Patent Abstract:
A continuous positive airway pressure (“CPAP”) mask is provided. The CPAP mask includes a mask support that includes a cavity provided within the mask support. The CPAP mask further includes a mask cushion that is received within the cavity. The mask cushion and the mask support each include an opening. Air can pass from an air delivery tube through the openings and into the mask cushion. The mask cushion can be placed around a patient&#39;s breathing orifice to deliver the air to the patient. The CPAP mask further includes a forehead support that is spaced apart form the mask support. A neck portion attaches the forehead support to the mask support. The neck portion is flexible and is molded to both the mask support and the forehead support. The flexible neck portion allows the mask support to move with respect to the forehead support.

Full Description:
CROSS-REFERENCE TO RELATED APPLICATIONS 
       [0001]    This application is a continuation of U.S. patent application Ser. No. 13/117,273, filed on May 27, 2011, which claims priority to U.S. provisional patent application No. 61/350,958, filed on Jun. 3, 2010, the disclosure of both of which is expressly incorporated herein by reference for all purposes. 
     
    
     FIELD 
       [0002]    The present invention relates generally to ventilation devices, and more particularly, to a continuous positive airway pressure (“CPAP”) nose mask. 
       BACKGROUND 
       [0003]    CPAP masks are commonly used to treat patients suffering from sleep apnea. A CPAP mask may be placed over a patient&#39;s face while sleeping to deliver air to the patient through the mask. The CPAP mask may cover a patient&#39;s nose and/or mouth during sleep to form a seal and ensure proper air flow. Straps can be used to hold the CPAP mask in place. Thus, a user can wear the CPAP mask and sleep with a steady supply of air flow throughout the night while the mask remains secure. The size of each patient&#39;s face can vary, however, preventing the CPAP mask from properly fitting a wide range of patients. This can cause a number of problems, such as air leakage from the mask, pain and discomfort during use, decreased effectiveness, etc. Varying mask sizes (small-large, etc.) may be used, but problems still persist, such as when the straps are tightened unevenly. Therefore, there is a continuing need for a comfortable and easily adjustable CPAP mask. 
       BRIEF SUMMARY 
       [0004]    The following presents a simplified summary in order to provide a basic understanding of some example aspects. This summary is not an extensive overview. Moreover, this summary is not intended to identify critical elements nor delineate the scope. The sole purpose of the summary is to present some concepts in simplified form as a prelude to the more detailed description that is presented later. 
         [0005]    In accordance with one aspect, a continuous positive airway pressure (“CPAP”) mask is provided comprising a rigid mask support, a mask cushion coupled to the mask support, the mask cushion and the mask support each including an opening, wherein air is configured to pass through the opening and into the mask cushion, a rigid forehead support spaced apart from the mask support, and a flexible neck portion integrally molded between the forehead support and the mask frame. 
         [0006]    In accordance with another aspect, a continuous positive airway pressure (“CPAP”) mask is provided comprising a mask support made from a first material, a forehead support made from the first material and spaced apart from the mask support, a forehead support attachment structure extending from the forehead support, the forehead support attachment structure including at least one attachment structure, and a neck portion made from a second material, wherein the first material and the second material are joined at the forehead support attachment structure by a mechanical bond. 
         [0007]    In accordance with another aspect, a method is provided for fabricating a continuous positive airway pressure (“CPAP”) mask, comprising the steps of molding a mask support out of a first material, molding a forehead support out of the first material, and molding a neck portion out of a second material, wherein the neck portion is overmolded onto corresponding portions of the mask support and the forehead support. 
     
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         [0008]    The foregoing and other aspects will become apparent to those skilled in the art upon reading the following description with reference to the accompanying drawings, in which: 
           [0009]      FIG. 1  illustrates a perspective view of an example continuous positive airway pressure (“CPAP”) mask; 
           [0010]      FIG. 2  illustrates a front elevation view of an example CPAP mask frame; 
           [0011]      FIG. 3  illustrates a side elevation view of the example CPAP mask frame; 
           [0012]      FIG. 4  illustrates a front elevation view of the example CPAP mask frame including a mask support and a forehead support; 
           [0013]      FIG. 5  illustrates a side elevation view of the example CPAP mask frame including the mask support and the forehead support; 
           [0014]      FIG. 6  illustrates a rear elevation view of the example CPAP mask frame including the mask support and the forehead support; and 
           [0015]      FIG. 7  illustrates a perspective view of an example neck portion of the CPAP mask frame. 
       
    
    
     DETAILED DESCRIPTION 
       [0016]    Example embodiments that incorporate one or more aspects are described and illustrated in the drawings. These illustrated examples are not intended to be a limitation on the present embodiments. For example, one or more aspects of the present embodiments can be utilized in other embodiments and even other types of devices. Moreover, certain terminology is used herein for convenience only and is not to be taken as a limitation on the present embodiments. Still further, in the drawings, the same reference numerals are employed for designating the same elements. 
         [0017]    Turning to the shown example of  FIG. 1 , an example continuous positive airway pressure (“CPAP”) mask  6  is shown. The CPAP mask  6  can be used to facilitate delivery of air, such as oxygen, an oxygen mixture, gas or the like, to a patient&#39;s nose and/or mouth. The CPAP mask  6  can include a mask cushion  8  attached to a mask frame  10 . The mask cushion  8  can be designed to fit over the nose of a patient. An air delivery tube  9  can be attached to the mask cushion  8  and the mask frame  10 . Air can be delivered through the air delivery tube  9 . As such, air can be delivered to the patient during sleep from the air delivery tube  9  and through the mask cushion  8  to the patient&#39;s nose. Attachment structures (not shown), such as straps, bands, or the like, can be used to removably and/or flexibly attach the CPAP mask  6  to the patient&#39;s face, as will be described in more detail below. 
         [0018]    It is to be understood that varying examples of the CPAP mask  6  can incorporate some, or all, of the features described herein. For instance, the CPAP mask  6  may be a full face mask (not shown) as opposed to merely fitting over the nose of a patient. In such an example, the CPAP mask  6  may be large enough to cover both the nose and the mouth of the patient. As such, the figures and description of the CPAP mask  6  described herein are not intended to limit the structure of the CPAP mask  6 , and a number of different examples and variations of the CPAP mask  6  are contemplated. 
         [0019]    Referring now to  FIGS. 2 and 3 , the mask frame  10  of the CPAP mask  6  is shown. The mask frame  10  can include a mask support  12 . The mask support  12  can define an outer boundary of the mask frame  10 . As shown, the mask support  12  includes a boundary portion that is generally triangular in shape, however other shapes are contemplated. For instance, the mask support  12  could include a number of different shapes, including, but not limited to circular shapes, oval shapes, rectangular shapes, or the like. Similarly, the mask support  12  can include a variety of different sizes, and is not limited to the size and proportion shown in the examples. For instance, the mask support  12  can be small enough to receive and/or fit around a patient&#39;s nose. Similarly, in another example, the mask support  12  could be large enough to receive and/or fit around both the nose and mouth of the patient, or just the mouth of the patient. The mask support  12  can be formed from a first material. The first material can include a variety of different materials, such that the mask support  12  can be a rigid structure. The first material can include, but is not limited to, a plastic material, or the like. 
         [0020]    The mask support  12  can include one or more projecting portions  13  that can provide stability and/or support to the mask support  12 . In the shown example, the projecting portions  13  include three projecting portions, however more or fewer projecting portions are contemplated. The projecting portions  13  can extend between an outer perimeter of the mask support  12  towards a center portion  11  of the mask support  12 . The projecting portions  13  include a rigid material that can form a back surface of the mask support  12 . The mask support  12  is not limited to the projecting portions  13  as shown, and, in a further example, can include a solid, fully formed back surface instead of the projecting portions  13 . 
         [0021]    The center portion  11  of the mask support  12  can further include an opening  24 . The opening  24  can be formed at an intersection of the projecting portions  13  at a back surface of the mask support  12 . The opening  24  is shown to be substantially circular, however a number of sizes and shapes are contemplated, such as square, rectangular, oval, or the like. The opening  24  can be attached to the air delivery tube  9  (shown in  FIG. 1 ) at one side. The opening  24  can be sized to have a diameter that corresponds with a diameter of the air delivery tube  9 . The opening  24  can form a seal, such as an air-tight seal, with the air delivery tube  9 . As such, air can pass from the air delivery tube  9  and through the opening  24  without escaping from the attachment between the opening  24  and the air delivery tube  9 . 
         [0022]    The mask support  12  and the projecting portions  13  can, together, define a cavity  26  formed within the mask support  12 . The cavity  26  may be sized to fit around a patient&#39;s nose and/or mouth, though multiple sizes (i.e., small, medium large, etc.) may be provided to accommodate varying face sizes. The cavity  26  can be sized to receive the mask cushion  8 . The opening  24  can define a path for the passage of air from an exterior location, through the opening  24 , and into the cavity  26 . 
         [0023]    Referring back to  FIG. 1 , the mask cushion  8  can be inserted and attached to the mask support  12 . Specifically, the mask cushion  8  can be attached within the cavity  26 . The mask cushion  8  includes an opening (not shown) that is sized to substantially match the size of the opening  24 . A periphery of the mask cushion  8  is configured to create a seal between the patient&#39;s face and the mask. The mask cushion  8  may be made of a number of materials, such as an elastomer, rubber, or the like, and may substantially fill the cavity  26 . The mask cushion  8  can further provide a delivery area for the air. The air delivery tube  9 , opening  24 , and opening in the mask cushion  8  can each be sized to have corresponding diameters. Both the air delivery tube  9  and mask cushion  8  can be attached, such as sealingly attached, to the opening  24 . Similarly, the air delivery tube  9  and the mask cushion  8  can be attached, such as sealingly attached, to each other. As such, air can be delivered through the air delivery tube  9 , through the opening  24 , and into the mask cushion  8 . Air within the mask cushion  8  can pass to the patient with minimal leakage. 
         [0024]    The mask frame  10  can further include one or more connectors  20 . The connectors  20  can be attached at a variety of locations within the mask frame  10 , but are shown to extend from the mask support  12 . The connectors  20  are not limited to the location of the shown example, and can extend from a variety of locations along the mask support  12 . The shown examples include two connectors, however, it is to be understood, that more connectors or fewer connectors can be provided. Similarly, the connectors are shown to be project outwardly as a screw shape, but can take on a number of different structures as well. Straps, bands, or the like, can be attached to the connectors  20 . The straps can wrap around a patient&#39;s head to secure the mask frame  10  to a patient&#39;s face. 
         [0025]    Turning now to  FIGS. 4 to 6 , the mask frame  10  may further include a mask support attachment structure  19 . The mask support attachment structure  19  can assist in attaching the mask support  12  to a neck portion  16 . The mask support attachment structure  19  may project outwardly from the mask support  12  and can include a protrusion  21  formed on the mask support attachment structure  19 . In the shown examples of  FIGS. 3 and 4 , the protrusion  21  is star-shaped, but a number of different shapes and sizes are possible, such as a square shape, a triangle shape, etc. As will be discussed below, the protrusion  21  can assist in attaching the neck portion  16  to the mask support attachment structure  19 . The mask support attachment structure  19  can be formed from the same material as the mask support  12 . In one example, the mask support  12  and mask support attachment structure  19  can include a plastic molded frame, such as a poly-carbonate, though a number of different materials are contemplated. In the alternative, the mask support attachment structure  19  could be formed from a different structure. 
         [0026]    The mask support attachment structure  19  can further include a mounting surface  23 . The mounting surface  23  can be formed at an intersection of the mask support attachment structure  19  and the mask support  12 . As shown in  FIG. 4 , the mounting surface  23  can be slightly larger in diameter than the mask support attachment structure  19 , and can extend from a top surface to a bottom surface of the mask support attachment structure  19 . The mounting surface  23  is shown to project at an angle with respect to the mask support  12  and mask support attachment structure  19 . The mounting surface  23  is not limited to the angle of the shown example, and can extend at a larger or smaller angle. 
         [0027]    The mask frame  10  can further include a forehead support  14 . The forehead support  14  can align with a patient&#39;s forehead while the mask support  12  and mask cushion  8  fit around a patient&#39;s nose. The forehead support  14  may include a variety of geometries, such as a flat, elongated shape and/or may be curved so as to match the contours of a patient&#39;s forehead. The forehead support  14  can be formed from the first material. The first material can be similar and/or identical to the first material of the mask support  12 . As with the mask support  12 , the first material can include a variety of different materials, such that the forehead support  14  can be a rigid structure. The first material can include, but is not limited to, a plastic material, or the like. In an alternative example, the forehead support  14  can be formed from a third material that is different from the first material of the mask support  12 . 
         [0028]    The forehead support  14  may include a cushion  17  ( FIG. 1 ), such as a pad, or the like  17  to improve comfort and adaptability of the forehead support  14 . The cushion  17  can be made from a flexible material such as a silicone elastomer or the like. The cushion  17  can be attached to the forehead support  14 , such that the cushion  17  is positioned between the forehead support  14  and the patient&#39;s forehead. The cushion  17  may include protrusions  18  allowing for the cushion  17  to be held in place, such as by a snap-fit engagement, with holes  15  in the forehead support  14 . 
         [0029]    The forehead support  14  can include one or more connectors  25 . The connectors  25  are shown to be positioned on opposing sides of the forehead support  14 . The connectors  25  can be similar or identical to the connectors  20  positioned on the mask support  12 . The connectors  25  can project outwardly from the forehead support  14  and can have a cylindrical boss shape, but a number of other shapes and structures, such as elongated apertures, are contemplated as well. The connectors  25  can project perpendicularly from the forehead support  14 . For instance, the forehead support  14  can extend along a first plane while the connectors  25  extend along a second plane that is substantially perpendicular to the first plane of the forehead support  14 . The straps can be attached to the connectors  25 . As such, the straps can be attached to both sets of connectors  20 ,  25 , such that the straps can wrap around the patient&#39;s head to secure the mask frame  10  to a patient&#39;s nose. 
         [0030]    The forehead support  14  can further include a forehead support attachment structure  28  for attaching to the neck portion  16 . The forehead support attachment structure  28  can be positioned substantially at a center point of the forehead support  14 ; however, the forehead support attachment structure  28  could be offset. The forehead support attachment structure  28  can be monolithically formed with the forehead support  14 , or could be separately formed and attached to the forehead support  14 . The forehead support attachment structure  28  can be formed from a plastic molded frame, such as a poly-carbonate, though a number of different materials are contemplated. 
         [0031]    The forehead support attachment structure  28  may include one or more attachment structures  31 , including slots, holes, openings, bores, or the like. Specifically, the attachment structures  31  can include one or more slots  32  positioned on the sides of the forehead support attachment structure  28 . The attachment structures  31  can further include one or more holes  34  extending partially or completely through the forehead support attachment structure  28 . The attachment structures  31  can further include a female bore  30  formed within the forehead support attachment structure  28 . As will be described below, the slots  32 , holes  34 , and female bore  30  can assist in attaching the forehead support attachment structure  28  to a neck portion  16 . 
         [0032]    The CPAP mask  6  is not limited to the attachment structures shown and described herein. In further examples, the forehead support attachment structure  28  could include more, fewer, or alternate attachment structures that function similarly to the attachment structures  31  in the shown example. For instance, the one or more slots  32  could be positioned along a top and bottom surface of the forehead support attachment structure  28 . In another example, holes  34  may include multiple holes, with holes positioned on side surfaces of the forehead support attachment structure  28 . Similarly, the forehead support attachment structure  28  may not include a female bore  30  and, instead, may be a substantially solid structure with a filled center portion. 
         [0033]    Referring now to  FIG. 7 , the neck portion  16  is illustrated. The neck portion  16  can include an elongated structure that curves at a substantially 45° angle. It is to be understood that the neck portion  16  is not limited to the angle in the shown example, and could extend at one or more other angles. The neck portion  16  can include opposing ends, including a first end  44  and a second end  45 . As will be described in more detail below, the first end  44  can be attached to the mask support  12  while the second end  45  can be attached to the forehead support  14 . 
         [0034]    The neck portion  16  may be formed from a second material. The second material can include a flexible material, such as an elastomeric material. It is to be understood that the neck portion  16  may be formed from a number of materials, such as a thermoplastic elastomer (TPE) with a 40 durometer Shore A. In further examples, a variety of materials and durometer measures are available depending on the application, including a range of rubbers, etc. The neck portion  16  can be flexible due to the material, such that the neck portion  16  can be flexed, twisted, or the like. 
         [0035]    The second material can be overmolded onto the mask support  12  and forehead support  14 . As such, the neck portion  16  can be integrally connected to the mask support  12  and forehead support  14 . In this example, a single mold (not shown) may be used in the fabrication of the mask frame  10 . The mold may be sized and shaped to match the desired dimensions of the mask frame  10 . In the first step, a rigid material, such as a polycarbonate, may be injected into the mold to form the mask support  12  and forehead support  14 . Next, after the mask support  12  and forehead support  14  have substantially solidified, the flexible material, e.g., elastomer, may be injected into the mold to form the neck portion  16 . The elastomer can be injected into the mold at a position between the mask support  12  and forehead support  14 . As such, the elastomer material fills in any gaps and/or surrounds the mask support attachment structure  19  and forehead support attachment structure  28 . The elastomer engages the attachment structures  31  by flowing into the attachment structures  31 , including the female bore  30 , slots  32 , and/or holes  34  of the forehead support attachment structure  28 . The elastomer also engages the protrusion  21  and mask support attachment structure  19  by flowing around and covering the protrusion  21  and mask support attachment structure  19 . The elastomer can also abut and/or contact the mounting surface  23 . Accordingly, when the elastomer solidifies, the neck portion  16  is mechanically bonded directly to both the mask support  12  and forehead support  14 . Thus, the mask frame  10  is formed of one integrally connected piece, including the mask support  12  connected to the forehead support  14  by the elastomeric neck portion  16 . 
         [0036]    In addition to the mechanical bond formed between the neck portion  16 , mask support  12  and forehead support  14 , a chemical bond may also be formed. During the overmolding process, a bond can be formed due to melting and/or chemical adhesion of the surfaces of the neck portion  16  to both the mask support attachment structure  19  and forehead support attachment structure  28 . In such an example, melting and/or a chemical reaction may occur between the surfaces to form the bond. The strength of the bond may vary due to a number of factors, including the types of material used, melting points of the materials, etc. Upon solidifying, the chemical bond is formed, thus ensuring that the mask frame  10  is integrally connected as one piece. 
         [0037]    In an alternate method of manufacture, the neck portion  16  can be formed separately from the mask support  12  and forehead support  14 . Accordingly, the neck portion  16  can be formed such that the first end  44  can be attached to the mask support  12  and the second end  45  can be attached to the forehead support  14 . For instance, the neck portion  16  may include one or more projections  36  at the second end  45  for insertion into the slots  32  of the forehead support attachment structure  28 . Though not shown in the drawings, the neck portion  16  may further include a circular projection for insertion into the one or more holes  34 . At an opposite end, the first end  44  of the neck portion  16  may include a star-shaped female receiving portion (not shown) for engaging with the protrusion  21 . The first end  44  may also include an angled surface  37  for engaging with the mounting surface  23 . The angled surface  37  can be sized and shaped to substantially match the angle of the mounting surface  23 , such that the angled surface  37  and the mounting surface  23  are in close engagement with each other. 
         [0038]    Once formed, the neck portion  16  is substantially s-shaped and can allow for the forehead support  14  to have some movement independent of the mask support  12 . For instance, if the attachment structures (not shown) attached to the connectors  20 ,  25  are unevenly tightened, the neck portion  16  can provide for side to side torsion, thereby ensuring that the mask support  12  fits snugly over the patient&#39;s nose. Similarly, the mask support  12  and forehead support  14  can be moved along multiple axes while still maintaining the necessary control to provide resistance to the mask frame  10  and ensure seal integrity and proper internal pressure. 
         [0039]    The invention has been described with reference to the example embodiments described above. Modifications and alterations will occur to others upon a reading and understanding of this specification. Examples embodiments incorporating one or more aspects of the invention are intended to include all such modifications and alterations.

Technology Classification (CPC): 0