This application relates to acoustic devices and, more specifically, to their construction.
Various types of microphones and receivers have been used through the years. In these devices, different electrical components are housed together within a housing or assembly. For example, a receiver typically includes a coil, bobbin, stack, among other components and these components are housed within the receiver housing. Other types of acoustic devices may include other types of components.
The components that are housed in the interior of the housing are arranged to provide various functions. In this respect, some of these components also must be correctly positioned within precise tolerance ranges relative to other components. For example, the coil, bobbin, and magnets need to be positioned in proximity to each other in order that the acoustic device can function properly. In another example, the coil and reed often need to have a specific positioning relative to each other. Without the correct relative positioning of the components (i.e., within an acceptable tolerance), the acoustic device will not operate properly or will have less than optimal performance.
Previous acoustic devices and assemblies have often been constructed with alignment tolerances that often exceeded acceptable limits and became misaligned. For instance, due to the variation in part sizes, the required tolerances could not be achieved and assembly components often became misaligned. This, in turn led to a detrimental impact on operation of the device. Further, many parts had to be discarded after manufacturing or were returned by customers. All of these problems have led to some user dissatisfaction with these previous approaches.
For a more complete understanding of the disclosure, reference should be made to the following detailed description and accompanying drawings wherein:
Skilled artisans will appreciate that elements in the figures are illustrated for simplicity and clarity. It will further be appreciated that certain actions and/or steps may be described or depicted in a particular order of occurrence while those skilled in the art will understand that such specificity with respect to sequence is not actually required. It will also be understood that the terms and expressions used herein have the ordinary meaning as is accorded to such terms and expressions with respect to their corresponding respective areas of inquiry and study except where specific meanings have otherwise been set forth herein.
Acoustic assemblies (e.g., microphones and receivers) and their components are configured to facilitate registration of these components with respect to each other (e.g., the coil and the reed of an acoustic assembly). By “registration” and as used herein, it is meant the relative placement of one component with respect to another component.
More specifically and in one aspect, flanges (or other similar mechanisms) are disposed upon, formed with, constructed with, coupled to, or incorporated with elements of an acoustic assembly thereby facilitating the exact registration and positioning of some parts of the assembly with respect to other parts. For instance, flanges may be coupled to two opposing sides of a coil. The flanges guide or position the reed with respect to the center of the coil and register these components with respect to each other. In this way, the reed and coil will have an exact position with respect to the other and this exact positioning is not disturbed or affected by variations in size of the coil, reed, or any other part of the assembly. In other words, the selected components will have the same placement with respect to each other despite variations in part size or other factors. Misalignment of these parts is thereby prevented.
In another aspect, a flange plate may be coupled to an acoustic assembly and the coil wound around portions of this flange. In so doing, the coil is aligned with other parts of the assembly.
Advantageously, the use of the flanges provides improved alignment for the parts of the assembly than previous approaches. In another advantage, the shim (with which the flanges are formed) becomes part of the electrical terminal of the coil so that the input/output mechanism for the coil is ready-built into the assembly. In some aspects, the use of a magnetic yoke can be eliminated. In other aspects, a magnetic yoke can still be used.
In many of these embodiments, an acoustic apparatus includes a first acoustic element, a second acoustic element, and a registration portion. The first acoustic element and the second acoustic element are an element such as a coil, a reed, or a yoke. The registration portion is configured to register the first acoustic element with respect to the second acoustic element such that an exact and relative alignment and positioning between the first acoustic element and second acoustic element is provided and ensured.
In one aspect, the first acoustic element is a coil and the second acoustic element is a yoke. In other aspects, the registration portion includes a foldable shim, the shim includes flanges, and the flanges include at least one tine. In some aspects, the coil is wound about the at least one tine. In another aspect, the coil is inserted on the at least one tine.
In other examples, the registration portion includes a yoke locking flange. In some other examples, the first acoustic element is a coil and the second acoustic element is a reed.
In some aspects, the registration portion comprises at least one shim. In yet other aspects, the at least one shim is coupled to the coil, the at least one shim has a flange portion, and the flange portion defines a groove. In still other aspects, the reed passes through and is guided by the groove in the flange portion, and an exact and relative alignment and positioning between the coil and reed is provided and ensured by the at least one flange portion.
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Each of the shims 204 and 206 includes flanges 220. The flanges 220 form open grooves 222 through which a reed 208 is positioned. A portion 240 of the reed 208 also passes through openings 224 of the shims 204 and 206 and an opening 226 of the base coil. The flanges locate and/or position the coil relative to an axis 236, which is the reed center line.
The assembly 200 is placed between a first housing section 252 and a second housing section 254. Each of the sections 252 and 254 include magnets 258 coupled thereto or incorporated therein. For simplicity, other portions of the assembly are not shown.
As with the other examples herein, it can be seen that an exact relative alignment and positioning between the coil 202 and the reed 208 is provided by the flanges 220. Put another way, the coil 202 is positioned at a known location relative to the axis 236 no matter any variations in size of the various components of the assembly 200. It can also be seen that the shims 204 and/or 206 can in part act as an electrical terminal with the coil 202. Special parts are not needed to make the desired electrical connections. In other words, input and output for the assembly 200 is already built in to the assembly 200.
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A yoke 370 extends around the reed. A yoke locking flange 372 locates and captivates the yoke 370. The yoke 370 includes magnets (not shown).
Again and as with the other examples herein, it can be seen that an exact relative alignment and positioning between the coil 302 and the reed 308 is provided by the flanges 320. Put another way, the coil 302 is positioned at a known location relative to the center line 336 of the reed 308 no matter variations in size of the various components of the assembly 300. It can also be seen that the shims 304 and/or 306 can in part act as an electrical terminal with the coil 302. Special parts are not needed to make the electrical connections. In other words, input and output for the assembly 300 is already built in to the assembly 300.
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The first shim 404 includes a first terminal layer 452, an insulator layer 454, and a second terminal layer 456. The first terminal layer 452 is a positive current path to the coil 402 that includes an electrical signal representing an audio sound. The second terminal layer 456 provides a return path from the coil 402.
Again and as with the other examples herein, it can be seen that an exact relative alignment and positioning between the coil 402 and the reed is provided by the flanges 420. Put another way, the coil 402 is positioned at a known location relative to the center line 436 of the reed no matter variations in size of the various components of the assembly 400. It can also be seen that the shims 404 and/or 406 can in part act as an electrical terminal with the coil 402. Special parts are not needed to make the electrical connections. In other words, input and output for the assembly 400 is already built in to the assembly 400.
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It will be appreciated that the elements described herein can be constructed of any appropriate metal or plastic and are not limited to a single material.
Preferred embodiments of this invention are described herein, including the best mode known to the inventors for carrying out the invention. It should be understood that the illustrated embodiments are exemplary only, and should not be taken as limiting the scope of the invention.
This application is a continuation of Ser. No. 13/712,053, filed Dec. 12, 2012, entitled “Apparatus In An Acoustic Assembly For Registering Assembly Parts”, which claims the benefit of U.S. Provisional Application No. 61/569,875 entitled “Apparatus In An Acoustic Assembly For Registering Assembly Parts” filed Dec. 13, 2011, all of the contents of which are incorporated herein by reference in their entireties.
Number | Date | Country | |
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61569875 | Dec 2011 | US |
Number | Date | Country | |
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Parent | 13712053 | Dec 2012 | US |
Child | 14483366 | US |