JPH0744963Y2 - Shape measuring device for honeycomb core - Google Patents

Description

[Detailed Description of the Invention] [Industrial field of application] The present invention relates to a shape measuring device for a honeycomb core applied to the production of aircraft and the like.

[Conventional technology]

Since the honeycomb core material used for aircraft production is a shape in which hexagonal materials with a width of about 0.1 mm are adjacently bonded and arranged in a honeycomb shape, let's measure the surface shape using a conventional general three-dimensional measuring machine. Then, the stylus of the coordinate measuring machine is powerless in the space of the honeycomb, and when the stylus contacts the wall of the honeycomb, the honeycomb core has a wall material thickness of 0.1 mm.
However, the honeycomb core cannot be three-dimensionally measured because it cannot withstand the contact pressure of the stylus and buckles, and there has been no suitable three-dimensional measuring machine capable of measuring the shape of the honeycomb core.

[Problems to be solved by the device]

When a conventional generally used three-dimensional measuring machine is applied, the stylus may enter into the honeycomb hole of the honeycomb core, or the wall of the honeycomb may be buckled, so that the shape cannot be measured.

Therefore, it is conceivable that a pushpin-shaped measurement auxiliary component is distributed and placed on the upper surface of the honeycomb core to be measured by the required number of points.
A stylus of a three-dimensional measuring machine may be applied to this, but in the case of a honeycomb core having a multi-curved surface like the wing structure of an aircraft, the number of measurement points was as high as 200 to 1000, which was almost impractical.

The present invention is intended to solve the above problems.

[Means for Solving the Problems]

The honeycomb core shape measuring device of the present invention has a stylus holder having a stylus at the lower end, and a contactor slidably penetrating the stylus holder and contacting the honeycomb core to be measured is provided at the lower end via a self-aligning bearing. The contactor support, the support housing slidably inserted and the holder support connected to the upper end of the stylus holder slidably penetrates, and the sensor housing connected to the upper end of the support housing. An eddy current sensor provided at a position facing the upper end of the holder support, one spring provided between the inner surface of the upper part of the support housing and the upper end of the contactor support, and the inner surface of the upper part of the support housing and the lower end of the holder support. The other provided between It is characterized in that a spring.

[Action]

In the above, when measuring the long-sided shape of the honeycomb core, the device of the present invention is lowered to bring the contactor into contact with the honeycomb core surface. Since this contactor is connected to the contactor holder via a self-aligning bearing, when the honeycomb core surface is inclined, the contactor lands on the inclination. When the device of the present invention is further lowered, the stylus contacts the upper surface of the contactor while one contact spring keeps the contactor on the ground. Further, when the device of the present invention is lowered, one spring keeps the contactor in a landing state and the other spring keeps the stylus in contact with the upper surface of the contactor. In the above state, after lowering the device of the present invention to a predetermined position, the eddy current sensor detects the position of the upper end of the holder support and measures the position of the lower end of the stylus.

The above operation is repeated at a predetermined measurement point on the honeycomb core surface to measure the shape of the honeycomb core surface.

As described above, since the contactor lands on the surface of the honeycomb core and the stylus contacts the contactor, a measuring device capable of measuring the honeycomb core surface can be realized.

〔Example〕

An embodiment of the present invention is shown in FIG. This embodiment shown in FIG. 1 is a contactor that contacts the measured honeycomb core 22.
15 is attached to the self-aligning bearing 16, the self-aligning bearing 16 is connected to the contactor support 18, and the combined body of the stylus 14 and the stylus holder 19 is attached to the center hole of the contactor support 18 through the slide bush 20. ing. The contactor support 18 is accommodated in the support housing 12 via the slide bush 13, and is slidable by the slide bush 13 and the coil spring 10. Here, the pin bolt 17 is provided to prevent the contactor support 18 from falling. The holder support 9 is connected to the stylus holder 19 and interlocks with the stylus 14. The holder support 9 is slidable in the support housing 12 by means of a slide bush 21 and a coil spring 11. The support housing 12 is mounted on the sensor housing 7 by screwing, and the eddy current sensor 6 is mounted in the sensor housing 7. Reference numeral 5 is a lead line of the sensor. A bracket 4 is connected to the sensor housing 7 by a bolt 8, and the bracket 4 is attached to a main shaft 1 of a main shaft assembly 3 by a connecting screw 2.

In the above, the spindle assembly 3 is controlled by the numerical controller of the coordinate measuring machine to approach the measurement point, and the contactor 15 lands on the measured honeycomb 22. At this time, if the upper surface of the honeycomb core 22 is inclined, the contactor 15 lands along the inclined surface by the self-aligning bearing 16. After this landing, the spindle assembly 3 descends to the measurement point, but this descending movement amount is absorbed by the coil spring 10 provided between the contactor support 18 and the support housing 12. When the spindle assembly 3 reaches the measuring point, the stylus 14 contacts the contactor 15 and
The stylus holder 19 and the holder support 9 connected to the stylus holder 19 are slid upward against the coil spring 11 in response to the upward reaction force, and the displacement amount of the holder support 9 is detected by the eddy current sensor. The position is measured. The above operation is repeated at predetermined measurement points on the honeycomb core surface to measure the shape of the honeycomb core surface.

As described above, since the contactor lands on the surface of the honeycomb core and the stylus detects the position of the contactor, a measuring device capable of measuring the shape of the surface of the honeycomb core can be realized.

[Effect of device]

In the honeycomb core shape measuring device of the present invention, a contactor support having a contactor provided at the lower end through a self-aligning bearing slides on the inner surface of the support housing, and a stylus is provided at the lower end inside the contactor support. The stylus holder slides, and the eddy current sensor detects the position of the upper end of the holder support provided at the upper end of the thruster holder, so that the contactor lands on the surface of the honeycomb core and the stylus is attached to the contactor. By making contact, a measuring device capable of measuring the shape of the honeycomb core surface is realized.

[Brief description of drawings]

FIG. 1 is an illustration of an embodiment of the present invention. 1 ... spindle, 2 ... coupling screw, 3 ... spindle assembly,
4 ... Bracket, 5 ... Sensor lead wire, 6 ... Eddy current sensor, 7 ... Sensor housing, 8 ... Bolt, 9
...... Holder support, 10,11 ...... Coil spring, 12 ......
Support housing, 13 …… Slide bush, 14 ……
Stylus, 15 …… contactor, 16 …… self-aligning bearing, 17 …… pin bolt, 18 …… contactor support, 19 …… stylus holder, 20,21 …… slide bush, 22 …… honeycomb core.

Claims (1)

[Scope of utility model registration request] 1. A stylus holder having a stylus at the lower end, and a contactor support provided at the lower end through a self-aligning bearing, the contactor slidably passing through the stylus holder and contacting the honeycomb core to be measured, The contactor support is slidably inserted and the holder support connected to the upper end of the stylus holder is slidably pierced by a support housing, and the sensor support connected to the upper end of the support housing is provided in the holder housing. An eddy current sensor arranged at a position facing the upper end, one spring provided between the inner surface of the upper part of the support housing and the upper end of the contactor support, and an eddy current sensor provided between the inner surface of the upper part of the support housing and the lower end of the holder support. Characterized by having the other spring Shape measuring apparatus of Nikamukoa.