KR101908020B1 - Apparatus for testing spline hub - Google Patents

Abstract

The present invention provides an apparatus for testing a spline hub to quickly and accurately test the whole processing completeness of a spline hub in a limited space. According to an embodiment of the present invention, the apparatus for testing a spline hub comprises: a mounting unit in which a spline hub is mounted in an upper portion; an internal diameter gauge inserted into a hollow portion of the spline hub in the center of the mounting unit to test a size of an internal diameter of the spline hub; and a thickness test unit arranged at one side of the mounting unit to test a thickness of an edge of the spline hub. The thickness test unit tests a thickness and an internal diameter of the spline hub by rotating the spline hub in a state of surrounding a portion of an edge of the spline hub.

Description

APPARATUS FOR TESTING SPLINE HUB

The present disclosure relates to a spline hub inspection apparatus, and relates to a spline hub inspection apparatus capable of easily and quickly inspecting a spline hub.

Unless otherwise indicated herein, the description set forth in this identification section is not prior art to the claims of this application and is not to be construed as prior art as described in this identification section.

One of the automatic transmission components, the Spline Hub, is a component mounted on the center of the turbine of the torque converter, which serves to transmit the power of the turbine to the input shaft of the transmission.

The spline hub is processed by a method such as a cutting process, and complicated shape and dimension control are important components. Since the spline hub greatly affects the quality and accuracy according to the processing technology, the inspection process is necessary after complicated processing.

Korean Patent Laid-Open Publication No. 10-2016-0100517 discloses a spline hub manufacturing method, and Korean Patent Registration No. 10-1526259 discloses a hub boss replaceable inspection tool of a spline hub plate for a clutch of an automobile. .

 However, the prior art discloses a manufacturing method and an inspection tool for a spline hub, but does not disclose a technique for conveniently and accurately checking the overall machining quality of the spline hub.

And a spline hub inspecting device for quickly and precisely inspecting the overall machining quality of the spline hub in a limited space.

Further, it is obvious that the present invention is not limited to the above-described technical problems, and another technical problem may be derived from the following description.

According to an embodiment of the disclosed subject matter, a spline hub inspection apparatus includes a mounting portion on which a spline hub is mounted at an upper portion thereof, an inner diameter gauge inserted into a hollow of the spline hub at the center of the mounting portion to check an inner diameter size of the spline hub; And a thickness checking unit disposed on one side of the mounting unit for checking the thickness of the edge of the spline hub, wherein the thickness checking unit surrounds a part of an edge of the spline hub to rotate the spline hub, Inspect the inner diameter at the same time.

The apparatus may further include a parallelism checking unit spaced apart from the mounting portion and the thickness checking portions and contacting the surface of the spline hub in a state in which the spline hub rotates to check the parallelism of the spline hub.

The thickness checking unit may include a gauge frame having a groove formed at one side by being recessed toward the other side, and a thickness gauge coupled to one side of the gauge frame and surrounding the edge of the spline hub.

In addition, the parallelism inspection unit may include a cradle formed to extend upward in the form of a rod, and a parallelism inspection unit coupled to the upper portion of the cradle through a clamp to be detachable or attachable.

The upper holder includes a rotor having a cylindrical shape and having an upper surface coupled to a portion of a bottom surface of the spline hub and a stator configured to surround the rotor, Upon detection of the mount, the rotor can be rotated.

The inner diameter gauge includes an insertion frame formed in a cylindrical shape, measurement projections engaging with gears formed on the hollow inner side surface of the spline hub at both sides of the insertion frame, And a motor for rotating the insertion frame.

According to one embodiment of the present disclosure, the spline hub inspection apparatus is advantageous in that the overall machining integrity of the spline hub can be inspected only by driving the spline hub conveniently after the spline hub has been machined and rotated.

In addition, the spline hub inspection apparatus has an advantage that it is possible to inspect the spline hub of various structures because it is easy to control and replace the positions of the devices for inspection of the spline hub.

In addition, the spline hub inspection device automatically detects the mounting of the spline hub and automatically rotates the spline hub through the internal motor to simultaneously check the thickness, parallelism and inner diameter of the spline hub.

In addition, since the effect of the present invention described above is obviously exerted by the constitution of contents described irrespective of whether or not the inventor perceives it, the effect described above is only some effects according to the contents described, Should not be recognized.

Further, the effect of the present invention should be grasped further by the entire description of the specification, and even if it is not stated in an explicit sentence, a person having ordinary skill in the art to which the written description belongs, It should be seen as an effect described in this specification.

1 is an exploded perspective view of a spline hub inspection apparatus according to an embodiment of the present disclosure;
Fig. 2 is a use state view of the spline hub inspection apparatus of Fig. 1. Fig.
3 is a cross-sectional view of the spline hub inspection apparatus of FIG.
4 is a cross-sectional view of a spline hub inspection apparatus according to another embodiment of the disclosure.
5 is a cross-sectional view of a spline hub inspection apparatus according to another embodiment of the disclosure.

Hereinafter, configurations, operations, and effects of a spline hub inspection apparatus according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings. For reference, in the following drawings, each component is omitted or schematically shown for convenience and clarity, and the size of each component does not reflect the actual size, and the same reference numerals denote the same components throughout the specification. And reference numerals for the same components in individual drawings are omitted.

1 is an exploded perspective view of a spline hub inspection apparatus according to an embodiment of the disclosure disclosed herein.

Fig. 2 shows a state of use of the spline hub inspection apparatus of Fig. 1. Fig.

Fig. 3 shows a cross-sectional view of the spline hub inspection apparatus of Fig. 1. Fig.

1 to 3, the spline hub inspection apparatus 100 includes a mounting portion 200, an inner diameter gauge 400, a thickness checking portion 600, and a parallelism checking portion 800, and the spline hub 10 Is composed of a hub 12, a lower short shaft 16, an upper short shaft 17 and a gear 18.

The spline hub inspecting apparatus 100 inspects the edge thickness, the inner diameter and the parallelism of the spline hub 10, which is assembled at the center of the disk, which is the clutch of the vehicle, and transmits the power received by the clutch disk to the transmission through the spline shaft.

The mounting portion 200 includes a lower frame 220 and an upper mount 240.

The mounting portion 200 is formed so that one end thereof is in close contact with the plane and the other end thereof is protruded toward the upper portion in the form of a circular cylinder having an outer diameter different from that of the upper portion and the bottom surface of the spline hub 10 is connected to the mounting portion 200, And is mounted on the mounting part 200 while being in close contact with the upper surface of the mounting part 200.

The lower frame 220 is formed in a cylindrical shape having a relatively high outer diameter and the upper frame 240 is formed in a cylindrical shape having a silver outer diameter relatively lower than an outer diameter of the lower frame 220.

A central portion of the upper surface of the upper holder 240 is recessed by a predetermined distance toward the lower portion and a central portion of the depressed portion is recessed toward the lower portion to connect the space of the lower frame 220 and the upper portion of the upper holder 240 A hollow 30 is formed.

When the spline hub 10 is mounted on the upper holder 240, the disk 13 is projected toward the outer side of the upper holder 240 at the edge of the spline hub 10, The first mounting surface 14 of the upper mount 240 is in close contact with the upper surface of the depressed central portion of the upper mount 240.

A second mounting surface 15 is formed between the disk 13 and the first mounting surface 14 at a bottom of the spline hub 10 by a predetermined distance toward the top, And is in close contact with the upper surface of the edge of the upper mount 240 in a state where the spline hub 10 is mounted on the mount 240.

The lower shaft 16 of the cylindrical shape formed at the lower portion of the spline hub 10 is inserted into the hollow 30 between the outer surface of the inner diameter gauge 400 and the inner surface of the upper mount 240, 240).

The inner diameter gauge 400 has a bottom portion that is inserted into the hollow 30 and protrudes toward the top of the upper holder 240 and is electrically connected to an external measurement and power source device, And the inner diameters between the gears 18 are measured.

When the spline hub 10 is mounted on the upper mount 240, a part of the upper end of the inner diameter gauge 400 is inserted into the hollow 20 to measure the inner diameter of the spline hub 10. The spline hub 10, And is rotatable on the upper mount 240 on the axis 400.

The thickness checker 600 includes a gauge frame 620, a thickness gauge 640, and a fixed unit 660.

The thickness checking unit 600 is arranged to surround the hub 12 located at the edge of the spline hub 10 in a state where the spline hub 10 is mounted on the upper mount 240 to check the thickness of the spline hub 10 do.

The gauge frame 620 is formed such that the bottom surface thereof is in close contact with the lower portion and a part of the central portion of the gauge frame 620 is recessed by a predetermined distance toward the other side. The thickness gauge 640 is detachably attached to a central portion of the recessed one side of the gauge frame 620 Through the fixed unit 660, as is possible.

The thickness gauge 640 checks the thickness variation of the hub 12 while the spline hub 10 rotates about the inner diameter gauge 400 to check the machining integrity of the hub 12 edge.

The parallelism checking unit 800 includes a cradle 820 and a parallelism gauge 840.

The parallelism inspection unit 800 is mounted on the upper mount 240 and contacts the upper surface of the hub 12 of the rotating spline hub 10 and measures the parallelism of the upper surface of the hub 12, Lt; / RTI >

The holder 820 is spaced apart from the holder 200 and the thickness checker 600 by a predetermined distance. One end of the holder 820 is coupled to the lower portion. The other end of the holder 820 is rod- And is coupled so as to be detachable or attachable to the parallel gauge 840.

A clamp is formed between the other end of the holder 820 and the parallel gauge 840. One end of the clamp can slide along the holder 820 toward or away from the holder 820 and can be rotated about the holder 820 have.

A parallelogram gauge 840 is detachably attached to the other end of the clamp so that the lower end of the parallelism gauge 840 is in close contact with the upper surface of the rotating spline hub 10 to measure the parallelism of the spline hub 10 do.

Therefore, the spline hub inspection apparatus 100 can check the inner diameter and the thickness of the spline hub 10 by inserting the spline hub 10 into the mount 200 and rotating the inner diameter gauge 400 about the axis have.

The lower end of the parallelogram gauge 840 is brought into close contact with the upper surface of the rotating spline hub 10 by controlling the cradle 820 equipped with the parallelism gauge 840 so that the inner diameter, thickness, and parallelism of the spline hub 10 Can be inspected at the same time.

The inner diameter gauge 400 and the thickness gauge 640 are electrically connected to a separate display device to visually display the inner diameter and thickness measured by the inner diameter gauge 400 and the thickness gauge 640, The user can intuitively check the spline hub 10 through the display device.

4 shows a cross-sectional view of a spline hub inspection apparatus according to another embodiment of the disclosure disclosed herein.

The spline hub inspecting apparatus 120 according to the present embodiment is substantially the same as the spline hub inspecting apparatus 100 of FIGS. 1 to 3 except for the mounting portion 300, and therefore the same reference numerals and names are used, Is omitted.

As shown in FIG. 4, the spline hub inspection apparatus 120 includes a mounting portion 300.

The mounting portion 300 includes a lower frame 320, an upper mounting portion 340 and a sensor portion 360. The upper mounting portion 340 includes a stator 342, a rotor 344, and a magnet 346 do.

When the mounting portion 300 senses the mounting of the spline hub 10 through the sensor, the spline hub 10 is automatically rotated through the motor formed therein to enable precise inspection of the spline hub 10.

Specifically, the lower frame 320 is formed in a lower shape in a cylindrical shape, and the upper mount 340 is rotated with respect to the lower frame 320 in a state in which a part of the center thereof is in close contact with the bottom surface of the spline hub 10, .

The stator 342 is formed in a cylindrical shape surrounding the inner surface of the frame surrounding the upper mount 340 and the rotor 344 is spaced apart from the stator 342 at a predetermined distance from the inner surface of the stator 342 do.

The lower surface of the rotor 344 is rotatably coupled to the lower frame 320 through a bearing and rotates the rotor 344 when power is supplied to the stator 342 through control from the outside.

The magnet 346 is formed on the upper surface of the rotor 344 and is magnetically in close contact with the first stationary surface 14. When the rotor 344 rotates the spline hub 10 is rotated by the magnet 346 And rotates along the electron 344.

The sensor unit 360 is formed on the upper end of the upper holder 340 and transmits an output signal to the upper holder 340 to rotate the rotor 344 when the spline hub 10 is sensed through the optical sensor.

Therefore, the spline hub inspection apparatus 120 rotates in a state in which the upper surface of the magnet 346 is horizontal while the spline hub 10 is stably mounted to the mount portion 300 through the magnet 346, The vibration and shaking of the hub 10 are reduced and the accuracy of the inspection is improved.

The spline hub inspection apparatus 120 senses the mounting of the spline hub 10 through the sensor unit 360 and senses the driving of the mount table 820 of the parallelism inspection unit 800 through a separate sensor, So that the spline hub 10 can be stably mounted on the mount 300 and the inspection can proceed.

5 shows a cross-sectional view of a spline hub inspection apparatus according to another embodiment of the disclosure.

The spline hub inspecting apparatus 140 according to the present embodiment is substantially the same as the spline hub inspecting apparatus 100 of FIGS. 1 to 3 except for the inner diameter gauge 450, so that the same reference numerals and names are used, Is omitted.

As shown in FIG. 5, the spline hub inspection apparatus 140 includes an inner diameter gauge 450.

The inner diameter gauge 450 includes an insertion frame 460, a measurement protrusion 470, a motor 480, and a drive shaft 490.

The inner diameter gauge 450 is meshed with the gears 18 of the spline hub 10 at the hollow 20 of the spline hub 10 mounted on the mount portion 200 to measure the inner diameter, The inner diameter gauge 450 is rotated to rotate the spline hub 10.

The insertion protrusions 470 are formed so as to protrude from the outer surface of the insertion frame 460 toward the inner surface of the spline hub 10 to form the measurement protrusions 460 470 are inserted toward the inside of the insertion frame 460 to measure the inner diameter of the spline hub 10.

Each of the measurement protrusions 470 is formed to mesh with the gears 18 and the outer surface of the insertion frame 460 is in close contact with the gears 18 so that when the inner diameter gauge 450 rotates, ).

The motor 480 is disposed inside the lower frame 220. The driving shaft 480 is coupled to the center of the bottom surface of the insertion frame 460 through the hollow 30 at the center of the upper mount 240, The inserting frame 460 rotates about the driving shaft 490.

When the spline hub 10 is rotated through the motor 480 disposed inside the lower frame 220, the edge of the insertion frame 460, which is brought into close contact with the second mounting surface 15 of the spline hub 10, ).

Therefore, the spline hub 10 is balanced by the inner diameter gauge 450 rotating through the motor 480 and stably rotates. Therefore, the thickness gauge 640 and the parallelity gauge 840 precisely check the thickness and the parallelism Is possible.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken in conjunction with the present invention. It is to be understood that various equivalents and modifications may be substituted for those at the time of the present application. It is to be understood, therefore, that the above description is intended to be illustrative, and not restrictive, and that the scope of the present invention will be defined by the appended claims rather than by the foregoing description, All changes or modifications that come within the scope of the equivalent concept are to be construed as being included within the scope of the present invention.

100: Spline hub inspection apparatus 200:
400: Internal diameter gauge 600: Thickness check part
800: parallelism checker

Claims (5)

A mounting part including a lower frame formed in a cylindrical shape and an upper mounting part coupled to the upper part of the lower frame so as to be rotatable and on which the spline hub is mounted;
An inner diameter gauge, one end of which penetrates through the hollow of the spline hub and the center of the mounting portion and is connected to the center of the lower frame and checks the size of the inner diameter of the spline hub through the rotation of the spline hub; And
And a thickness checking unit disposed at one side of the mounting unit for checking the thickness of the edge of the spline hub,
The upper cradle includes a stator that surrounds the inner surface of the upper cradle, a rotor formed in a shape surrounding the bottom center of the spline hub on the inner surface of the stator, and a magnet formed on the upper end of the rotor In addition,
Wherein the spline hub is rotated by the rotation of the rotor in a state where the thickness inspection portion surrounds a part of the edge of the spline hub to simultaneously check the thickness and the inner diameter of the spline hub.
The method according to claim 1,
And a parallelism checking unit spaced apart from the mounting portion and the thickness checking portions and contacting the surface of the spline hub in a state in which the spline hub rotates to check the parallelism of the spline hub. Inspection device.
delete The apparatus of claim 1,
A gauge frame in which a part of one side is recessed toward the other side to form a groove; And
And a thickness gauge coupled to one side of the inside of the groove of the gauge frame to surround a part of an edge of the spline hub.
The apparatus according to claim 2, wherein the parallelism-
A cradle configured to extend upwardly in a rod form; And
And a parallel gauge coupled to the upper portion of the cradle so as to be detachable or attachable via a clamp.

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