Abstract:
An embodiment of the present invention is a therapy component of an animate body heat exchanger that includes: (a) a bladder that contains a heat exchange medium, which bladder is compliant and is shaped to conform to a body part to be subjected to heat exchange; (b) a gas pressure bladder that overlays at least a portion of the bladder to direct gas pressure against the body part and against the portion to press the portion towards the body part, which gas pressure bladder is defined at least partially by a first pair of generally parallel walls; and (c) a plurality of first connections that connect the walls together interiorly of the gas pressure bladder to inhibit separation of the walls,

Description:
CROSS REFERENCE TO RELATED APPLICATIONS  
       [0001]    This application is a continuation-in-part of application Ser. No. 09/493,746 filed Jan. 28, 2000 for CAP AND VEST GARMENT COMPONENTS OF AN ANIMATE BODY HEAT EXCHANGER, naming the applicant herein as the inventor. 
     
    
     
       BACKGROUND OF THE INVENTION  
         [0002]    The present invention relates to animate body heat exchanging and, more particularly, both to a therapy component that includes a gas pressure bladder having a structure which inhibits unwanted expansion of the same, and a method of manufacturing such therapy component.  
           [0003]    It is now common co apply cold and compression to a traumatized area of a human body to facilitate healing and prevent unwanted consequences of the trauma. In fact, the acronym RICE (Rest, Ice, Compression and Elevation) is now used by many.  
           [0004]    Cold packing with ice bags or the like traditionally has been used to provide deep core cooling of a body part. Elastic wraps are often applied to provide compression.  
           [0005]    It will be appreciated that these traditional techniques are quite uncontrollable. For example, the temperature of an ice pack will, of course, change when the ice melts, and it has been shown that the application of elastic wraps and, consequently, the pressure provided by the same, varies considerably even when the wrappers are experienced individuals.  
           [0006]    Because of these and other difficulties, many in the field have turned to more complicated animate body heat exchanger. Most effective animate body heat exchangers typically include two major components, an external compliant therapy component covering a body part to be subjected to heat exchange, and a control component for producing a flowing heat exchange liquid. Many control units also produce and supply an air or other gas pressure needed to apply pressure to a body part and to press the heat exchange liquid toward such body part. This air pressure is directed to another compliant bladder of the therapy component, which air pressure bladder overlays the liquid bladder to press such liquid bladder against the body part to be subjected to heat exchange, as well as apply compression to the body part to reduce edema.  
           [0007]    As can be seen, a commonly used external therapy component uses a pair of compliant bladders to contain fluids; that is, it preferably has both a compliant bladder for containing a circulating heat exchange liquid and a gas pressure bladder which overlays the liquid bladder for inhibiting edema and for pressing the liquid bladder against the body part to be subjected to heat exchange. One problem is that in many therapy component configurations of His nature, the gas pressure bladder tends to “balloon” or, in other words, expand to a much greater degree than is desired. This unwanted expansion can be the cause of several problems. For one, it can actually pull away from the body part, some or all of the conformal heat exchange bladder. For another, it can reduce its edema inhibition ability, as well as reduce the desired effect of pressing the heat exchange bladder into contact with the body part.  
         SUMMARY OF THE INVENTION  
         [0008]    The present invention is directed to remedying the above problems. From the broad standpoint it includes in a two bladder therapy component, a plurality of connections interiorly of the gas pressure bladder connecting such bladder&#39;s generally parallel walls together. In a preferred arrangement in which the bladders are formed together by heat sealing, a portion of the connections provided in the heat exchange liquid bladder to control and direct its flow are also provided in the gas pressure bladder, thereby providing the wall connections. In this connection, the preferred therapy component of the invention is made from three sheets of material. Two of such sheens are used to form a pair of walls for the heat exchange liquid bladder. The other sheet forms the outer wall of the gas bladder and cooperates with one of the other sheets to form the closed gas bladder. In other words, three sheets of material form two pair of walls defining the two pairs of bladders With one common wall.  
           [0009]    The method of he invention relates to manufacturing the therapy component. In the preferred arrangement it is directed to heat sealing the various walls and connections to assure that connections are provided within he gas pressure bladder.  
           [0010]    Other features and advantages of the invention either will become apparent or will be described in connection wish the following, more detailed description of a preferred embodiment of the invention and variations. 
       
    
    
     BRIEF DESCRIPTION OF THE DRAWING  
       [0011]    With reference to the accompanying sheets of drawing:  
         [0012]    [0012]FIG. 1 is an overall isometric and partially schematic view of a preferred embodiment of the invention;  
         [0013]    [0013]FIG. 2 is an elevation view of the interior of a heat exchange liquid bladder of a head therapy component, conforming to the preferred embodiment of the instant invention;  
         [0014]    [0014]FIG. 3 is the interior of a gas pressure bladder of the head component of FIG. 1;  
         [0015]    [0015]FIG. 4 is a partial sectional view showing the walls forming the head therapy component of the FIG. 1 preferred embodiment;  
         [0016]    [0016]FIG. 5 is an elevation view of the interior of the heat exchange liquid bladder of a vest therapy component of the preferred embodiment;  
         [0017]    [0017]FIG. 6 is an elevation view showing the interior of the gas pressure bladder of the vest component  
         [0018]    [0018]FIG. 7 is an enlarged partial isometric view showing one arrangement of connections in a gas pressure bladder; and  
         [0019]    [0019]FIG. 8 is an enlarged partial elevation view showing another arrangement of connections in a gas pressure bladder. 
     
    
     DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS  
       [0020]    The following, relatively detailed description is provided to satisfy the patent statutes. It will be appreciated by those skilled in the art, though, that various changes and modifications can be made without departing from the invention.  
         [0021]    A preferred embodiment of the animate body heat exchanger of the invention is generally referred to by the reference numeral  11  in the drawings. It includes a cap therapy component  12  serially connected with a vest therapy component  13 . A control unit for the animate body heat exchanger is schematically represented at  14 . Such control unit communicates with the therapy components via three tubes as will be discussed, extending through a tubular covering  16 . The cap and vest therapy components  12  and  13 , respectively, are connected in series with the control unit. That is, the vest therapy component is directly connected with the control unit as illustrated, whereas the cap component is connected to the vest through three tubes extending through covering  17 . (In some situations, one control unit can be used to provide liquid circulation and gas pressure for two therapy components directly (in parallel) by, for example, having a connector on the unit for two therapy components. The control unit for a parallel therapy component arrangement can be quite similar to the one described.  
         [0022]    The purpose of the animate body heat exchanger of the preferred embodiment is to cool the head and torso of a human body. Thus, the control unit includes a mechanism for cooling and circulating a liquid coolant. In a practical realization of this preferred embodiment, the liquid was a 20 percent propylene glycol solution in distilled water with a small amount of a wetting agent to break surface tension, and an anti-fungicide such as iodine. This liquid was cooled by the control unit to between 45° F. and 50° F. by being passed through a heat exchanger in the control unit. In this connection, the control unit included an ice bath surrounding a container through which the liquid was circulated after being returned from the vest therapy component  13  and before it was reintroduced into such vest component. The control unit was capable of supplying liquid at other controlled temperatures and the pressure of air furnished by the control unit was generally about 0.25 psig.  
         [0023]    It should be noted that the invention is applicable to many other types of therapy components, and the particular liquid, its temperature and pressure will be dependent upon the design and purpose of such therapy components. This is also true of the air pressure and in some instances it is cycled between two pressures (typically between 1.5 and 0.25 psig).  
         [0024]    The cap therapy component  12  includes an outer covering  18  and a bill  19 . Besides providing the visual appearance of a cap, the cover acts to cover or, in other words, hide the operational layers of she invention. The cover  18  also most desirably includes insulation, such as a layer of “Thinculite™” to isolate the operational layers from the ambient atmosphere.  
         [0025]    As best illustrated in the partial sectional view of FIG. 4, the operational layers include a compliant bladder  21  for containing the circulating heat exchange liquid. This bladder is defined by a pair of generally parallel and liquid tight flexible, or in other words, compliant walls  22  and  23 , which walls are sealed together by, for example, heat sealing as indicated at  24 . The invention also includes a compliant gas pressure bladder  26  which overlays the heat exchange bladder as illustrated to direct gas (most simply, air) pressure against a body part to inhibit edema and against the heat exchange bladder to press it towards the head. This compliant gas pressure bladder is also defined by a pair of generally parallel and flexible walls  22  and  27 . In this connection, wall  22  is a common wall, i.e., one side of the same aids in defining the gas pressure bladder whereas the other side aids in defining the liquid bladder. Thus three compliant walls are all that is necessary to define the two separate bladders. (Wall  27  is also secured at  24  via heat sealing with walls  22  and  23 .) Each of the walls  22 ,  23  and  27  is made of a nylon material suitably coated wit a polypropylene to provide both the heat sealing qualities and the needed liquid or air impermeability.  
         [0026]    As mentioned previously, one of the problems with therapy components of this nature is that the pressure bladder In certain circumstances tends to “balloon” under the air pressure. This is combated in the instant invention by providing a plurality of connections between the walls defining the air bladder. In this preferred embodiment in which the bladders are formed by heat sealing this is simply achieved by forming some of the connections normally provided in the liquid bladder while the sheet  27  is in place. The result is that these connections are also formed in the air bladder, that is, these connections are both within the liquid bladder and in the air bladder. It appears functionally as if the desired connections provided in the liquid bladder are “telegraphed” also to appear in the air bladder. These connections in the two bladders, of course, register with one another.  
         [0027]    The details of this preferred embodiment are best understood if the heat exchange bladder  30  of the cap therapy component is first described.  
         [0028]    [0028]FIG. 2 shows the interior of such heat exchange liquid bladder. All major parts of this interior is defined by the surrounding curvilinear border represented at  31 . Liquid s introduced into the central lobe of the same through a tube represented at  32 . Such liquid flows to the ends of the side lobes having exit tubes  33 . Its flow is directed by the border and a plurality of fences or, in other words, dividers which connect the walls together. This flow is indicated in FIG. 4 by arrows  36 .  
         [0029]    The connections in the interior of heat exchange liquid bladder  30  also include a relatively uniform distribution of dot connections  3 ,. This matrix of connections acts to disperse the liquid throughout the bladder. Bladder  30  has a relatively complex shape to enable the same to conform to a head. This relatively complex shape is described in detail in application Ser. No. 09/493,746 filed by the instant inventor, and the disclosure of which s incorporated herein by reference. Suffice it to say, that among other points brought out in this earlier patent application the curvilinear border is such that the various adjacent sides of the lobes intermesh with one another.  
         [0030]    The heat exchange liquid bladder  30  is overlaid by a gas pressure bladder  41  shown in some detail in FIG. 3. The border for the operational aspects of the bladder is represented at  42 , and air pressure is introduced into the bladder through tube  43 . As illustrated, the shape of this gas pressure bladder conforms to the shape of the heat exchange liquid bladder  30  As a particularly salient feature of the invention, the fences or dividers in the liquid bladder are also provided in the gas pressure bladder. These fences are indicated by the reference numeral  43 . They are provided in bladder  41  not for the purpose of directing the flow of a liquid or gas but to secure the walls defining the gas pressure bladder together at various locations within the interior of such bladder. These connections provided by the fences  43  ill prevent the gas bladder from “ballooning” out and causing the temperature control liquid bladder not to conform to the body part. These fences register with the comparable fences in the liquid bladder.  
         [0031]    During the manufacturing process, sheets of material defining the walls  22  and  23  are heat sealed together at she dot connections and if desired, at the interior fences. At a later time the wall  26  is heat sealed to the other wails with the interior fences being formed. Such fences  34  and  43  will thereby be formed in both bladders providing the desired liquid flows directors in the liquid bladder and the connections in the air bladder. This heat sealing will also form a common border for walls  22 ,  23 , and  27 . The resulting construction is represented in FIG. 3 which shows not only the dot connections  37  but also registering fence connections  34  and  43 .  
         [0032]    [0032]FIGS. 5 and 6 show an arrangement for the bladders of the vest garment therapy component similar to !hat of the cap component. With reference to FIG. 5, the border  51  of the heat exchange bladder  52  is defined by curvilinear ripples. Liquid is introduced into the bladder via inlet tube  53 , flows throughout the bladder along a path defined by fences  54 , and exits through exit Tube  56 . A matrix of dot connections  57  is provided throughout the interior to disperse the liquid and assure that all aspects of the torso are subjected to the heat exchange liquid.  
         [0033]    The interior of the gas pressure bladder  61  is represented in FIG. 6. The border  62  is defined by curvilinear ripples which register with those of the liquid bladder, and air pressure is introduced into the same via tube  63 . Such gas pressure bladder includes a fence configuration  64  which acts as the connections within the bladder between the walls. This fence configuration registers with the fence configuration in the liquid bladder shown in FIG. 5, with both this configuration and the fences in FIG. 5 being simultaneously formed by heat sealing in accordance with the manufacturing process discussed above for the cap therapy component. In this connection, the sheets of material from which the two bladders of the vest component are formed are heat sealable coated nylon. It is to be noted that in this arrangement, the dot connections are not also provided in the air pressure bladder.  
         [0034]    It is contemplated that a selection of the dot connections can be made to provide a desired connection arrangement for an gas pressure bladder. Moreover, in some situations it may be desirable to use both dots and a portion of the fences in a liquid bladder to provide connections in the overlaying gas pressure bladder. FIGS. 7 and 8 are included simply to show such arrangements. In FIG. 7, a pattern of dots is selected to provide three linear connection locations represented by phantom lines  66 ,  67  and  68 . (It does not have to be an orderly or otherwise recognizable pattern.)  
         [0035]    [0035]FIG. 8 shows an arrangement in which both dots  71  and portions of fences  72  are selected to form a desired pattern. This type of combination is particularly useful when it is desired that the pattern of connections in the air pressure ladder register with connections in the liquid bladder that extend across flow “channels.”  
         [0036]    It should be noted that although straight line connections are shown, it is not necessary from the broad standpoint. The connections could form curvilinear lines or of any desired recognizable or unrecognizable pattern. Moreover, dots and all or parts of selected fences can be chosen to provide any desired pattern of connections. Again the pattern need not be recognizable.  
         [0037]    As mentioned at the beginning of the detailed description, applicant is not limited to the specific embodiment and variations described above. They are exemplary, rather than exhaustive. For an example, it should be noted that the invention is applicable to many different therapy components as long as they have gas pressure bladders—the cap and vest garment arrangements of the preferred embodiment are utilized in this patent application to explain the invention. The claims, their equivalents and their equivalent language define the scope of protection.