CN110108182A - Measure synchronizer odd-side sliding gear collar aperture conical surface bounce gauge and method - Google Patents

Abstract

The invention belongs to field of machining, more particularly to a kind of measurement synchronizer odd-side sliding gear collar aperture conical surface bounce gauge and method, the method for solving existing measurement synchronizer odd-side sliding gear collar conical surface bounce, it measures the problem of time-consuming, heavy workload causes at high cost and measurement efficiency low and certain production scenes can not use three-dimensional coordinates measurement.Wherein cubing includes location panel, measuring rod, locking device and dial gauge；Tested synchronizer odd-side sliding gear collar is placed on the location panel；The lock pin interporal lacuna of the measuring rod and tested synchronizer odd-side sliding gear collar cooperates, and interstice coverage is 0~0.09mm；First through hole and the second through-hole with first through hole perforation are offered on the measuring rod；After dial gauge insertion first through hole with tested synchronizer odd-side sliding gear collar aperture taper-face contact；The locking device is arranged in the second through-hole for fastening dial gauge.

Description

Measure synchronizer odd-side sliding gear collar aperture conical surface bounce gauge and method

Technical field

The invention belongs to field of machining, in particular to a kind of measurement synchronizer odd-side sliding gear collar aperture conical surface bounce Cubing and method.

Background technique

With the increase of the market demand, pin-type synchronizer class part more and more moves towards market.Synchronizer part Quality is directly related to the comfort of user's gear shift operation, the conical surface phase in many influence factors, with lock pin cooperation Runout error to its hole is to be easiest to the big factor of ignored one.

As depicted in figs. 1 and 2, existing synchronizer odd-side sliding gear collar 06 include with transmission shaft cooperation spline tooth set 01, With the gear ring 04 and support ring flat-plate 05 of power shift gear cooperation, spline tooth set 01 is co-axially located in gear ring 04, and passes through support Ring flat-plate 05 connects, and the end face that spline tooth set 01 stretches out gear ring 04 is the convex surface of synchronizer odd-side sliding gear collar, i.e. A (flower in Fig. 2 The upper surface of key teeth set 01) be synchronizer odd-side sliding gear collar convex surface, B (spline tooth set 01 lower end surface) is synchronizer odd-side The concave surface of sliding gear collar, support ring flat-plate 05 on be provided with 6 or 9 locking pin holes 02, wherein 3 locking pin holes 02 face it is recessed Face side aperture has the chamfering conical surface 03, and uniformly distributed distribution；Remaining locking pin hole 02 faces convex surface side aperture and bores with chamfering Face 03, the technique requirement conical surface have the bounce requirement of 0.1mm relative to lock pin axially bored line.

The measurement that the conical surface is beated relative to lock pin axially bored line, generallys use three-dimensional coordinates measurement, measures a synchronizer pair The bounce of 6 locking pin holes of case sliding gear collar part needs 15 minutes；Measure a synchronizer odd-side sliding gear collar part 9 locks The bounce in shotpin hole needs 20 minutes.Although this measurement method measurement is accurate, it is difficult in certain production scenes using three The measurement of coordinates conical surface is beated relative to lock pin axially bored line, and time-consuming, heavy workload for measurement, leads at high cost and measurement effect Rate is low.

Summary of the invention

Method in order to solve existing measurement synchronizer odd-side sliding gear collar conical surface bounce, time-consuming, workload for measurement Cause at high cost and measurement efficiency low greatly and the problem of certain production scenes can not be using three-dimensional coordinates measurement.The present invention provides A kind of detection method of measurement synchronizer odd-side sliding gear collar aperture conical surface bounce gauge and the cubing.

To achieve the above object, present invention provide the technical scheme that

A kind of measurement synchronizer odd-side sliding gear collar aperture conical surface bounce gauge is characterized in that flat including positioning Plate, measuring rod, locking device and dial gauge；Tested synchronizer odd-side sliding gear collar is placed on the location panel；The measurement The lock pin interporal lacuna of bar and tested synchronizer odd-side sliding gear collar cooperates, and interstice coverage is 0~0.09mm；On the measuring rod Offer first through hole and the second through-hole with first through hole perforation；It is synchronous with being tested after the dial gauge insertion first through hole Device odd-side sliding gear collar aperture taper-face contact；The locking device is arranged in the second through-hole for fastening dial gauge.

Further, the face that the location panel is contacted with the concave surface of tested synchronizer odd-side sliding gear collar is upper surface, The upper surface middle part is equipped with protrusion；The protrusion need to meet following relationship:

H > H1-H2

Wherein, H is the height of protrusion, and H1 is that the spline tooth of tested synchronizer odd-side sliding gear collar puts on end face to support ring The distance of plate upper surface, H2 be tested synchronizer odd-side sliding gear collar spline tooth set lower end surface to support ring flat-plate lower end surface away from From.

Further, the central axes of the first through hole are vertical with the tested synchronizer odd-side sliding gear collar aperture conical surface.

Further, there are two series, one of measurement series bar and tested synchronizer odd-sides to slide for the measuring rod The lock pin interporal lacuna of tooth set is 0~0.065mm, the locking of another measurement series bar and tested synchronizer odd-side sliding gear collar Pin hole gap is 0.065~0.09mm.

Further, the first through hole is vertical with the second through-hole.

Further, the location panel surface is equipped with blind hole.

Further, the lower surface of the location panel is provided with annular groove.

Meanwhile the bounce of the synchronizer odd-side sliding gear collar aperture conical surface is measured using above-mentioned cubing the present invention provides a kind of Method is characterized in that, comprising the following steps:

1) it is tested the detection of the convex surface locking pin hole aperture conical surface of synchronizer odd-side sliding gear collar

1,1) upper surface of location panel is upward placed；

1,2) synchronizer odd-side sliding gear collar is tested to be placed on location panel, and tested synchronizer odd-side sliding gear collar Concave surface is supported in the protrusion of location panel；

1,3) corresponding measuring rod is selected according to the pore size of the convex surface locking pin hole that is tested synchronizer odd-side sliding gear collar, And measuring rod is inserted into tested synchronizer odd-side sliding gear collar locking pin hole；

1,4) first through hole dial gauge insertion measuring rod on after, the convex surface locking with tested synchronizer odd-side sliding gear collar Pin hole aperture taper-face contact, locking device setting fix dial gauge in the second through-hole；

1,5) dial gauge is returned to zero, wheel measuring bar one week, observation dial gauge registration variation, percentage meter reading maximum value with The difference of minimum value is the jitter values of the convex surface locking pin hole aperture conical surface of tested synchronizer odd-side sliding gear collar；

2) tested synchronizer odd-side sliding gear collar and location panel are overturn

Tested synchronizer odd-side sliding gear collar and location panel are overturn, places the upper surface of location panel downward, and by The convex surface for surveying synchronizer odd-side sliding gear collar is supported on the lower surface of location panel；

3) it is tested the detection of the concave surface locking pin hole aperture conical surface of synchronizer odd-side sliding gear collar

3,1) corresponding measuring rod is selected according to the pore size of the concave surface locking pin hole that is tested synchronizer odd-side sliding gear collar, And measuring rod is inserted into tested synchronizer odd-side sliding gear collar locking pin hole；

3,2) first through hole dial gauge insertion measuring rod on after, the concave surface locking with tested synchronizer odd-side sliding gear collar Pin hole aperture taper-face contact, locking device setting fix dial gauge in the second through-hole；

3,3) dial gauge is returned to zero, wheel measuring bar one week, observation dial gauge registration variation, percentage meter reading maximum value with The difference of minimum value is the jitter values of the concave surface locking pin hole aperture conical surface of tested synchronizer odd-side sliding gear collar.

Compared with prior art, the invention has the advantages that

1, cubing of the invention is made of location panel, measuring rod, locking device, dial gauge, by by tested synchronizer Odd-side slide teeth is set on location panel, measuring rod is inserted into the locking pin hole of tested synchronizer odd-side sliding gear collar, It is fixed in first through hole on dial gauge insertion measuring rod by locking device, the gauge outfit of dial gauge compresses tested synchronizer odd-side Measuring rod is rotated a circle and completes conical surface glitch detection by the conical surface in sliding gear collar aperture, and present invention measurement is easy to operate, is being processed Scene can monitor beat size in real time, improve the detection of product qualification rate, while decrease the work of three-dimensional coordinates measurement Amount drops this cost and increases detection efficiency.

2, the present invention is equipped with protrusion on location panel, by the spline tooth set of the concave surface of tested synchronizer odd-side sliding gear collar It is supported on location panel, it can be by a location panel to the concave and convex surface hole prostomum of tested synchronizer odd-side sliding gear collar The measurement of face bounce.

3, the gauge outfit of dial gauge of the invention is vertical with the tested synchronizer odd-side sliding gear collar locking pin hole aperture conical surface, surveys Accuracy of measurement is high.

4, there are two series for the size of measuring rod of the present invention, and suitable measurement can be selected according to the actual size of locking pin hole Bar, so that precision is high.

5, the present invention on location panel be equipped with blind hole, when measuring rod when not used, will there is blind hole side to place upward, measure Bar is inserted into blind hole, facilitates management.

6, measurement method of the invention, according to the convex surface of tested synchronizer odd-side sliding gear collar or concave surface selective positioning plate Upper surface or following table it is face-up, tested synchronizer odd-side sliding gear collar is placed on location panel, according to locking pin hole size Measuring rod is selected, makes on gauge outfit contact hole prostomum face and guarantees that in range ability, dial gauge is fixed for indicator, dial gauge zeroing Afterwards, wheel measuring bar one week, observation dial gauge registration variation, obtains the jitter values on convex surface or the concave surface aperture conical surface, afterwards turns over Tested synchronizer odd-side sliding gear collar and location panel, measure the jitter values of the other one side aperture conical surface, flat using a positioning The cooperation of plate and measuring rod, locking device, dial gauge can measure the concave surface or convex surface aperture of tested synchronizer odd-side sliding gear collar The jitter values of the conical surface, it is easy to operate.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of existing synchronizer odd-side sliding gear collar；

Fig. 2 is the cross-sectional view of existing synchronizer odd-side sliding gear collar；

Fig. 3 is the structural schematic diagram of location panel in cubing of the present invention；

Fig. 4 is the bottom view of Fig. 3；

Fig. 5 is the structural schematic diagram of measuring rod in invention cubing；

Fig. 6 is the top view of Fig. 5；

Fig. 7 is the installation diagram one of cubing of the present invention and tested synchronizer odd-side sliding gear collar；

Fig. 8 is the installation diagram two of cubing of the present invention and tested synchronizer odd-side sliding gear collar.

Wherein, appended drawing reference is as follows:

01- spline tooth set, 02- locking pin hole, the 03- chamfering conical surface, 04- gear ring, 05- support ring flat-plate, A- synchronizer odd-side The convex surface of sliding gear collar, the concave surface of B- synchronizer odd-side sliding gear collar, 06- synchronizer odd-side sliding gear collar；

1- measuring rod, 11- first through hole, the second through-hole of 12-, 2- locking device, 3- dial gauge, 4- location panel, 41- are convex It rises, 42- annular groove, 43- blind hole.

Specific embodiment

The present invention is described in further detail with reference to the accompanying drawings and examples.

As shown in Figures 3 to 6, a kind of measurement synchronizer odd-side sliding gear collar aperture conical surface bounce gauge, including positioning are flat Plate 4, measuring rod 1, locking device 2 and dial gauge 3；Tested synchronizer odd-side sliding gear collar 06 is placed on location panel 4；Measuring rod 1 cooperates with the lock pin interporal lacuna of tested synchronizer odd-side sliding gear collar 06, and interstice coverage is 0~0.09mm；It is opened on measuring rod 1 Equipped with first through hole 11 and the second through-hole 12 penetrated through with first through hole 11；Dial gauge 3 is inserted into after first through hole 11 and tested The taper-face contact in 06 locking pin hole aperture of synchronizer odd-side sliding gear collar；Locking device 2 is arranged in the second through-hole 12 for tight Gu dial gauge 3, locking device 2 is preferably screw, and screw can select mill headed screw.

The face that location panel 4 is contacted with the concave surface B of tested synchronizer odd-side sliding gear collar is upper surface, in the upper surface Portion is equipped with protrusion 41, and the height H of the protrusion is equal to H1-H2；

Wherein, defining the face E is the upper surface for supporting ring flat-plate 05, and the face F is the lower end surface for supporting ring flat-plate 05, and the face A is spline tooth The upper surface of set 01, the face B are the lower end surface of spline tooth set 01；

H1 is distance of the face A to the face E, and H2 is distance of the face B to the face F.

When the gauge outfit of dial gauge 3 is vertical with the conical surface in tested 06 locking pin hole aperture of synchronizer odd-side sliding gear collar, measurement Precision is high, since the chamfering conical surface in usual synchronizer odd-side sliding gear collar aperture is 60 degree, 11 axis of first through hole and survey The angle of 1 axis of gauge rod is preferably 30 degree, so that the central axes of the table bar of dial gauge 3 are vertical with the conical surface, measurement result is most accurate.

Measuring rod is provided with notch along axis in the present embodiment, and the bottom surface of notch is the plane for being parallel to measurement rod axis, and Notch is located at the corresponding position in first through hole lower end surface, so that the chamfering conical surface of dial gauge and synchronizer odd-side sliding gear collar aperture Contact position is adjustable.

The cubing of the present embodiment includes the measuring rod of 2 sizes, and the selection of measuring rod is located at tested same according to the aperture conical surface Walk the protrusion in the concave surface perhaps aperture and location panel of convex surface concave surface or convex surface locking pin hole of device odd-side sliding gear collar Highly, measuring rod should ensure that with locking pin hole be clearance fit, and the bottom of measuring rod is contacted with location panel in measurement； Each measuring rod 1 can have multiple diameter different series, usually two series, and measuring rod 1 and tested synchronizer odd-side slide The locking pin hole of tooth set 06 is clearance fit, the lock of one of measurement series bar 1 and tested synchronizer odd-side sliding gear collar 06 Shotpin interporal lacuna is 0~0.065mm, the locking pin hole of another measurement series bar 1 and tested synchronizer odd-side sliding gear collar 06 Gap is 0.065~0.09mm, and when measurement preferentially selects gap small, clamping stagnation occurs when if rotating after being packed into, then select gap Big measuring rod 1.

The present embodiment is equipped with bushing in the first through hole 11 that measuring rod 1 is used to fix dial gauge 3, avoids dial gauge 3 Friction is contacted between 1 first through hole 11 of measuring rod, is reduced the damage to dial gauge 3 and is played the role of protecting dial gauge 3；Positioning Plate 4 be equipped with blind hole 43, when measuring rod 1 when not used, will there is 43 side of blind hole to place upward, measuring rod 1 be inserted into blind hole 43 in, Facilitate management.The preferred first through hole 11 of the present embodiment is vertical with the second through-hole 12.

It is face-up in order to facilitate the upper surface or following table of conversion location panel 4, ring is provided in the lower surface of location panel 4 Connected in star 42.

Present embodiments provide a kind of side using the measurement synchronizer odd-side sliding gear collar aperture conical surface bounce of above-mentioned cubing Method, comprising the following steps:

1) it is tested the detection of the 06 convex surface locking pin hole aperture conical surface of synchronizer odd-side sliding gear collar

As shown in fig. 7,1,1) upper surface of location panel 4 placed upward；

1,2) it is tested synchronizer odd-side sliding gear collar 06 to be placed on location panel 4, and tested synchronizer odd-side slide teeth The face B of set is supported in the protrusion 41 of location panel 4；

1,3) corresponding measuring rod is selected according to the pore size that is tested synchronizer odd-side sliding gear collar 06 convex surface locking pin hole 1, and measuring rod 1 is inserted into tested synchronizer odd-side sliding gear collar locking pin hole；

There are two sizes for measuring rod, and one of measuring rod diameter dimension and lock pin interporal lacuna are small, another measuring rod Diameter dimension is smaller, big with lock pin interporal lacuna, the measuring rod that when measurement preferentially selects gap small, occurs when if rotating after being packed into Clamping stagnation, then the measuring rod for selecting gap big；

1,4) first through hole 11 dial gauge 3 insertion measuring rod 1 on after with tested synchronizer odd-side sliding gear collar locking 5 convex Mill headed screw is selected in face pin hole aperture taper-face contact, the selection of locking device 2, and mill headed screw is arranged in the second through-hole 12 will Dial gauge 3 is fixed, fits closely in the side of dial gauge 3 and the first through hole 11 of measuring rod 1；The range of dial gauge 3 in 0-5, And when 3 gauge outfit of dial gauge contacts the conical surface in tested synchronizer odd-side sliding gear collar locking pin hole aperture, indicator is in 3 amount of dial gauge In journey, and the selected measuring rod should ensure that its bottom is contacted with location panel 4.

1,5) dial gauge 3 is returned to zero, wheel measuring bar 1 one weeks, observation 3 registration of dial gauge variation, dial gauge 3 read maximum The difference of value and minimum value is the jitter values of the tested 06 convex surface locking pin hole aperture conical surface of synchronizer odd-side sliding gear collar；

2) tested synchronizer odd-side sliding gear collar 06 and location panel 4 are overturn

Tested synchronizer odd-side sliding gear collar 06, location panel 4 are overturn, places the upper surface of location panel 4 downward, and The face A of tested synchronizer odd-side sliding gear collar is supported on the lower surface of location panel 4；

3) it is tested the detection of the 06 concave surface locking pin hole aperture conical surface of synchronizer odd-side sliding gear collar

As shown in figure 8, the 3,1) pore size that basis is tested 06 concave surface locking pin hole of synchronizer odd-side sliding gear collar selects Corresponding measuring rod 1, and measuring rod 1 is inserted into tested synchronizer odd-side sliding gear collar locking pin hole；

There are two sizes for measuring rod, and one of measuring rod diameter dimension and lock pin interporal lacuna are small, another measuring rod Diameter dimension is smaller, big with lock pin interporal lacuna, the measuring rod that when measurement preferentially selects gap small, occurs when if rotating after being packed into Clamping stagnation, then the measuring rod for selecting gap big；

3,2) after dial gauge 3 is inserted into the first through hole 11 on measuring rod 1, with tested 06 concave surface of synchronizer odd-side sliding gear collar Mill headed screw is selected in locking pin hole aperture taper-face contact, the selection of locking device 2, and mill headed screw is arranged in the second through-hole 12 Dial gauge 3 is fixed, it is fitted closely in the side of dial gauge 3 and the first through hole 11 of measuring rod 1；The range of dial gauge 3 is in 0- 5, and when the conical surface in the tested synchronizer odd-side sliding gear collar locking pin hole aperture of 3 gauge outfit of dial gauge contact, indicator is in dial gauge 3 In range, and the selected measuring rod should ensure that its bottom is contacted with location panel 4.

3,3) dial gauge 3 is returned to zero, wheel measuring bar 1 one weeks, observation 3 registration of dial gauge variation, dial gauge 3 read maximum The difference of value and minimum value is the jitter values of the tested 06 concave surface locking pin hole aperture conical surface of synchronizer odd-side sliding gear collar.

The measurement method of the present embodiment uses one by overturning tested synchronizer odd-side sliding gear collar 06 and location panel 4 The cooperation of a location panel and measuring rod, locking device, dial gauge is, it can be achieved that tested synchronizer odd-side sliding gear collar 06 is measured The jitter values of the concave and convex surface aperture conical surface, it is easy to operate；In measuring rod rotary course, in order to guarantee tested synchronizer odd-side Sliding gear collar 06 and location panel 4 will not generate corresponding movement, by tested synchronizer odd-side sliding gear collar 06 and be determined using buckle Position plate 4 is fixed, improves the accuracy of measurement.

Claims (8)

1. a kind of measurement synchronizer odd-side sliding gear collar aperture conical surface bounce gauge, it is characterised in that: including location panel (4), Measuring rod (1), locking device (2) and dial gauge (3)；

Tested synchronizer odd-side sliding gear collar (06) is placed on the location panel (4)；

The lock pin interporal lacuna of the measuring rod (1) and tested synchronizer odd-side sliding gear collar (06) cooperates, and interstice coverage is 0~ 0.09mm；

First through hole (11) and the second through-hole (12) with first through hole (11) perforation are offered on the measuring rod (1)；

The dial gauge (3) insertion first through hole (11) afterwards with tested synchronizer odd-side sliding gear collar (06) aperture taper-face contact；

Locking device (2) setting is in the second through-hole (12) for fastening dial gauge (3).

2. measuring synchronizer odd-side sliding gear collar aperture conical surface bounce gauge according to claim 1, it is characterised in that:

The face that the location panel (4) contacts with the concave surface (B) of tested synchronizer odd-side sliding gear collar is upper surface, the upper table Middle face is equipped with raised (41)；The protrusion (41) need to meet following relationship:

H > H1-H2

Wherein, H is the height of raised (41)；

H1 is spline tooth set (01) upper surface to support ring flat-plate (05) upper surface of tested synchronizer odd-side sliding gear collar (06) Distance；

H2 be tested synchronizer odd-side sliding gear collar (06) spline tooth set (01) lower end surface to support ring flat-plate (05) lower end surface away from From.

3. measuring synchronizer odd-side sliding gear collar aperture conical surface bounce gauge according to claim 1, it is characterised in that: described The central axes of first through hole (11) are vertical with tested synchronizer odd-side sliding gear collar (06) the aperture conical surface.

4. according to claim 1 or 2 or 3 measurement synchronizer odd-side sliding gear collar aperture conical surface bounce gauges, feature exist In: there are two series, the locks of one of measurement series bar and tested synchronizer odd-side sliding gear collar (06) for the measuring rod (1) Shotpin interporal lacuna is 0~0.065mm, the locking pin hole of another measurement series bar and tested synchronizer odd-side sliding gear collar (06) Gap is 0.065~0.09mm.

5. measuring synchronizer odd-side sliding gear collar aperture conical surface bounce gauge according to claim 4, it is characterised in that: described First through hole (11) is vertical with the second through-hole (12).

6. measuring synchronizer odd-side sliding gear collar aperture conical surface bounce gauge according to claim 5, it is characterised in that: described Location panel (4) surface is equipped with blind hole (43).

7. measurement synchronizer odd-side sliding gear collar aperture according to claim 6 conical surface bounce gauge, it is characterised in that: institute The lower surface for stating location panel (4) is provided with annular groove (42).

8. using the method for the measurement synchronizer odd-side sliding gear collar aperture conical surface bounce of cubing described in claim 7, feature exists In, comprising the following steps:

1) it is tested the detection of synchronizer odd-side sliding gear collar (06) convex surface locking pin hole aperture conical surface

1,1) upper surface of location panel (4) is upward placed；

1,2) it is tested synchronizer odd-side sliding gear collar (06) to be placed on location panel (4), and tested synchronizer odd-side slide teeth The concave surface (B) of set is supported in the protrusion (41) of location panel (4)；

1,3) corresponding measuring rod is selected according to the pore size of the convex surface locking pin hole that is tested synchronizer odd-side sliding gear collar, and will Measuring rod (1) is inserted into tested synchronizer odd-side sliding gear collar (06) locking pin hole；

1,4) first through hole (11) dial gauge (3) insertion measuring rod on after, the convex surface with tested synchronizer odd-side sliding gear collar Locking pin hole aperture taper-face contact, locking device (2) setting are fixed by dial gauge (3) in the second through-hole (12)；

1,5) dial gauge (3) are returned to zero, wheel measuring bar (1) one week, observation dial gauge (3) registration variation, dial gauge (3) reading The difference of maxima and minima is the jitter values of tested synchronizer odd-side sliding gear collar (06) convex surface locking pin hole aperture conical surface；

2) tested synchronizer odd-side sliding gear collar (06) and location panel (4) are overturn

Tested synchronizer odd-side sliding gear collar (06) and location panel (4) are overturn, makes the upper surface of location panel (4) towards decentralization It sets, and the convex surface (A) of tested synchronizer odd-side sliding gear collar is supported on the lower surface of location panel；

3) it is tested the detection of synchronizer odd-side sliding gear collar (06) concave surface locking pin hole aperture conical surface

3,1) corresponding measuring rod is selected according to the pore size that is tested synchronizer odd-side sliding gear collar (06) concave surface locking pin hole, and Measuring rod is inserted into tested synchronizer odd-side sliding gear collar locking pin hole；

3,2) it first through hole (11) dial gauge insertion measuring rod on after with tested synchronizer odd-side sliding gear collar (06) concave surface locks Shotpin hole aperture taper-face contact, locking device setting fix dial gauge in the second through-hole；

3,3) dial gauge is returned to zero, wheel measuring bar one week, observation dial gauge registration changed, percentage meter reading maximum value and minimum The difference of value is the jitter values of tested synchronizer odd-side sliding gear collar (06) concave surface locking pin hole aperture conical surface.