Method for Installing an Apparatus to the Correct Torque Setting Without the Use of Torque Measuring Tools
An apparatus comprising a base having base threads and a flexible assembly having assembly threads, wherein said base threads and the assembly threads are capable of interfacing to connect the base to the flexible assembly, wherein the flexible assembly is capable of contracting in response to the application of torque when the assembly is connected to the base, and wherein the contracting of the assembly presents a visual, tactile or audible indication that a sufficient amount of torque has been applied to connect the flexible assembly to the base.
Oil filters play a central role in protecting the engine within all automotive vehicles. A filter ensures optimum oil supply, especially during cold starts when oil viscosity is at its greatest. Over time the engine oil circuit becomes contaminated by combustion residue, metal shavings and other particles. To remove these pollutants engine oil is pumped into the oil filter where it is then passed through a pleated filtering medium designed to remove impurities down to the micron level. Once the engine oil is filtered through the pleated filtering medium, it then flows back into the oil pump where it is then sent to the engine. Oil filters are intended to be changed periodically, as the pleated filtering medium accumulates particulate debris suspended in the engine oil over time due to normal usage. While tightening an oil filter on a mounting base, one may be uncertain about the exact amount of torque required to securely tighten the oil filter to the mounting base of an engine block. Tightening it too much may cause damage to the oil filter, specifically the sealing ring, which may deform and allow pressurized oil to leak out. Not tightening it enough may also result in leaks, which may cause extensive damage to the engine due to oil starvation and subsequent overheating. Accordingly, it would be beneficial in the art if there were a tangible (e.g., audible) indication to the person installing the filter that the right amount of torque has been used and that the filter is properly secured and neither too tightly nor too loosely attached. Furthermore, visual, tactile, and/or audible indicators of sufficient levels of torque could be useful outside the context of an oil filter, such as in tire lug nuts or other nonautomotive applications such as bottle caps which change shape when the contents is spoiled.
SUMMARY OF THE INVENTIONThe method described herein consists of a diaphragm, or other surface, which has material elasticity and bi-stability. Materials engineered in this fashion and may bend and or emit a sound or vibration when a predetermined amount of torque or force is applied (hereafter, indication). This indication denotes the required torque has been applied signifying the widget is installed properly. The surface displaced by the torque being applied can be of different configurations. This surface may be convex, concave, flat with a central or distal portion shaped in the needed fashion to cause it to emit an indication that a predetermined torque has been applied. The mechanism by which the surface emitting the indication is referred to as snap-through buckling. This is a phenomenon that occurs on loading of a panel, when the panel resistance suddenly decreases with increasing imposed deflection. In some instances, the drop-in load is accompanied by the release of a sound. Once the surface has been engineered to displace at a predetermined load, the end user, be it a manufacturer or DIY person at home, can be assured of consistent torque between two mating surfaces without having to use devices, which require proper use and calibration. Prior to this method, the most common tools for torqueing are torque wrenches, which are available in several types. Some of these types are slipper, beam, deflecting beam, click, electronic and mechatronic. Regardless of the type of torque wrench used they all need a certain amount of knowledge and proper use by the operator to yield a consistent and valid torque onto whatever is being installed. For instance, torque wrenches, like the click, electronic or mechatronic types, require recalibration as part of their periodic maintenance. Further, when not in use, some types require a certain amount of tension while in storage to preserve the calibration of their internal components. As one example of the use of the method, the application described herein demonstrates the usefulness of the method in a setting where tight or confined spaces make the use of a torque wrench very difficult. In this instance, we refer to the modification of oil filters, used in a myriad of motive applications, so that properly consistent installation can be achieved without requiring the use of torque measuring devices.
An oil filter having a mechanism for delivering a physical (e.g., audible or tactile) indication to the user that the filter is tightly secured and should not be further tightened, is disclosed. Turning now to the figures, where like numerals refer to like elements.
According to
Also shown in
There are numerous applications for which the mechanisms described herein may be utilized so long as a constant force is applied to the component that expands and contracts.
This constant force will cause the mechanism to reach a threshold, thus causing the material to go from an expanded to contracted position. In one non-limiting example, a diaphragm on a tire rim may contract in the same fashion when being mounted on a vehicle. The constant force applied to a nut or bolt, locking a tire rim into place may cause the diaphragm contract, emit an audible pop and indicate to the user that an appropriate torque value has been applied and the tire is properly installed. This mechanism may be applied to any cylindrical container that requires a cylindrical lid.
The pressure needed to activate the expansion or contraction of a component such as Bottom Assembly 6 may be caused by forces other than those manually applied by a user applying force or torque. For example, some gases or fluids may create pressure within a bottle or container based on various factors such as but not limited to exposure to heat, cold, sunlight and additional liquids and gases. For example, Bottle Cap 14 could indicate to a user that the liquid or gas within Bottle 15 is no longer edible, drinkable or usable based on the expansion or contraction of said bottle cap when sealed on a bottle.
Claims
1. An apparatus comprising:
- a base having base threads; and
- a flexible assembly having assembly threads, wherein said base threads and the assembly threads are capable of interfacing to connect the base to the flexible assembly;
- wherein the flexible assembly is capable of contracting in response to the application of torque when the assembly is connected to the base; and
- wherein the contracting of the assembly presents a visual, tactile or audible indication that a sufficient amount of torque has been applied to connect the flexible assembly to the base.
2. The apparatus of claim 1, wherein the flexible assembly or the base emits an audible indicator that a sufficient amount of toque has been applied to connect the flexible assembly to the base.
3. The apparatus of claim 1, wherein the flexible assembly or the base produces a tactile vibration to indicate that a sufficient amount of torque has been applied to connect the flexible assembly to the base.
4. The apparatus of claim 1, wherein the base is a mounting base of a motor vehicle oil filter.
5. The apparatus of claim 1, wherein the base is a bottle and wherein the flexible assembly is a bottle cap.
Type: Application
Filed: May 7, 2014
Publication Date: Nov 12, 2015
Inventor: Jorge Alejandro Narvaez (Amarillo, TX)
Application Number: 14/271,721