurate device for measuring big dens in dente diameter, includes the following steps：

1 is clamped in the setting gauge with accurate alignment diameter in the support of replaceable gauge fixture between two parties, and scanning is visited Needle carries out the scanning of certain length in the upper side and lower side in the hole of setting gauge, to determine the diameter of setting gauge；

2, which will be calibrated gauge, is clamped on replaceable gauge fixture, and be calibrated gauge is centrally located in replaceable amount On the hole for advising fixture so that be calibrated center line opposite, the scanning parallel with the plane of scanning motion that scanning probe is formed in the hole of gauge Probe carries out the scanning of certain length in the upper side and lower side in the hole for being calibrated gauge, to determine to be calibrated the diameter of gauge；

3 will set gauge and be calibrated the diameter progress accurately calculating of gauge.

Embodiment 1：Measurement of the device for accurately measuring to parallel circle cylindrical objects (ring gauge and ring screw gauge)

1 is clamped in the setting ring gauge 22 with accurate alignment diameter Dir-kal the support of replaceable gauge fixture between two parties On 24, scanning probe 15 carries out the scanning of certain length in the upper side and lower side in the hole of setting ring gauge 22, and scanning probe 15 passes through Two centering edges 21 of inside diameter on 24 is supported to realize, complete the check gauge calibration of setting ring gauge 22, to determine to set The diameter of ring gauge 22；

2, which will be calibrated gauge, is clamped on replaceable gauge fixture, and be calibrated gauge is centrally located in replaceable amount On the hole for advising fixture so that be calibrated center line opposite, the scanning parallel with the plane of scanning motion that scanning probe is formed in the hole of gauge Probe carries out the scanning of certain length in the upper side and lower side in the hole for being calibrated gauge, to determine to be calibrated the diameter Dir- of gauge meet；

3 will set gauge and be calibrated the diameter progress accurately calculating of gauge, it can thus be concluded that going out diameter Dir-meet The value less than normal than the diameter Dir-kal of setting ring gauge 22, difference diametrically is exactly off-centered result：Eccentric correction EXint,

EXint=Dir-kal-Dir-meet；Formula 1

Then in same support, a ring gauge or ring screw gauge are measured, and the diameter Dint of measured object is with setting The diameter Dir-kal sizes for determining ring gauge 22 are the same.

Due to support 24 and the structures of two centering edges 21, be tested the center line of gauge and the distance of the plane of scanning motion 20 and The distance measured in check gauge calibration process is equal.

Because it is equal mode that support is basis measures the eccentricity under both of these case in check gauge calibration with reality It is all less than normal when the diameter Dir-meet of measured ring gauge or ring screw gauge can be with measuring setting ring gauge come what is constructed, because The diameter of this measurement object can be corrected by adding the numerical value Exint of eccentric correction：

Dint=Dint-meet+EXint (formula 2)；

Embodiment 2：Device for accurately measuring is to parallel circle cylindrical objects external object (smooth surface feeler gauge, plug thread gauge and axis) Measurement

Such as Fig. 8, measurement object such as parallel cylinder plug thread gauge and smooth surface axis can be centered and clamp according to outer dia, right Measuring method used in above-mentioned two-dimensional scanner, center line and central plane 25 and the scanning probe 15 of measurement object 27 move The dynamic plane of scanning motion 20 is parallel opposite, is realized by supporting two centering planes 28 of outer dia in support, gather around there are two The support of centering plane 28 can be replaced, therefore it can repeat to replace on the scanner.

Two centering planes 28 form a V planes, divide equally face with scan probe can move and as far as possible coincide sweep It is parallel opposite to retouch plane 20, also on face is divided equally, two centering planes 28 are vertically firmly mounted to the center line of measurement object On installing plate 26, installing plate 26 is perpendicular to the plane of scanning motion 20.

It as internal measurement, first has to carry out check gauge calibration, before externally measured object is measured, one has essence Really the setting feeler gauge of calibration diameter Dpk-kal can be centered on above-mentioned V supporting planes, clamped and measured, setting feeler gauge 27 Center line is parallel with the plane of scanning motion 20 that scanning probe 15 moves opposite, and the outer dia for setting feeler gauge is tested by central point Amount, the result is that putative.(Fig. 8)

Scan probe the plane of scanning motion 20 with set feeler gauge center line be completely superposed, but with the centerline parallel phase Right, the measurement diameter Dpk-meet for setting feeler gauge can be less than diameter Dpk-kal, and the outer dia for positioning feeler gauge is attached in central point It is measured closely rather than by central point.(Fig. 9)

The difference between diameter Dpk-meet and the actual alignment diameter Dpk-kal for setting feeler gauge is measured by eccentric offset It is determined：The distance between the center line of feeler gauge 27 and the plane of scanning motion 20 of measuring instrument is set to be referred to as：Eccentric correction EXext

EXext=Dpk-kal-Dpk-meet (formula 3)；

Hereafter, measurement object can be centered in above-mentioned support, clamped and carried out external scan.Therefore, measurement object The distance of center line and the measuring instrument plane of scanning motion sets feeler gauge center line and the measuring instrument plane of scanning motion with previously measured Apart from identical.

If the outer dia of measurement object and the diameter Dpk-kal deviations of setting feeler gauge are little, then eccentric correction The value of EXext is substantially equal.

If the outer dia of measurement object and the diameter Dpk-kal deviations of setting feeler gauge are very big, EXext can pass through letter Single method of geometry is corrected, and two-dimensional scanner measures the outer dia Dext-meet of measurand, therefore measurand Practical outer dia can be corrected by eccentric offset：

Dext=Dext-meet+EXext (formula 4)

Embodiment 3：Measurement of the device for accurately measuring to taper thread's plug guage

When measurement object is taper thread's plug guage or tapered thread ring gauge, eccentricity is no longer constant, is spiral shell to be depended on The taper and screw pitch of line, this will be supported to measure proof by a taper thread's plug guage with meeting the V of Fig. 8 and 9.

If Figure 10 is the schematic diagram of a tapered thread feeler gauge with external gauge taper Tmm/mm and screw pitch p.

In the schematic diagram, the helix only at the top of profile is drawn and only has and connect at the top of profile with centering plane 28 It touches, feeler gauge is placed in the support 29 of above-mentioned band V planes, and the angle between two centering planes 28 is β.

Cone gage is measured on two-dimensional scanner, surface side 31 is to determine the surface gage 32 of outer diameter, internal diameter and central diameter Axially position reference plane, the surface side 31 of taper thread's plug guage is crushed in support, and the center line of feeler gauge can be swept with two dimension The X-axis for retouching instrument is parallel, therefore without the air gap；When surface side 31 is crushed in support, feeler gauge needs to be displaced to two V In plane, for helix respectively with the A points and B point contacts in two V planes, radius is R1 and R2 at the top of profile.

Angle ∠ AQB between center and point of contact A and B are α=180 °-β,

A is to the distance in direction with B axle：AX=p α/360,

Since taper Tmm/mm, the length difference Δ R between R1 and R2 are：Δ R=R1-R2=AXT/2；

The center line of cylinder gauge is located on central plane 25, and the center Δ EX of taper thread's plug guage is located at central plane Distance, delta EX between the central plane 25 of 25 side, gauge center Q and two V planes is also the position for setting feeler gauge central point It puts, obtains：Δ EX=AK-BL, i.e.,：

AK=R1sin (α/2),

BL=R2sin (α/2),

Δ EX=(R1-R2) sin (α/2)=AXT/2sin (α/2),

Δ EX=p (180 ° of-β) Tsin ((180 ° of-β)/2)/720；

Embodiment 4：Measurement of the device for accurately measuring to tapered tread ring gauge

As shown in Figure 11~14, the plane of scanning motion in support 20 symmetrically placed two supports cone 33, support the taper of cone with The nominal taper T of measured tapered tread is consistent.

Two are supported cone to meet the following conditions：

1) taper is consistent with by the nominal taper T of measured tapered tread；

2) support that cone is symmetrical in minute surface for two, wherein mirror plane is parallelly relative to the plane of scanning motion of scanning probe movement；

3) support the central axis of cone in support for two, the center line of cone gage will by this by parallel orientation in survey The X-axis of measuring appratus；

4) the different tapers of screw thread have been standardized, and each taper is required for some relevant support cones every time；

5) support cone can be truncated；

6) cylindrical part 35 of the cone tool there are one concentric parallel is supported, so as to the check gauge in being calibrated to check gauge Accurately felt relieved.

In addition, the eccentric of alignment settings feeler gauge 27 must be consistent with the bias of taper thread's plug guage 30, by being attached against branch Two in support are supported the parallel circle cylindrical section 35 of cone 33 to realize, the center line of parallel circle cylindrical section 35 is relative to support The center line true concentric of cone 33.

Claims (2)

1. a kind of accurate device for measuring big dens in dente diameter, including rack, housing face-plate, conducts vertical axis precision column and controller, It is characterized in that, the housing face-plate is fixedly mounted on rack top side, it is another that the controller is movably arranged on rack top Side is longitudinally provided with frontal electronics shiftable clamps, actuator vertical axis and rear linear electron shiftable clamps in the rack, Actuator vertical axis is located among frontal electronics shiftable clamps and rear linear electron shiftable clamps, frontal electronics shiftable clamps It is stretched into inside housing face-plate with the output terminal of rear linear electron shiftable clamps, actuator vertical axis upper end is connected with across rack top The driver vertical axis main shaft at end, the both ends of the conduction vertical axis precision column are mounted on frontal electronics shiftable clamps and rear line Property electronics shiftable clamps output terminal, driver vertical axis main shaft is mounted among conduction vertical axis precision column lower end, the biography It leads vertical axis precision top end and level of conduction axis precision block is installed, horizontal linearity electronics is installed in level of conduction axis precision block Shiftable clamps, measuring force adjustment system, driver trunnion axis main shaft, scan arm and electronic probe, the driver trunnion axis master The actuator trunnion axis across housing face-plate is connected on axis, the scan arm end is equipped with duplex scanning probe, with control The support of gauge fixture is installed on the housing face-plate of device homonymy, replaceable gauge folder is movably installed in the support of gauge fixture Have, be placed on replaceable gauge fixture and be calibrated gauge, pusher corresponding with scan arm is installed on the controller.

2. a kind of measuring method of the as described in claim 1 device for accurately measuring big dens in dente diameter, which is characterized in that including with Lower step：

(1) the setting gauge with accurate alignment diameter is clamped between two parties in the support of replaceable gauge fixture, scans probe The scanning of certain length is carried out in the upper side and lower side in the hole of setting gauge, to determine the diameter of setting gauge；

(2) gauge will be calibrated to be clamped on replaceable gauge fixture, and be calibrated gauge is centrally located in replaceable gauge On the hole of fixture so that the center line for being calibrated the hole of gauge is parallel with the plane of scanning motion that scanning probe is formed opposite, and scanning is visited Needle carries out the scanning of certain length in the upper side and lower side in the hole for being calibrated gauge, to determine to be calibrated the diameter of gauge；

(3) gauge will be set and is calibrated the diameter progress accurately calculating of gauge.