Geometrical instruments – Distance measuring – By flexible tape
Reexamination Certificate
2002-01-30
2004-05-04
Gutierrez, Diego (Department: 2859)
Geometrical instruments
Distance measuring
By flexible tape
C033S512000
Reexamination Certificate
active
06729037
ABSTRACT:
BACKGROUND OF THE INVENTION
This invention generally relates to measurement devices or depth gauges for determining the depth of holes. Of particular interest are holes that are blind in nature. Existing measurement devices work very well for this application when there is direct linear access to the hole. However, when direct linear access is not available it is nearly impossible to make any measurements accurately since the existing devices must work on axis with the hole. There are many different industrial and medical applications where direct access to a hole is not possible. In one example an orthopedic surgeon may be working in the acetabular region of the human body. It is necessary in certain surgical procedures to predrill holes in the socket region, which is typically done using flexible drill bits since direct access is difficult. Once the holes are drilled it is necessary to measure their depth sometimes through an implant component placed previous to creating the holes. However, it is not possible to accurately measure the holes with the current instruments.
With the increased demand for a measurement device several companies have attempted to solve this problem by designing new instruments. In one design a flexible spring shaft is attached to the tip of the gauge and inside there is a small diameter flexible spring steel wire for the probe. This allows the tip to be flexible and measure off axis. However, when the flexible shaft is bent the probe inside made of the spring steel takes on a permanent curved shape. So, when the probe is extended out of the tip it comes out curved. After some time it is difficult to operate the instrument because of the permanent set in the wire and this idea has been abandoned. Another solution uses a flexible spring shaft attached to the tip of the gauge with a large diameter stainless steel probe. The probe is pre-bent with a fixed angle. This solid steel probe traverses inside the flexible shaft, so the bend will be in a different location along the spring depending on the depth of the measurement. The disadvantage of this system is that access to the holes being measured is limited to the pre-bent angle of the tip. This also requires the probe to be of a substantial diameter to maintain the pre-bent angle, which can pose a problem when measuring smaller diameter holes.
It is the primary aim of the present invention to provide a hole depth-measuring instrument that is safe and effective for use in surgical and industrial applications where off axis measurements are necessary. There is a further need to have an instrument that is flexible and can approach the holes being measured at variable angles. There is yet another need to have a small diameter probe for measuring small diameter holes. There is yet a further need to use a probe that is resilient but that will not permanently bend. There is still yet a further need to have a gauge wherein the probe protrudes form the guide in a direction perpendicular to the tip. Finally there is a need to have the tip of the guide made with an implant for measuring the depth of a hole placed through it.
SUMMARY OF THE INVENTION
To accomplish these objectives, a standard depth gauge with a flexible shaft mated to the tip is provided. The flexible shaft allows for full angular adjustment for various directional approaches to the hole. The tip of the shaft can be formed into a shape that conforms with a mating part through which the hole is measured. The probe is manufactured from a superelastic nickel titanium “NITINOL” alloy which has greater flexibility and elasticity than typical spring steels so that it doesn't deform when the flexible shaft is bent. The nickel titanium probe also extends from the tip of the shaft in a direction perpendicular to the tip so it extends straight into the hole being measured even when the guide is off axis. The nickel titanium probe can be attached in several different ways to the depth gauge. For example a setscrew or a crimp could be used.
The probe has opposed proximity and distal ends. A scale, located at the proximal end, defines an axis and presents indicia extending along the axis. A housing is slidably mounted to the scale. The shaft is attached to the housing and includes the tip. Relative movement between the housing and the scale causes the distal end to protrude from the tip a selected distance reflected by the indicia. The shaft is flexible. The shaft and probe may be selectively bent with respect to the axis in order to allow the scale to be adjusted and read from any desired perspective.
The scale is attached to the probe. A super-elastic nickel titanium connector optionally attaches the scale to the probe. The connector has a hole that accepts the proximal end of the probe, the scale having another hole that in turn receives the connector in a press fit, thus effecting the attachment between the scale and the probe.
Optionally, the probe and connector are both made of a nickel-titanium alloy.
Other objects and advantages of the invention will become apparent upon reading the following detailed description and upon reference to the drawings.
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Bugnion S.A.
Courson Tania C.
Gutierrez Diego
Moetteli John
Precimed S.A.
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