CN206818090U - A kind of axle shaft gear glitch detection mould - Google Patents

Abstract

The utility model provides a kind of axle shaft gear glitch detection mould, it includes base, mould with teeth is set on the base, the die cavity to match in the tooth mould formed with the teeth portion shape with axle shaft gear to be detected, the lower end of the tooth mould is connected on the base through bearing to be rotated horizontally with realizing；The both sides of the tooth mould are respectively equipped with teeth portion detection means and axle portion detection means, wherein：The teeth portion detection means is used for the teeth portion bounce for detecting the axle shaft gear, and the axle portion detection means is used for the axle portion bounce for detecting the axle shaft gear.The utility model integrates teeth portion glitch detection and axle portion glitch detection, and it is realized detects to the teeth portion of shaft gear and the synchronous of axle portion, effectively improves detection efficiency, reduces testing cost.

Description

A kind of axle shaft gear glitch detection mould

Technical field

Gear detector is the utility model is related to, especially a kind of axle shaft gear glitch detection mould.

Background technology

Axle shaft gear is one of main parts size of automobile differential, and it includes teeth portion and axle portion.The system of axle shaft gear Make the overall performance that quality directly affects differential mechanism.After ensureing that the forging quality of axle shaft gear, axle shaft gear forge, Bounce that must be to its teeth portion and the bounce of axle portion are strictly detected.

In the prior art, it is necessary to detect the bounce of the bounce and axle portion of teeth portion respectively using two different detection moulds Property.

Utility model content

The utility model provides a kind of new axle shaft gear glitch detection mould, and it is capable of complete paired side gears The synchronous detection of teeth portion and axle portion, its concrete technical scheme are as follows：

A kind of axle shaft gear glitch detection mould, it is characterised in that：It includes base, and mould with teeth is set on the base, The die cavity to match in the tooth mould formed with the teeth portion shape with axle shaft gear to be detected, the lower end of the tooth mould are rotated Bearing is connected on the base, and the tooth mould can realize rotating freely in the horizontal direction；The both sides difference of the tooth mould Provided with teeth portion detection means and axle portion detection means, the teeth portion detection means is used for the teeth portion for detecting axle shaft gear to be detected Bounce, the axle portion detection means be used for detect axle shaft gear to be detected axle portion bounce.

Further, the teeth portion detection means includes the first fixed seat, the first dial gauge fix bar and the first dial gauge； First fixed seat is connected on the base, and one end of the first dial gauge fix bar is connected to first fixed seat Top and can be rotated upwardly and downwardly at the top of first fixed seat, the other end of the first dial gauge fix bar is freely End, first dial gauge, which is worn, to be connected on the free end of the first dial gauge fix bar；When the first dial gauge fix bar When being rotated up to the first precalculated position, the indicator of first dial gauge is away from the tooth mould；When the dial gauge fix bar When being swung down to the second precalculated position, the indicator of the dial gauge close to the tooth mould and can with the tooth mould The teeth portion contact of the axle shaft gear.

Further, the teeth portion detection means also includes the first located lateral block, and the first located lateral block is set Put between first fixed seat and the tooth mould；Make a reservation for when the first dial gauge fix bar is swung down to described second During position, the first dial gauge fixed rod support is in the top of the first located lateral block.

Further, the axle portion measurement apparatus includes the second fixed seat, the second dial gauge fix bar and the second dial gauge； Second fixed seat is connected on the base, and one end of the second dial gauge fix bar is connected to second fixed seat Top and can be rotated upwardly and downwardly at the top of second fixed seat, the other end of the second dial gauge fix bar is freely End, second dial gauge, which is worn, to be connected on the free end of the second dial gauge fix bar；When the second dial gauge fix bar When being rotated up to three precalculated positions, the indicator of second dial gauge is away from the tooth mould；When second dial gauge is consolidated When fixed pole is swung down to four precalculated position, the indicator of second dial gauge is described in the tooth mould with being arranged on The axle portion contact of axle shaft gear.

Further, the axle portion detection means also includes the second located lateral block, and the second located lateral block is set Put between second fixed seat and the tooth mould；Make a reservation for when the second dial gauge fix bar is swung down to the described 4th During position, the second dial gauge fixed rod support is in the top of the second located lateral block.

Compared with prior art, it is of the present utility model to have technical effect that：It collects teeth portion glitch detection and examined with axle portion bounce Survey, to realize and the teeth portion of shaft gear and the synchronous of axle portion are detected, effectively improve detection efficiency, reduce detection Cost.

Brief description of the drawings

Fig. 1 is the structural representation of axle shaft gear glitch detection mould of the present utility model in a specific implementation；

Fig. 1 includes base 1, screw 2, the first fixed seat 3, the first located lateral block 4, the first rotational pin 5, the first percentage Table fix bar 6, the first dial gauge 7, the first screw 8, axle shaft gear 9, the second screw 10, the second dial gauge 11, Two dial gauge fix bars 12, the second rotational pin 13, the second locating piece 14, the second fixed seat 15, tooth mould 16, swivel bearing 17.

Embodiment

For make above-mentioned purpose of the present utility model, feature and advantage, can be more obvious understandable, below in conjunction with the accompanying drawings and tool Body embodiment is described in further detail to the utility model.

As shown in figure 1, in a specific embodiment, the utility model proposes axle shaft gear detect mould, it includes Base 1 and the grade part of tooth mould 16.The mould to match in the tooth mould 16 formed with the teeth portion shape with axle shaft gear 9 to be detected Chamber.The rotated bearing 17 in lower end of the tooth mould 16 is connected on the base 1, and the tooth mould 16 can be realized in horizontal direction Rotate freely.

The both sides of the tooth mould 16 are respectively equipped with teeth portion detection means and axle portion detection means, and the teeth portion detection means is used In the bounce for the teeth portion for detecting the axle shaft gear 9, the axle portion detection means is used for the axle portion for detecting the axle shaft gear 9 Bounce.Wherein：

The teeth portion detection means includes the parts such as the first fixed seat 3, the first dial gauge fix bar 6 and the first dial gauge 7. First fixed seat 3 is connected on the base 1 by screw 2, first turn of one end of the first dial gauge fix bar 6 Dynamic pin 5 is connected to the top of first fixed seat 3 and can rotated upwardly and downwardly around the top of first fixed seat 3, described first The other end of dial gauge fix bar 6 is free end, and first dial gauge 7 is worn through the first screw 8 and is connected on the described 100th Divide on the free end of table fix bar 6.

When the first dial gauge fix bar 6 is rotated up to the first precalculated position, the indicator of first dial gauge 7 Away from the tooth mould 16.When the dial gauge fix bar 6 is swung down to the second precalculated position (operating position), the percentage The indicator of table 7 is close to the tooth mould 16 and can be contacted with the teeth portion of the axle shaft gear 9 in the tooth mould 16.

In order to support the first dial gauge fix bar 6, in the present embodiment, the teeth portion detection means also includes first Located lateral block 4, the first located lateral block 4 are arranged between first fixed seat 3 and the tooth mould 16.It is described to work as institute When stating the first dial gauge fix bar 6 and being swung down to the second precalculated position (operating position), first dial gauge is fixed Bar 6 is supported in the top of the first located lateral block 4.

The axle portion detection means includes the second fixed seat 15, the second dial gauge fix bar 12 and the second dial gauge 11.Institute The second fixed seat 15 is stated through mode connects for screw on the base 1, one end second of the second dial gauge fix bar 12 rotates Pin 13 is connected to the top of second fixed seat 15 and can rotated upwardly and downwardly around the top of second fixed seat 15, described second The other end of dial gauge fix bar 12 is free end, and second dial gauge 11 is worn through the second screw 10 and is connected on described second On the free end of dial gauge fix bar 12.

When the second dial gauge fix bar 12 is rotated up to three precalculated positions, the table of second dial gauge 11 Pin is away from the tooth mould 16.When the second dial gauge fix bar 12 is swung down to the 4th precalculated position (operating position), The indicator of second dial gauge 11 is close to the tooth mould 16 and can be with the axle portion of the axle shaft gear 9 in the tooth mould 16 Contact.

In order to support the second dial gauge fix bar 12, the axle portion detection means also includes the second located lateral block 14, the second located lateral block 14 is arranged between second fixed seat 15 and the tooth mould 16.When second percentage When table fix bar 12 is swung down to the 4th precalculated position (operating position), the second dial gauge fix bar 12 is supported in The top of the second located lateral block 14.

Please continue to refer to shown in Fig. 1, axle shaft gear detection mold use method of the present utility model is as follows：

(1) first, the assembling of axle shaft gear detection mould is completed by the above.

(2) the first dial gauge fix bar 6 of control is rotated up to the first precalculated position (left side of the rotational arrow B in such as Fig. 1 Shown in the dotted portion of side), while control the second dial gauge fix bar 12 to be rotated up to the 3rd precalculated position (in such as Fig. 1 turning Shown in dynamic arrow C right-hand end dotted portion)；Then the teeth portion of axle shaft gear 9 is loaded in the die cavity of tooth mould 16, and ensures half The teeth portion of shaft gear 9 and the die cavity of tooth mould 16 are at a fully engaged.

(3) the first dial gauge fix bar 6 of control is swung down to the 3rd precalculated position (right side of the rotational arrow B in such as Fig. 1 Shown in the bold portion of side) so that the teeth portion of the indicator contact axle shaft gear 9 of the first dial gauge 7；The second dial gauge is controlled to consolidate simultaneously Fixed pole 12 is swung down to the 4th precalculated position (as shown in the left side bold portion of the rotational arrow C in Fig. 1) so that the 200th Divide the axle portion of the indicator contact axle shaft gear 9 of table 11.Then tooth mould 16 is controlled to rotate, the first dial gauge 7 and the second dial gauge 11 Synchronously complete the teeth portion of axle shaft gear 9 and the glitch detection of axle portion.

The description with certain particularity detailed enough has been carried out to the utility model above.It is common in art It is to be understood by the skilled artisans that what the description in embodiment was merely exemplary, without departing from true spirit of the present utility model and All changes are made on the premise of scope should all belong to the scope of protection of the utility model.The utility model is claimed Scope is defined by described claims, rather than is limited by the foregoing description in embodiment.

Claims (5)

1. A kind of 1. axle shaft gear glitch detection mould, it is characterised in that：It includes base, and mould with teeth, institute are set on the base State the die cavity to match in tooth mould formed with the teeth portion shape with axle shaft gear to be detected, the rotated axle in lower end of the tooth mould Hold and be connected on the base, the tooth mould can realize rotating freely in the horizontal direction；

   The both sides of the tooth mould are respectively equipped with teeth portion detection means and axle portion detection means, and the teeth portion detection means is used to detect The bounce of the teeth portion of axle shaft gear to be detected, the axle portion detection means are used for the axle portion for detecting axle shaft gear to be detected Bounce.
2. 2. axle shaft gear glitch detection mould as claimed in claim 1, it is characterised in that：The teeth portion detection means includes the One fixed seat, the first dial gauge fix bar and the first dial gauge；

   First fixed seat is connected on the base, and one end of the first dial gauge fix bar is connected to described first and consolidated The top of reservation can simultaneously rotate upwardly and downwardly at the top of first fixed seat, and the other end of the first dial gauge fix bar is certainly By holding, first dial gauge, which is worn, to be connected on the free end of the first dial gauge fix bar；

   When the first dial gauge fix bar is rotated up to the first precalculated position, the indicator of first dial gauge is away from institute State tooth mould；When the dial gauge fix bar is swung down to the second precalculated position, the indicator of the dial gauge is close to the tooth Mould can simultaneously contact with the teeth portion of the axle shaft gear in the tooth mould.
3. 3. axle shaft gear glitch detection mould as claimed in claim 2, it is characterised in that：The teeth portion detection means also includes There is the first located lateral block, the first located lateral block is arranged between first fixed seat and the tooth mould；

   When the first dial gauge fix bar is swung down to second precalculated position, the first dial gauge fix bar branch Support in the top of the first located lateral block.
4. 4. axle shaft gear glitch detection mould as claimed in claim 1, it is characterised in that：The axle portion measurement apparatus includes the Two fixed seats, the second dial gauge fix bar and the second dial gauge；

   Second fixed seat is connected on the base, and one end of the second dial gauge fix bar is connected to described second and consolidated The top of reservation can simultaneously rotate upwardly and downwardly at the top of second fixed seat, and the other end of the second dial gauge fix bar is certainly By holding, second dial gauge, which is worn, to be connected on the free end of the second dial gauge fix bar；

   When the second dial gauge fix bar is rotated up to three precalculated positions, the indicator of second dial gauge is away from institute State tooth mould；When the second dial gauge fix bar is swung down to four precalculated positions, the indicator of second dial gauge with The axle portion contact of the axle shaft gear in the tooth mould.
5. 5. axle shaft gear glitch detection mould as claimed in claim 4, it is characterised in that：The axle portion detection means also includes There is the second located lateral block, the second located lateral block is arranged between second fixed seat and the tooth mould；

   When the second dial gauge fix bar is swung down to four precalculated position, the second dial gauge fix bar branch Support in the top of the second located lateral block.