CN205403681U - Axiality detects frock - Google Patents

Abstract

The utility model relates to an axiality detects frock, including bottom plate and the swash plate is connected with the left margin of bottom plate, the swash plate is supreme to right bank from down, and the upper portion of swash plate is equipped with the second bar hole of in the past extending to the back, and the lower part of swash plate is equipped with the first bar hole of supreme extension under from, install two first location axle on the second bar hole, first location axle including the axle body, lie in the first spindle nose of axle body left end and lie in the second spindle nose of axle body right -hand member, the overhead single -row centripetal bearing of installing of the primary shaft, second spindle nose and second bar hole sliding fit, still include the second location axle of perpendicular to swash plate, the right -hand member of second location axle is equipped with the third spindle nose with first bar hole sliding fit, the left end face of single -row centripetal bearing equals the distance of the left end face of second location axle to the left side of swash plate to the distance on the left side of swash plate. The utility model discloses can reduce the cost that the ring gear axiality detected.

Description

A kind of axiality detection frock

Technical field

This utility model relates to the detection frock of gear ring, is specifically related to a kind of axiality detection frock.

Background technology

For detection, I takes charge of existing bigger gear ring product and need to detect the axiality of endoporus and cylindrical, and originally detecting this part needs to use three coordinate detectors, and three coordinate detectors are easy to use, quick, but cost is high, and are not that each enterprise can have.

Summary of the invention

The purpose of this utility model is to propose a kind of axiality detection frock, to reduce the cost of gear ring axiality detection.

A kind of axiality detection frock described in the utility model, the swash plate that left margin including base plate with described base plate is connected, described swash plate is tilted to the right from bottom to up, the top of described swash plate is provided with the second bar hole extended from front to back, and the bottom of described swash plate is provided with the first bar hole extended from bottom to up；Described second bar hole is provided with two the first locating shafts, described first locating shaft includes axle body, it is positioned at the first spindle nose of described axle body left end and is positioned at the second spindle nose of described axle body right-hand member, the diameter of described axle body is more than the diameter of the diameter of described first spindle nose and described second spindle nose, described first spindle nose is provided with single-row centripetal bearing, the external diameter of described single-row centripetal bearing is more than the diameter of described axle body, the thickness of described single-row centripetal bearing is more than the length of described first spindle nose, described second spindle nose and described second bar hole are slidably matched, the right side of described second spindle nose is connected to the first screw, described first screw is cased with the first packing ring, the external diameter of described first packing ring is more than the width of described second bar hole and is positioned at the right side of described swash plate, described axle body is positioned at the left side of described swash plate；Also include the second locating shaft being perpendicular to described swash plate, the right-hand member of described second locating shaft is provided with the 3rd spindle nose being slidably matched with described first bar hole, the right side of described 3rd spindle nose is connected to the second screw, described second screw is cased with the second packing ring, the external diameter of described second packing ring is more than the width of described first bar hole and is positioned at the right side of described swash plate, and described second locating shaft is positioned at the left side of described swash plate；The left side of described single-row centripetal bearing to the distance on the left side of described swash plate equal to the left side of described second locating shaft to the distance on the left side of described swash plate.

Further, the left side of described second locating shaft is provided with groove.

Further, being provided with gripper shoe between described base plate and described swash plate, described gripper shoe is perpendicular to described base plate and described swash plate.

Further, described second bar hole and described first bar hole distribution in T shape.

This utility model is for the architectural feature of gear ring, position by arranging the first bar hole, the second bar hole, two the first locating shafts and second locating shaft on swash plate and support gear ring, gear ring is placed on the periphery of two the first locating shafts and second locating shaft, single-row centripetal bearing on two the first locating shafts makes the gear ring can flexible rotating, the left side of the second locating shaft and the left side of single-row centripetal bearing coordinate with the bulge loop of gear ring inner plays support positioning action, and rotation gear ring can quickly be detected gear ring cylindrical and beat by dial gauge.This utility model cost is low, simple to operate, and detection efficiency is high.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model；

Fig. 2 is the left view of Fig. 1；

In figure: 1 base plate；2 gripper shoes；3 swash plates；4 first locating shafts；5 single-row centripetal bearings；6 second locating shafts；7 first bar holes；8 gear rings；9 first screws；10 first packing rings；11 second screws；12 second packing rings；13 second bar holes；14 bulge loops.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is described in further detail.

A kind of axiality detection frock as depicted in figs. 1 and 2, the swash plate 3 that left margin including base plate 1 with base plate 1 is connected, swash plate 3 is tilted to the right from bottom to up, and the top of swash plate 3 is provided with the second bar hole 13 extended from front to back, and the bottom of swash plate 3 is provided with the first bar hole 7 extended from bottom to up；Second bar hole 13 is provided with two the first locating shafts 4, first locating shaft 4 includes axle body, it is positioned at the first spindle nose of axle body left end and is positioned at the second spindle nose of axle body right-hand member, the diameter of the diameter of the axle body diameter more than the first spindle nose and the second spindle nose, first spindle nose is provided with single-row centripetal bearing 5, the external diameter of single-row centripetal bearing 5 is more than the diameter of axle body, the thickness of single-row centripetal bearing 5 is more than the length of the first spindle nose, second spindle nose and the second bar hole 13 are slidably matched, the right side of the second spindle nose is connected to the first screw 9, first screw 9 is cased with the first packing ring 10, the external diameter of the first packing ring 10 is more than the width of the second bar hole 13 and is positioned at the right side of swash plate 3, axle body is positioned at the left side of swash plate 3；Also include the second locating shaft 6 being perpendicular to swash plate 3, the right-hand member of the second locating shaft 6 is provided with the 3rd spindle nose being slidably matched with the first bar hole 7, the right side of the 3rd spindle nose is connected to the second screw 11, second screw 11 is cased with the second packing ring 12, the external diameter of the second packing ring 12 is more than the width of the first bar hole 7 and is positioned at the right side of swash plate 3, second locating shaft 6 is positioned at the left side of swash plate 3, and the left side of the second locating shaft 6 is provided with groove, to reduce the friction between left side and the gear ring 8 of the second locating shaft 6；The left side of single-row centripetal bearing 5 to the distance on the left side of swash plate 3 equal to the left side of the second locating shaft 6 to the distance on the left side of swash plate 3.Being provided with gripper shoe 2 between base plate 1 and swash plate 3, gripper shoe 2 is perpendicular to base plate 1 and swash plate 3.Preferred as one, the second bar hole 13 and the first bar hole 7 distribution in T shape.

During use, by regulating the position of two the first locating shafts 4 along the second bar hole 13, by regulating the position of the second locating shaft 6 along the first bar hole 7, the periphery finally making two single-row centripetal bearings 5 all contacts with the inner headed face of gear ring 8, bulge loop 14 contact with the left side of the left side of two single-row centripetal bearings 5, the second locating shaft 6 simultaneously, and then rotation gear ring 8 can quickly be detected gear ring 8 cylindrical and beats by dial gauge.

Up, down, left, right, before and after in present specification is all as the criterion with accompanying drawing 1.

Claims (4)

1. an axiality detection frock, it is characterized in that: include base plate (1) and swash plate (3) that the left margin with described base plate (1) is connected, described swash plate (3) is tilted to the right from bottom to up, the top of described swash plate (3) is provided with the second bar hole (13) extended from front to back, and the bottom of described swash plate (3) is provided with the first bar hole (7) extended from bottom to up；nullDescribed second bar hole (13) is provided with two the first locating shafts (4)，Described first locating shaft (4) includes axle body、It is positioned at the first spindle nose of described axle body left end and is positioned at the second spindle nose of described axle body right-hand member，The diameter of described axle body is more than the diameter of the diameter of described first spindle nose and described second spindle nose，Described first spindle nose is provided with single-row centripetal bearing (5)，The external diameter of described single-row centripetal bearing (5) is more than the diameter of described axle body，The thickness of described single-row centripetal bearing (5) is more than the length of described first spindle nose，Described second spindle nose and described second bar hole (13) are slidably matched，The right side of described second spindle nose is connected to the first screw (9)，Described first screw (9) is cased with the first packing ring (10)，The external diameter of described first packing ring (10) is more than the width of described second bar hole (13) and is positioned at the right side of described swash plate (3)，Described axle body is positioned at the left side of described swash plate (3)；Also include the second locating shaft (6) being perpendicular to described swash plate (3), the right-hand member of described second locating shaft (6) is provided with the 3rd spindle nose being slidably matched with described first bar hole (7), the right side of described 3rd spindle nose is connected to the second screw (11), described second screw (11) is cased with the second packing ring (12), the external diameter of described second packing ring (12) is more than the width of described first bar hole (7) and is positioned at the right side of described swash plate (3), and described second locating shaft (6) is positioned at the left side of described swash plate (3)；The left side of described single-row centripetal bearing (5) to the distance on the left side of described swash plate (3) equal to the left side of described second locating shaft (6) to the distance on the left side of described swash plate (3).

2. axiality according to claim 1 detection frock, it is characterised in that: the left side of described second locating shaft (6) is provided with groove.

3. axiality according to claim 1 detection frock, it is characterised in that: being provided with gripper shoe (2) between described base plate (1) and described swash plate (3), described gripper shoe (2) is perpendicular to described base plate (1) and described swash plate (3).

4. axiality according to claim 1 detection frock, it is characterised in that: described second bar hole (13) and described first bar hole (7) distribution in T shape.