BOHNERT LARRY J (US)
MAGEE STEVEN J (US)
HASKEN RANDALL J (US)
BOHNERT LARRY J (US)
MAGEE STEVEN J (US)
| US3139598A | 1964-06-30 | |||
| EP0127278A1 | 1984-12-05 | |||
| GB2305729A | 1997-04-16 |
| CLAIMS
1. A device for mounting a sensor on a device 15 being subjected to torque, comprising: a sensor 11 having a contact portion thereof for contact with a device subjected to torque; a retaining ring 13 having an opening sized to hold said sensor, said ring having a first open end for insertion of said sensor 11 and a second end having a lip portion 17 for retaining said sensor in said opening; a threaded portion 23 on the outer periphery of said retaining ring 13, said threaded portion being adapted to engage a threaded recess 27 in said device 15 being subjected to torque, whereby said sensor 11 is attached to said device by threading said retaining ring 13 onto said threaded recess 27 on said device to maintain contact between said sensor and said device.
2. The device of claim 1, where said device is selected from a rotating shaft and a plate subject to torque.
3. The device of claim 1, wherein said second opening in said retaining ring 13 includes an opening for access to connecting wires 21 on said sensor.
4. The device of claim 1, which further includes an adhesive 19 on said sensor contact portion.
5. The device of claim 1, wherein said retaining ring 13 includes a fastener 29 for tightening said ring 13 in said recess 27.
6. A method for mounting a sensor 11 on a device 15 being subjected to torque, comprising the steps of: placing a sensor 11 having a contact portion thereof for contact with a device subjected to torque in a retaining ring 13 having an opening sized to hold said sensor, said ring having a first open end for insertion of said sensor 11 , a second end having a lip portion 17 for retaining said sensor 11 in said opening and a threaded portion 23 on the outer periphery of said retaining ring 13, forming a threaded recess 27 in said device 15 being subjected to torque; and threading said retaining ring 13 onto said threaded recess 27 on said device 15 to maintain contact between said sensor and said device.
7. The method of claim 6, where said device is selected from a rotating shaft and a plate subject to torque.
8. The method of claim 6, wherein said second opening in said retaining ring 13 includes an opening for access to connecting wires 21 on said sensor.
9. The method of claim 6, which further includes the additional step of placing an adhesive 19 on said sensor contact portion.
10. The method of claim 6, wherein said retaining ring 13 includes a fastener 29 for tightening said ring 13 in said recess 27. |
MECHANICAL RETAINER FOR SAW TORQUE SENSOR BUTTON
FIELD OF THE INVENTION
The present invention relates to Surface Acoustic Wave (SAW) torque sensors. More particularly, the invention relates to an improved attachment of the sensor hutton on a SAW torque sensor.
BACKGROUND OF THE INVENTION
Surface Acoustic Wave (SAW) Torque Sensing is an emerging technology for automotive, transportation, rail and other similar industries for use in power train and chassis applications. Significant research and development efforts have allowed for mass-production of SAW torque sensors at a cost-effective price. Certain engine, transmission, driveline and chassis processes can often be controlled more precisely using SAW torque technology. Used in appropriate applications, complex control algorithm and system development, test, evaluation and qualification time can often be significantly reduced with real-time torque sensor measurement that can provide feedback for closed-loop control.
Surface Acoustic Wave (SAW) technology enables wireless, battery-less, non- contacting strain measurement often suitable for the measurement of torque, pressure, temperature and other parameters. The SAW propagation mode is characterized by velocities typically 5 orders of magnitude below electro-magnetic waves with amplitudes in the order of nanometers and wavelengths in micrometers. Most energy is confined to within one wavelength of the surface. These characteristics have made SAW devices
often ideal for the design of delay lines and filters widely used in radar, TV and the mobile telecommunications industry. SAW devices are typically designed to operate within the frequency range 30MHz to 3GHz.
However, during the course of SAW torque sensor testing where the sensor button is attached to either a shaft or a plate, difficulties have occasionally arisen in maintaining the attachment of the sensor button to the device under torque. Adhesives have not been strong enough under some torque conditions and the sensor does not maintain contact.
It would be of advantage in the art if a device could be provided to attach a sensor such as a SAW torque sensor on a shaft or plate that maintains the sensor in contact with the device under any torque situation to which the device is intended to be used.
Yet another advantage would be if a device could be simply manufactured that would attach to a device to be used under torque.
Other advantages will appear hereinafter.
SUMMARY OF THE INVENTION
It has now been discovered that the above and other advantages of the present invention may be obtained in the following manner. Specifically, the present invention provides a retaining ring that holds sensors such as SAW torque sensor on a device such as a shaft or plate being subjected to torque.
The retaining ring is substantially hollow and has a first open end that allows the sensor to be inserted into the ring. The second end has a lip that extends inward from the ring periphery and overlaps the sensor in the ring. At least a portion of the outer periphery is threaded, preferably with fine threading. The device to which the sensor is to be attached, such as a shaft or plate, has a threaded recess or counter bore that is sized to accept and mate with the threaded outer portion of the retaining ring.
The sensor is held in place by the lip portion once the ring has been threaded onto the shaft, plate or the like.
BRIEF DESCRIPTION OF THE DRAWINGS
For a more complete understanding of the invention, reference is hereby made to the drawings, in which: FIGURE 1 is a top view of the preferred embodiment of the present invention; and
FIGURE 2 is a side elevational view of the device of FIGURE 1 shown in place on an element to be tested.
DETAILED DESCRIPTION QF THE PREFERRED EMBODIMENT
The present invention provides for substantial improvements in SAW torque sensors. Specifically, the device of this invention is a retaining ring that holds the sensor on the device being subjected to torque. The sensor 11 in Fig. 1 is a conventional SAW torque sensor but any sensor or other element that is to be attached to something being subjected to torque or other forces can benefit from this invention.
The retaining ring 13 holds sensor 11 on the device, in this illustration as shaft 15. The ring 13 includes a Hp portion 17 that is in contact with the top of sensor 11, as shown in Fig. 2, and an adhesive 19 has been applied to the bottom or button part of sensor 11. Sensor connecting wires or leads 21 extend through an opening in the ring 13.
Retaining ring 13 also has a threaded portion 23 on the outer periphery of ring 13. The shaft 15 has threads 25 that are on the inside of recess or counter bore 27. Preferably the threads 23 and 25 are fine threads that give precise control over how tight the sensor 11 is held in contact in counter bore 27 with shaft 15 by Hp 17. The adhesive 19 allows torque experienced by the shaft 15 to the sensor 11, such as the SAW button in that embodiment.
The retaining ring 13 should have some means for attaching it to the recess 27. Preferred would be a hex pattern 29 on the inside of the lip 17, as seen in Fig. 1. While particular embodiments of the present invention have been illustrated and described, it is not intended to limit the invention, except as defined by the following claims.
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