NL8006007A - HEARING PROTECTOR. - Google Patents

Description

N.O. 29,508

Hearing protector.

The invention generally relates to hearing protectors and more particularly relates to hearing protectors of the type having a resilient headband with a pair of ear-engaging members 5 attached to their end portions.

Hearing protectors of the type provided with a generally shaped spring headband with a pair of inwardly directed ear canal contactors attached to the end portions thereof are known per se. Compared to ear muff type ear protectors, such protectors generally have the advantages of lighter weight and smaller size. However, they are often considerably less effective in their primary purpose, attenuation, than their ear muff type counterparts. The invention now aims to provide hearing protectors of the type having a generally resilient headband and ear canal contact members attached to the end portions of the headband, which are considerably more effective in sound attenuation than similar prior art protectors.

Another object of the invention is to provide hearing protectors of the above-mentioned type which can be worn comfortably and have excellent sound-attenuating properties.

It is further an object of the invention to provide hearing protectors of the above-mentioned type with the characteristics of a small size and a lightweight, which protectors can be comfortably worn and provide excellent sound-attenuating properties.

It is also an object of the invention to provide hearing protectors of the above-mentioned type in which their ear canal contact members are self-adapting to the wearer's ear canals.

Other objects and advantages of the invention will be obvious and partly apparent from the following.

In a broad sense, the hearing protector according to the invention comprises a generally resiliently resilient headband to each of the 800 6007 2 opposite end portions, an inwardly projecting ear canal closure cap whose dimensions and shape are adapted to partial insertion into the earpiece. ear canal. Each cap features a soft, compliant, smooth and hollow capsule-shaped element that is articulated to the respective end portion of the headband. Due to this construction, the earplugs, under the influence of the presetting action of the resilient headband, are partially pushed into the ear canals to close them.

Owner. 1 shows a schematic, partly imaginatively indicated front view of a hearing protector according to the invention.

Fig. 2 schematically shows a longitudinal section of an ear-sealing cap 20 of FIG. 1.

Owner. 3 schematically shows a longitudinal section of another embodiment of the ear-sealing cap 20 of FIG. 1.

In Figs. 1 and 2, corresponding reference numerals denote corresponding structures and in these figures the hearing protector according to the invention broadly consists of a generally U-shaped resilient headband 1 at each of the opposite ends 5 and 5, of which inwardly directed ear canal sealing caps 20 are attached. The attachment of the ear canal closure caps 20 to said end portions 3 and 5 is accomplished in an articulated manner to give the caps the freedom to tilt horizontally and vertically. Each of the caps 20 is provided with a soft, smooth, compliant and hollow capsule-shaped element 22, the dimensions and shape of which are adapted to partial insertion into the ear canal. Based on this combination of properties, the caps 20 are partially pushed into the ear canals under the influence of the resilient headband, thereby closing the ear canals. Due to the articulated attachment of the 30 caps 20 to the end portions 3 and 5 of the headband, the caps 20 are free to tilt and adapt to the natural angles of the wearer's ear canals, allowing them to be seated therein with a maximum seal effect and without the need for an external adjustment by the wearer. This is an important advantage of the hearing protector according to the invention because often an individual's ear canals are not exactly bilaterally symmetrical. In addition, it has been found that prior art hearing protectors often require additional adjustments of their ear canal contacting elements by the wearer to achieve the maximum occlusive effect and to achieve these adjustments. are often performed incorrectly or carelessly or omitted, as a result of which the wearer does not obtain the maximum hearing protection achievable by the protector. However, in the hearing protector according to the invention, these adjustments, which may be of a subtle character, are made automatically.

The main functions of the generally-shaped headband 1 are, of course, to serve as a carrier for the ear canal closure caps 20 and to act as a presetting member 10 with which said caps 20 are brought into a sealing relationship with the ear canals. If these criteria are kept in mind, the design, construction and materials used during the manufacture of said headband 1 are, as will be apparent, subject to considerable variation. The headband 1 15 can be constructed from a metal spring profile and can consist of a construction with one or more parts. For example, two curved flat spring elements can be held in sliding relationship against each other to define an adjustable-length structure of adjustable length. However, for low weight and easy one-piece construction, it is preferable to form headband 1 suitably from a rigid, resilient polymer, preferably thermoplastic material such as a strong polyvinyl chloride or polyacetal resin. In such a construction, a simple fabricated headband 1 of lightweight is provided which at the same time has a sufficient permanent bending modules to allow the caps to be brought into sealing engagement with the ear canals and maintained throughout the life of the protector construction.

30 It has been found that the biasing force exerted by the resilient headband 1 on the caps 20 during use has an effect because this biasing force must be sufficient to achieve an effective closure of the ear canal and at the same time not be so great that it is carrier is experienced as an uncomfor-35 table. Thanks to the construction of the cap 20 according to the invention, it has been found that this adjusting force need not be large, which greatly contributes to the comfort provided to the wearer by the hearing protector according to the invention. For example, it has been found that a suitable pre-setting of the caps 20 is achieved when the main band of 8 Π η β λ π 7 4 is of such construction and composition that when its opposite free ends (defined by balls 7 and 9 in the construction of FIG. 1) are spaced from 14 to 35 apart, inwardly directed recovery force is generated between about 50 and 300 g (0.49 and 2.94 N) and preferably between about 100 and 200 g (0.98 and 1.96 N). A suitable measurement of this restoring force can be easily carried out by holding one end of the headband 1 in a fixed position while pulling the other end of it open by the specified distance by means of a spring weigher. Similarly, this measurement can also be performed by holding one end of the headband 1 in a fixed position while the other end thereof hangs freely below said fixed end and is increasingly loaded with known weights until the specified spacing of 14.35 cm has been reached. Control of the restoring force can be achieved by an appropriate sizing of the headband 1, the choice of the material and its construction or a combination of these possibilities.

The construction of the ear canal sealing caps 20 has considerable influence in the invention, it being essential that the dimensions and shape of said caps are adapted to a partial insertion into the ear canals and that at least the ones to be inserted into the ear insert parts thereof are provided with a smooth, soft, compliant and hollow capsule-shaped element 22. In connection with these requirements, the capsule-shaped element 22 is constructed from a soft, smooth and compliant elastomer or plastomer material such as a plasticized polyvinyl chloride, silicone rubber, ethylene / vinyl acetate copolymer, styrene-butadiene block copolymer, ethylene-propylene-diene rubber, neoprene rubber, polyurethane rubber, natural rubber and the like. The hardness of the material of the construction of the capsule-shaped element 22 determined at room temperature with a Shore A hardness tester according to the method described in AISI / ASTM D 2240-75 »can be in the range of about 10 to about 80 and can be preference is within the range of about 20 to about 50

Preferably, the capsule-shaped element 22 will have a conical shape. Of course, when such a conically shaped capsule-shaped element 22 is used, the smaller diameter end 40 of the element will form the pluggable free end of the ear canal cap 8006007 C -4, while the larger diameter end thereof will form the "outside" remaining end forms intended for attachment of the end portions 3 or 5 of the headband 1. The included angle defined by the conically shaped capsule-shaped element may be within the range of about 15 ° to about 45 ° with the preferred range being between about 20 ° and about 30 °. The small end of a conically shaped capsule-shaped element 22 may have a diameter between about 0.3 and 1.02 cm and will preferably be in the range between about 0.51 and 0.76 cm.

The space 24 defined by a hollow capsule-shaped element 22 can be left empty or, which is preferable, can be filled with a resilient or yielding lost material 26. When said capsule-shaped element 22 is hermetically sealed, this filler material 26 can consist of 15 a fluid such as water, oil or air. Preferably, however, the filler material 26 will be a resilient or compliant solid or semi-solid such as a silicone kneading mass or grease, glass wool, polyester fiber wadding, polyurethane foam, polyvinyl chloride foam, and the like. A particularly useful material for use as filler material 26 in the earmuff of the invention is an externally plasticized polyvinyl chloride foam, the nature of the plasticizer and its concentration being such that the final foam has properties of slow recovery from deformation and low recovery pressure applied under deformed state.

The wall thickness of the capsule-shaped element 22 is subject to considerable variation and is normally not critical in achieving the advantages of the invention, provided it retains its yielding character. In general, this thickness will be between about 0.0013 and 0.076 cm and preferably this thickness will be within the range between about 0.025 and 0.051 cm.

It is further essential for the invention that the ear-sealing caps 20 are guided attached to the end parts 3 and 5 of the headband 1 such that said caps 20 can tilt freely both horizontally and vertically under the influence of the restoring force generated by the resilient headband 1. In general, any articulated mounting configuration resulting in the aforementioned freedom of tilting of the caps 20 is suitable for use in the construction of the invention 8006007-6 and many such configurations will be an expert in this field may be suggested. The caps 20 can for instance be attached to the end parts 3 and 5 of the headband 1 by means of springs, hinged connections, universal couplings and the like. However, the preferred embodiment of the mounting used will be such that the resulting articulation of each of the caps 20 will allow its tilt where the free end can describe a warp path in a plane perpendicular to the plane defined by the main band 1. A suitable polymer hinge configuration includes a short flexible stem of polymeric material such as polypropylene or silicone rubber with one end attached to

a

the end portion 3 or 5 of the headband 1 and the other end thereof is attached to the ear canal closure cap 20. Another generally suitable articulated mounting configuration includes a small diameter coil-shaped spring one end of which is attached to an end portion 3 or 5 and the other end is attached to said cap 20.

The preferred embodiment of the articulated mounting configuration will include a ball and retainer coupling as shown in the figures. In this configuration, the end parts 3 and 5 of the main band 1 are provided with sealing balls 7 and 9 respectively. These balls 7 and 9 can be separate, distinct elements of the structure of the main band 1 or can be formed as an integral whole therewith. The remaining end of each capsule-shaped cap element 22 receives a sealing element 28 provided with a centrally located cavity 30, the diameter of which is adapted to receive the balls 7 or 9. · The center of the articulated connection of the cap 20 will preferably the end portions at the end portions 3 or 5 of the headband 1 are located at or inside rather than outside the non-binding end of the cap 20. By maintaining this latter design consideration, the tendency of the cap 20 to buckle in itself are minimized under the influence of the pressure exerted by the headband 1. In the embodiment of the invention shown in Fig. 2, the geometric center of the cavity 30, in other words, is the center of the articulated attachment, located on the plane defined by the outward end of the capsule-shaped element 22 and therefore lies within the outwardly 40 end of the cap 20. The passageway 32 leading to said 80 0 6 0 0 7/7 cavity 30 is internally chamfered such that a conical stop surface 34 is defined that when it contacts brought with the surface of the end part 3 or 5 of the headband 1 by tilting the cap 20 limits a further movement of this cap 20. The construction material used in the manufacture of the sealing element 28 is preferably of sufficient resilience to allow reception of the ball 7 or 9 into the cavity 30 simply by pushing the ball 7 or 9. For this purpose the sealing element 28 of the cap 20 is preferably formed from a resilient polymeric material which, for convenience and compatibility, may generally be of the same type as the material used in the manufacture of the capsule-shaped member 22.

It is pointed out that the term "headband" has been used with reference to the structure denoted by reference numeral 1, but this term does not limit the specific manner in which said structure is used. Although the hearing protector according to the invention can of course be worn, for example, with the headband 1 positioned directly over the head of the wearer, substantially the same advantages of the use of the protector can be realized when the headband 1 is worn around the neck or hanging under the wearer's chin. In certain cases, for example when the user also has to wear a bulky other device, a respirator or an eye-protector, positioning of said headband 1 either in the neck or under the chin is preferable.

A further embodiment of the invention is shown in fig. 3. In this fig. 3 the cap 20, the capsule-shaped element 22, the space 24 »the filling material 26 and the sealing element 28 are shown. The sealing element 28 is provided 28 of a connecting part 36 and a coupling part 38 · The connecting part 36 implements the above-mentioned articulated attachment. The coupling part 38 is intended for attachment to the capsule-shaped element 22. The connecting part 36 and the coupling part 38 are separated by the section 40 and the space 42. The space 42 results in a more flexible closing element as well as a closing element that can be bitten and inserted with greater comfort to provide a more comfortable cap. The connecting portion 36 and the coupling portion 38 move into contact with each other when a cap is gripped and inserted into an ear canal.

8006007 8

Some illustrative but non-limiting examples are listed below.

Example I

The external elements of two caps 20 of the type shown in Figure 2 were fabricated in compression molds using a two-component heat treatment silicone rubber (Silastic Q-3-9591, manufactured by Dow Corning Corp., Midland, Michigan).

The molding treatment was carried out at a temperature of about 177 ° C for about 10 minutes. The Shore A hardness of the treated material at room temperature was about 60. The major dimensions of these external elements were as follows

Cannula-shaped element 22 length 2.6 cm 15 diameter at the narrow end 0.64 cm diameter at the large end 1.47 cm wall thickness 0.04 cm included angle 25 °

Sealing element 28 20 length 1.37 cm diameter of the cavity 30 0.64 cm 'included angle in the conical boundary surface 60 ° 34

The spaces 24 of the capsule-shaped elements 22 were each filled with a cylindrical plug which, in the unclosed state, had a diameter of about 1.37 cm and a length of about 1.8 cm, which plug was made of a highly plasticized Closed-cell predominant polyvinyl chloride foam material. Insertion of the plug was accomplished by first rolling the plug between the fingers, then inserting it into the space 24 and then expanding the plug. Then, the closure member 28 was glued to the capsule-shaped member 22 by a silicone rubber line operating at room temperature.

The generally-shaped headband 1 of this construction was made of strong polyvinyl chloride and formed by injection molding the resin into the mold as shown in Fig. 1. The diameter of the resulting molded structure was 0.48 cm.

The radius of curvature of the upper portion of the headband 1 40 was 6.35 cm, the length of each of its straight side arm sections 8006007 ♦ 9 9 was approximately 8.76 cm and the end portions 3 and 5 were each bent inward to form an angle of about 85 ° with respect to the corresponding straight side arm section. The total length of the headband 1 was 16 cm. The opposite ends 5 of the formed headband were formed into integral balls 7 and 9, each with a diameter of 0.4 cm. With the headband 1 in the unloaded state, the free space between the balls 7 and 9 was about 5 cm. When the balls 7 and 9 of this headband were separated to a distance of 14 * 35 cm, it was found that the reset force was about 180 g (1.7 N).

The hearing aid according to this exemplary embodiment was then assembled by manually placing each of the balls 7 and 9 into a cavity 30 of one of two caps 20.

The results of the tests performed with this hearing protector construction are reported in Example IV.

Example II

The elements 22 and 28 of two caps 20 with substantially

the same shape and dimensions as those described in example I.

were realized by compression molding a polyvinyl chloride-plastisol composition which included the following ingredients:

Ingredient Parts by weight PVC resin (inherent viscosity 1.11) 100 • 1 plasticine 9775A plasticizer 65 di-n-octyl azelate 25 p 25 calcium-zinc stabilizer (CZ-10) 2 silicone fluid (Dow 200 0.5 epoxidized soybean oil (G-62) ^ 12 (1) Manufactured by Emery Industries, Inc., Cincinnati, Ohio.

(2) Manufactured by Interstab Chemicals, Ine., New Brunswick, 30 New Jersey, (3) Manufactured by Dow Coming Corp., Midland Michigan.

(4) Manufactured by Rohm and Haas, Philadelphia, Pennsylvania. The sardness value of the composite material was about 50. The spaces 24 of the capsule-shaped elements 22 were each filled with a polyvinyl chloride foam plug of a similar type as used in Example 1. The capsule-shaped elements 22 were then glued to the sealing elements 28 by by means of a two-component polyurethane adhesive to complete the two cap structures 20.

40 The construction of the headband 1 of this example is essentially the same in shape and dimensions as in Example 1 in terms of 8 Ω η η λ o 7 10.

In this example, however, the headband 1 was produced by injection molding a polyacetal resin (lelrin, manufactured by E.I. duPont de Nemours and Co., Wilmington, Delaware). When the ends of the headband were separated to a distance of 14.35 cm between balls 7 and 9, the inwardly directed recovery force was approximately 142 g (1.4 N).

The construction of the hearing protector was completed by manually assembling the caps 20 and the headband 1, and the resulting construction was tested in accordance with the procedure of Example IY.

Example III

The elements 22 and 28 of a pair of caps 20 were formed by compression molding a heat-treated silicone rubber, SWS-7655, 15 manufactured by SWS Silicones Corp., Adrian, Michigan. The formed elements were molded for a period of 10 minutes at a temperature of about 177 ° C. The Shore A hardness value of the treated silicone rubber was about 50. The spaces 24 of the capsule-shaped elements 22 were filled with 20 polyvinyl chloride foam plugs of the type and used in the manner described in Example 1. The capsule-shaped elements 22 were then glued to the sealing elements 28 using a silicone rubber adhesive operating at room temperature. The finished caps 20 having substantially similar dimensions as in Examples I or II were then assembled with a headband 1 of substantially the same dimensions and geometry as those used in Examples I or II. In the present example, however, the main band 1 was formed by injection molding a Celcon (R) resin, a highly crystalline acetal copolymer manufactured by Celanese 50 Chemical Co., New York, N.Y. This headband 1, when split open to bring the ball elements at a distance of 14.35 cm, had a restoring force of approximately 174 S (1.7 N).

The resulting hearing protector structure was then tested in accordance with the procedure described in Example IY 55.

Yoorbeeld IY

The hearing protectors of Examples 1 to III were subjected to a comparative comparison test and compared with various commercially available prior art hearing protectors of the generally similar 8006007 9 * 11 type known in the art. Audiometric data was obtained along with comments from human subjects regarding the comfort and ease of use of the hearing protectors used.

Three subjects were used for the tests and the tests were repeated 5 times for each protector in each subject. Subjects were also each instructed to adjust the barrier elements of the protectors to the best of their ability to maximize the sound attenuation behavior for each protector.

That

The audiometric test procedure was applied, the procedure 10 according to ANSI S3.19 »was only modified to the extent that three were used instead of those stipulated when human subjects were used. For the sake of convenience, the results of the audiometric analyzes are reported in Table 1 below as single-number noise reduction values (HER values). The conversion method from the ANSI S3.19 audiometric test results to the single-number NRR values is fully described in the monograph: "Single Number Measures of Hearing Protector Noise Reductions", Elliott H. Berger, EA-RLOG, EAR-Corporation, Indianapolis, Indiana, 1979 »It is pointed out that in each of the prior art hearing protectors, their ear canal sealing elements were attached to a main band element in an articulated manner.

8006007 12

TABLE II

Hearing protector Headband pressure MRR value Comments from the _ bi.i 14.55 om (dB) _ subjects

State of the art- 80 g (0.78 N) 11 Seems to leave noise through (T) despite manual adjustment

State of the art- 166 g (1.63 N) 15 Difficult to adjust (W-10)

Technical state 216 g (2.12 N) 15 Difficult to adjust (¥ -20)

State of the art 177 g (1 »73 N) 16 Difficult to install (MSB) and to adjust

State of the art 248 g (2.78 N) 14 Very uncomfortable (DSS)

Example I 180 g (1.76 N) 22 Self-adjusting

Example II 142 g (1.39 N) 21 Self-adjusting

Example III 174 g (1 »71 N) 24 Self-adjustment

Example V

Different hearing protectors were fabricated using the PVC headband of Example I and the caps 20 of the type produced in accordance with Example III. In this example, various filler materials 26 were used to fill the spaces 24 of the capsule-shaped elements 22. The resulting protector constructions were audiometrically tested by a single subject using the test equipment and procedure according to ANSI S3.19. The results of these tests were reported in Table II below.

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Although the invention has been particularly shown and described in the above description referring to preferred embodiments thereof, it will be apparent to those skilled in the art that various changes in form and details can be made without departing from the scope of the invention.

8006007

Claims (19)

Hearing protector of the type provided with a generally U-shaped resilient headband at each of the opposite ends of which an inwardly directed inwardly contacting ear canal 5 is provided, each member being placed in said resilient headband in a ear canal sealing position, characterized by the following combinations a. each said ear contacting member includes a sealing cap whose size and shape are adapted to partially insert into the ear canal, with at least that portion of said cap which can be inserted into the ear canal, is provided with a smooth, softly yielding and hollow capsule-shaped element, and b. an articulated attachment of each of said caps to its respective end portion of said headband, such that said cap can tilt around its articulated attachment point as adaptation to the ear canal under the pressure of said headband. Hearing protector according to claim 1, characterized in that the articulated joint allows the cap to tilt so that free ends thereof can describe a circular path in a plane generally perpendicular to the plane of said headband. Hearing protector according to claim 2, characterized in that said articulated connection is constructed with a ball and a holder. Hearing protector according to claim 3, characterized in that each opposite end part of said headband is provided with an end ball element and each cap is provided with a corresponding holder element in which said ball element can be received for a previous connection. Hearing protector according to claim 4, characterized in that each cap is provided with an end-sealing element for said hollow capsule-shaped element thereof and said end-sealing element is provided with a centrally positioned cavity for receiving said ball element. Hearing protector according to claim 5, characterized in that the passage opening to said cavity has an inclined surface such that a conical stop surface 40 is defined to limit the extent to which said 8006007 cap can tilt, Hearing protector according to claim 1, characterized in that said ear canal sealing cap has a conical shape wherein its smaller diameter end portion is intended to be inserted into the ear canal and its larger diameter end portion is articulated to said ear canal. end part of the headband. 8. Hearing protector according to claim 7, characterized in that the included angle of said conically shaped cap is between about 20 ° and about 50 °. Hearing protector according to claim 1, characterized in that the construction material of said capsule-shaped element has a Shore A hardness defined by ANSI-ASTM D 2240-75 between about 20 and about 50. Hearing protector according to claim 1, characterized in that the space within the hollow capsule-shaped element is at least partially filled with a compliant or resilient filling material. Hearing protector according to claim 10, characterized in that said filler material consists of an externally plasticized polyvinyl chloride foam, the nature and concentration of the plasticizer content being such that foam is obtained, with properties of a slow recovery speed from deformation and a low applied recovery pressure under deformation conditions. Hearing protector according to claim 1, characterized in that the space in said hollow capsule-shaped element is hermetically sealed and at least partially filled with a fluid. Hearing protector according to claim 1, characterized in that the capsule-shaped element is composed of silicone rubber. Hearing protector according to claim 1, characterized in that said capsule-shaped element is composed of polyvinyl chloride. Hearing protector according to claim 1, characterized in that the inwardly directed restoring force generated by the resilient headband at a distance of 14 to 35 cm between the opposite end portions thereof is between about 40-100 g and about 200 g. 80 h 0 0 7 Hearing protector according to claim 1, characterized in that said headband is composed of a rigid polyvinyl chloride resin. Hearing protector according to claim 1, characterized in that the headband is composed of a polyacetal resin. 18. Hearing protector according to claim 1, characterized in that the center of said articulated attachment is positioned on or within the outer end of said cap. Hearing protector according to claim 1, characterized in that each cap is provided with a closing element for said hollow capsule-shaped element and this closing element is provided with a connecting part for implementing said articulated attachment and a coupling part for attachment to the said capsule-shaped element wherein the connecting part and the coupling part are such that they move into contact with each other when a. cap is gripped and inserted into an ear canal. r 800 6007