Patent Publication Number: US-11033128-B2

Title: Thermal insulating structure with adjustable warmth control

Description:
CROSS-REFERENCE TO RELATED APPLICATIONS 
     The application claims one or more inventions which were disclosed in Provisional Patent Application Ser. No. 62/661,920, filed on Apr. 24, 2018, entitled SLEEPING BAG WITH ADJUSTABLE WARMTH CONTROL. The benefit under 35 USC § 119(e) of the US provisional application is hereby claimed, the entire disclosure of which is incorporated by reference herein in its entirety. 
    
    
     BACKGROUND OF THE INVENTIVE CONCEPT 
     1. Field of the Invention 
     The present inventive concept pertains to the field of a thermal insulating structure including sleeping bags and comforters. More particularly, the invention pertains to a thermal insulating structure, such a sleeping bag, a comforter and a jacket, which includes adjustable warmth control features, such as a configuration to flexibly position insulating and heat retention material. 
     2. Description of the Related Art 
     Sleeping bags have outer coverings often referred to as shells, which have been formed of all types of materials including polyesters, cotton, nylon, etc. Sleeping bag shells are generally filled with a material to attempt to keep a human&#39;s body temperature within the sleeping bag at a consistently comfortable temperature during a time in which the human sleeps or rests. This attempt to keep a human&#39;s body consistently comfortable during a period of sleeping or resting is challenging in that the body heat of humans tends to drop as they sleep as well as the occurrence of wide variations in outdoor temperatures during different seasons, which can vary from one hour to the next during a single sleeping period. 
     Moreover, humans generally sleep at night when the outdoor temperatures are much cooler, and when the temperature continue to decrease throughout the night. Therefore, these shells have been known to be filled with all types of materials which can capture and retain body heat within the sleeping bag, such as fibers, cotton, polyester, and down feathers, among many other filler materials. 
     Some sleeping bags are generally stitched in order to prevent the filler materials from moving about inside the shells and to attempt to facilitate maintaining consistent and even warmth throughout the entire sleeping bag. 
     Other sleeping bags having down feather filler commonly use a stitching referred to as a “Karo-step” design, where stitching is provided in squares to keep a predetermined amount of the down feathers in each of the squares so that the down feathers remain evenly distributed about the whole sleeping bag. However, as pointed out above, outdoor temperatures in which sleeping bags are used vary widely from below freezing temperatures to fairly warm temperatures, the latter requiring a small amount of protection from becoming cold as one&#39;s body heat decreases when sleeping. Furthermore, it is very common for the outdoor temperatures to vary widely throughout a single night as one sleeps, and it is also common for one to go to sleep feeling cold, and then as the bag warms up from body heat, the temperature inside the sleeping bag can become too warm, or conversely, one may go to bed overheated from activity, and then as the night continues on, the body temperature cools and the temperature inside the sleeping bag becomes too cold. 
     Thus, for the above reasons, the sleeping bags with permanently distributed down feathers or other filler material are not sufficiently effective at keeping humans at a comfortable temperature during different seasons, as the outdoor temperatures tend to vary from season to season. Furthermore, these sleeping bags with permanently distributed down feathers, or other filler material, are not sufficiently effective at keeping humans at a comfortable temperature over the course of a single night of sleep as the outside temperature of one&#39;s body heat decreases through one night. 
     Additionally, sleeping bags and comforters with permanently distributed down feathers cannot adapt to each person&#39;s personal preferences in that some people get cold feet, or cold legs, or a cold head, and need more insulation at these locations. Conversely, some people get hot feet, or hot legs, or their head gets hot, and therefore need less insulation in these areas. 
     An ideal sleeping bag to keep humans sufficiently comfortable throughout a period of sleep would be adjustable with quick and simple actions performed by the user of the bag so as to accommodate external temperature variation, body heat variation, and personal preferences, and at the same time minimize the sleep disturbance if an adjustment needs to be made in the middle of the sleeping or resting period. Thus, there is a need for a thermal insulating structure, such as a sleeping bag or a comforter with insulating and heat retaining properties that can be adjustable in relationship to a human&#39;s body temperature, to external environmental temperatures, and to personal preferences, and at the same time be adjustable easily and quickly. 
     SUMMARY OF THE INVENTIVE CONCEPT 
     The present general inventive concept provides a thermal insulating structure, such as sleeping bags and comforters, including adjustable warmth control features, such as flexibility of positioning of insulating and heat retention material. 
     Additional features and utilities of the present general inventive concept will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the general inventive concept. 
     The foregoing and/or other features and utilities of the present general inventive concept may be achieved by providing a thermal insulating structure, comprising: an enclosed shell of material having a front surface and a back surface with a length extending from a top to a bottom thereof and a width extending from a first side to a second side thereof, the length being greater than the width, the enclosed shell comprising: a plurality of baffles each extending along the width direction and in parallel with each other from the top to the bottom thereof, the plurality of baffles being configured to form a plurality of first channels therebetween, first and second ends of the baffles terminating short of respective first and second sides thereof; a cross baffle extending along the length direction at the second side thereof and configured to intersect each of the second ends of the plurality of baffles such that each of the first channels formed between the baffles is confined by the baffles and the cross baffle, the cross baffle forming a storage channel with the second side thereof and a space between a bottom most baffle and the bottom thereof and between a top most baffle and the top thereof; and a movement channel extending along a length thereof at the first side thereof and formed between the first side and each of the first ends of baffles such that a flow of insulating material freely moves between the movement channel and each of the plurality of first channels. 
     In an exemplary embodiment, thermal insulating structure may further comprise: a choke point formed between at least one of the first side thereof and the first end of the top most baffle and the first side thereof and the first end of the bottom most baffle, the at least one choke point configured to expand and contract at a point where the storage channel and the movement channel meet 
     In another exemplary embodiment, thermal insulating structure may further comprise: a plurality of temperature indication lines formed on the front surface and extending along the length thereof from the top most baffle to the bottom most baffle and separated from each other by predetermined distance, the temperature indications lines being configured to provide an indication of how much insulation material to fill into each of the first channels to provide a certain degree of warmth. 
     In another exemplary embodiment, thermal insulating structure may further comprise: a plurality of buttons extending along the length of one of the first side and the second side thereof; and a plurality of button holes extending along the length of opposite one of the first side and the second side thereof, such that each button hole receives and retains a corresponding button. 
     In still another exemplary embodiment, thermal insulating structure may further comprise: a hook and loop system with a strip of hooks that adhere to a strip of loops, the strip of hooks being attached along a length of one of the first or second sides of the shell and the strip of loops being attached along a length of the other one of the first or second sides of the shell to adhere to each other such that the first side and the second side of the shell. 
     In still another exemplary embodiment, the thermal insulating structure may be a sleeping bag. 
     In still another exemplary embodiment, the thermal insulating structure may be a comforter. 
     The foregoing and/or other features and utilities of the present general inventive concept may also be achieved by providing a thermal insulating structure, comprising: a thermal insulating structure, comprising: a shell of material enclosed to form a hollow interior between a front surface, a back surface, a top, a bottom and first and second sides thereof, the shell comprising: a plurality of first baffles extending between the front and back surfaces thereof to form first channels therebetween, the plurality of first baffles each beginning at a first predetermined distance from the first side thereof and terminating at a second predetermined distance from the second side thereof, the second predetermined distance being greater than the first predetermined distance; a plurality of second baffles extending between the front and back surfaces thereof to form second channels therebetween, the plurality of second baffles extending between the top and the bottom thereof and being disposed within the second predetermined distance and spaced apart from each other by a third predetermined distance such that a first one of the second baffles extends across the terminating ends of the first baffles to block each of the first channels formed between the first baffles and a last one of the second baffles is disposed away from the second side thereof by the third predetermined distance to form one of the second channels therebetween, each of the second channels having an open communication with a space between a top most first baffle and the top of the shell and with a space between the bottom most baffle and the bottom of the shell. 
     In an exemplary embodiment, the thermal insulating structure may further comprise: a choke point disposed between the beginning of the top most first baffle and the first side of the shell and the beginning of the bottom most first baffle and the first side of the shell, each of the choke points configured to expand and contract to control the flow of insulating material between the first channels and the second channels. 
     In another exemplary embodiment, the thermal insulating structure may further comprise: a plurality of temperature indication lines formed on the front surface and extending from the top most first baffle and the bottom most first baffle and each separated predetermined distance, the temperature indications lines being configured to provide an indication of how much insulation material to fill into each of the first channels to provide a certain degree of warmth. 
     In still another exemplary embodiment, the thermal insulating structure may further comprise: a plurality of buttons extending along the length of one of the first side and the second side thereof; and a plurality of button holes extending along the length of opposite one of the first side and the second side thereof, such that each button hole receives and retains a corresponding button. 
     In still another exemplary embodiment, the thermal insulating structure may further comprise: a hook and loop system with a strip of hooks that adhere to a strip of loops, the strip of hooks being attached along a length of one of the first or second sides of the shell and the strip of loops being attached along a length of the other one of the first or second sides of the shell to adhere to each other such that the first side and the second side of the shell. 
     The foregoing and/or other features and utilities of the present general inventive concept may also be achieved by providing a thermal insulating structure, comprising: a shell formed of a predetermined material and being enclosed by a front surface and a back surface, a top portion and a bottom portion and a first side and a second side, the second side having a lower portion extending farther away from the first side than an upper portion, the shell comprising: a first set of baffles each having a first end and a second end and extending widthwise between the first and second sides of the shell to define first channels, the first ends of the first baffles being disposed a predetermined distance from the first side of the shell; a second set of baffles extending lengthwise along the lower portion of the second side, each of the second baffles being formed in sections, the sections crossing alternate first baffles, each second baffle crossing a first baffle not crossed by an adjacent second baffle such that the second baffles form labyrinths along the lower portion of the second side, and the last second baffle crossing the second end of alternative first baffles to form a second lengthwise channel with the second side of the shell; and a third single baffle extending lengthwise and crossing alternative first ends of the first baffles to form a lengthwise insulation movement channel therebetween. 
     In an exemplary embodiment, the thermal insulating structure may further comprise: a plurality of temperature indication lines formed on the front surface and each extending lengthwise a predetermined distance apart between the first ends of the first baffles and the second baffle formed farthest from the second side, the predetermined distance being determined to provide an indication of how much insulation material to fill into each of the first channels to provide a certain degree of warmth. 
     In another exemplary embodiment, the thermal insulating structure may further comprise: a plurality of buttons extending along the length of one of the first side and the second side thereof; and a plurality of button holes extending along the length of opposite one of the first side and the second side thereof, such that each button hole receives and retains a corresponding button. 
     In still another exemplary embodiment, the thermal insulating structure may further comprise: a hook and loop system with a strip of hooks that adhere to a strip of loops, the strip of hooks being attached along a length of one of the first or second sides of the shell and the strip of loops being attached along a length of the other one of the first or second sides of the shell to adhere to each other such that the first side and the second side of the shell. 
     In still another exemplary embodiment, the thermal insulating structure may further comprise: a second lengthwise insulation movement channel formed through each of the first baffles and disposed an equal distance between the first ends of the first baffles and the second baffle formed farthest from the lower portion of the second side of the shell. 
     The foregoing and/or other features and utilities of the present general inventive concept may also be achieved by providing a thermal insulating structure, comprising: a shell formed of a predetermined material and being enclosed by a front surface and a back surface, a top portion and a bottom portion and a first side and a second side, the second side having a lower portion extending farther away from the first side than an upper portion, the shell comprising: a first set of baffles each having a first end and a second end and extending widthwise between the first and second sides of the shell to define first channels, the first ends of the first baffles being disposed a predetermined distance from the first side of the shell; a second set of baffles extending lengthwise along the lower portion of the second side, each of the second baffles being formed in sections, the sections crossing alternate first baffles, each of the second baffles crossing the same first baffle to form a row of crosses along alternative first baffles, the last second baffle crossing the second end of alternative first baffles to form a second lengthwise channel with the second side of the shell; and a third single baffle extending lengthwise and crossing alternative first ends of the first baffles to form a lengthwise insulation movement channel therebetween. 
     In an exemplary embodiment, the thermal insulating structure may further comprise: a second lengthwise insulation movement channel formed through each of the first baffles and disposed an equal distance between the first ends of the first baffles and the second baffle formed farthest from the lower portion of the second side of the shell. 
     In another exemplary embodiment, the thermal insulating structure may further comprise: a hook and loop system with a strip of hooks that adhere to a strip of loops, the strip of hooks being attached along a length of one of the first or second sides of the shell and the strip of loops being attached along a length of the other one of the first or second sides of the shell to adhere to each other such that the first side and the second side of the shell. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
       These and/or other features and utilities of the present general inventive concept will become apparent and more readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which: 
         FIG. 1A  illustrates a plan view of a sleeping bag according to an exemplary embodiment of the present inventive concept. 
         FIG. 1B  illustrates the sleeping bag of  FIG. 1A  along lines A-A; 
         FIG. 1C  illustrates the sleeping bag of  FIG. 1A  along the lines D-D; 
         FIG. 1D  illustrates a cross-sectional view of part of a jacket, according to another exemplary embodiment of the present inventive concept; 
         FIG. 2A  illustrates the sleeping bag of  FIG. 1A  in an operating position; 
         FIG. 2B  illustrates the sleeping bag of  FIG. 2A  in a folded over operational position; 
         FIG. 2C  illustrates a cross-sectional view of the sleeping bag of  FIG. 2A ; 
         FIG. 2D  illustrates a side view of the sleeping bag of  FIG. 2C  with a choke point in opened and closed positions; 
         FIG. 3A  illustrates the sleeping bag of  FIGS. 1A and 2A  operational in warm temperatures; 
         FIG. 3B  illustrates the sleeping bag of  FIGS. 1A and 2A  operational in cool temperatures; 
         FIG. 3C  illustrates the sleeping bag of  FIGS. 1A and 2A  operational in cold temperatures; 
         FIG. 4A  illustrates a plan view of a sleeping bag according to another exemplary embodiment of the present inventive concept. 
         FIG. 4B  illustrates the sleeping bag of  FIG. 4A  in an operating configuration; 
         FIG. 4C  illustrates the sleeping bag of  FIG. 4A  in another operating configuration; 
         FIG. 5A  illustrates a plan view of a sleeping bag according to still another exemplary embodiment of the present inventive concept; 
         FIG. 5B  illustrates a plan view of a sleeping bag according to still another exemplary embodiment of the present inventive concept; 
         FIG. 5C  illustrates a plan view of a sleeping bag according to still another exemplary embodiment of the present inventive concept; 
         FIG. 5D  illustrates a plan view of a sleeping bag according to still another exemplary embodiment of the present inventive concept; 
         FIG. 5E  illustrates an alternative structural design of the exemplary embodiments described above with reference to  FIGS. 5A through 5D . 
         FIG. 5F  illustrates another alternative structural design of the exemplary embodiments described above with reference to  FIGS. 5A through 5D . 
         FIG. 5G  illustrates still another alternative structural design of the exemplary embodiments described above with reference to  FIGS. 5A through 5D . 
         FIG. 5H  illustrates yet another alternative structural design of the exemplary embodiments described above with reference to  FIGS. 5A through 5D . 
         FIG. 6A  illustrates a sleeping bag according to yet another example embodiment of the present inventive concept; 
         FIG. 6B  illustrates the sleeping bag of  FIG. 6A  in an operating configuration; 
         FIG. 6C  illustrates the sleeping bag of  FIG. 6A  in another operating configuration; 
         FIG. 7A  illustrates a plan view of a sleeping bag according to yet another exemplary embodiment of the present inventive concept; 
         FIG. 7B  illustrates a configuration of the sleeping bag of  FIG. 7A  in an operating configuration. 
         FIG. 8A  illustrates a plan view of a sleeping bag according to still another exemplary embodiment of the present inventive concept; and 
         FIG. 8B  illustrates a configuration of the sleeping bag of  FIG. 8A  in an operating configuration. 
     
    
    
     DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS 
     Reference will now be made in detail to the embodiments of the present general inventive concept, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout. The embodiments are described below in order to explain the present general inventive concept while referring to the figures. Also, while describing the present general inventive concept, detailed descriptions about related well-known functions or configurations that may diminish the clarity of the points of the present general inventive concept are omitted. 
     It will be understood that although the terms “first” and “second” are used herein to describe various elements, these elements should not be limited by these terms. These terms are only used to distinguish one element from another element. Thus, a first element could be termed a second element, and similarly, a second element may be termed a first element without departing from the teachings of this disclosure. 
     Expressions such as “at least one of,” when preceding a list of elements, modify the entire list of elements and do not modify the individual elements of the list. 
     All terms including descriptive or technical terms which are used herein should be construed as having meanings that are obvious to one of ordinary skill in the art. However, the terms may have different meanings according to an intention of one of ordinary skill in the art, case precedents, or the appearance of new technologies. Also, some terms may be arbitrarily selected by the applicant, and in this case, the meaning of the selected terms will be described in detail in the detailed description of the invention. Thus, the terms used herein have to be defined based on the meaning of the terms together with the description throughout the specification. 
     Also, when a part “includes” or “comprises” an element, unless there is a particular description contrary thereto, the part can further include other elements, not excluding the other elements. 
     Hereinafter, one or more exemplary embodiments of the present general inventive concept will be described in detail with reference to accompanying drawings. 
     Exemplary embodiments of the present general inventive concept are directed to a thermal insulating structure, such a sleeping bag, a comforter or a jacket, which includes adjustable warmth control features, such as a configuration to flexibly position insulating and heat retention material. 
       FIG. 1A  illustrates a sleeping bag  100  according to an example embodiment of the present inventive concept. A top portion of the sleeping bag  100  will be referred to as “T” and a bottom portion of the sleeping bag will be referred to as “B.” However, these references, together with terms left and right, are provided only to provide ease of understanding the overall inventive concept, and should not be limiting. The sleeping bag  100  can be formed of polyester, cotton or nylon, or any other type of material that will provide the intended purposes of providing a flexibly adjustable temperature control during a sleeping period. 
     The sleeping bag  100  according to this exemplary embodiment can include insulating channels  101  that can be formed by stitching baffles  102   a  widthwise (horizontally) across the sleeping bag  100 , such that the insulating channels  101  are formed between the baffles  102   a  and also extend horizontally along a widthwise direction of the sleeping bag  100 . A cross baffle  102   b  can be provided along one side (shown at a right side thereof in  FIG. 1A ) of the sleeping bag  100  and can extend from one end of a top most baffle  102   a  to one end of a bottom most baffle  102   a  to form a storage channel  103   a.  The cross baffle  102   b  is also illustrated to cross one end of each of the other baffles  102   a,  thus acting as a dividing line between the storage channels  103   a  and the channels  101 . 
     As illustrated in  FIG. 1A , the cross baffle  102   b,  and hence the storage channel  103   a,  can extend across the top T and the bottom B of the sleeping bag  100  to form a C-shape. In the storage channel  103   a  down feathers or other easily movable sleeping bag insulating filler material can be contained therein, thus acting as a storage location for the sleeping bag  100  insulating filler material. The storage channel  103   a  is separated from the insulating channels  101  by the cross baffle  102   b  and the upper most baffle  102   a  and lower most baffle  102   a.  As pointed out above, the cross baffle  102   b  crosses a same end of each of the baffles  102   a  to confine the area of each of the insulating channels  101  between adjacent baffles  102   a  and the cross baffle  102   b.    
     As illustrated in  FIG. 1A , since the baffles  102   a  do not extend fully to a side of the sleeping bag  100  (illustrated as the left side) opposite from the side in which the storage channel  103   a  is formed, a movement channel  103   b  is formed to extend from an end of the top most baffle  102   a  to an end of the bottom most baffle  102   a.  The movement channel  103   b  can be an open channel that extends along the whole side of the sleeping bag  100  from the top most baffle  102   a  to the bottom most baffle  102   a.  The length of the movement channel  103   b  is defined by choke points  105 , as described in detail below. 
     The down feathers or other insulating filler material can be relocated from within the storage channel  103   a  to the individual insulating channels  101  by feeding the feathers through choke points  105 . Although two choke points  105  are illustrated, alternatively, one choke point  105  may be provided at either the top T or the bottom B end of a movement channel  103   b.  In the exemplary embodiment where only one choke point  105  is implemented, the storage channel  103   a  and the movement channel  103   b  can be separated by the choke point  105  at, for example, the top, and can be separated at the bottom by extending the bottom most baffle  102   a  all the way to the side of the sleeping bag  100  (not illustrated). 
     As illustrated in  FIG. 2C  and  FIG. 2D , the choke point(s)  105  can be formed of a tubular-shaped constriction controlled by a cord locking device extending outside the bag  100  so that a user can constrict the choke point(s)  105  and open the choke point(s)  105  as desired. Alternatively, the choke point(s)  105  can be formed with a flap inside the sleeping bag  100  which can be closed with a snap or a hook and loop system so that the choke points  105  can be opened or closed when desired. As a result of the formation of the choke point(s)  105 , the down feathers can be fed through the choke point(s)  105  back and forth between the movement channel  103   b  and the storage channel  103   a  as desired, and can also be contained in any one of the desired channels until the user moves the sleeping bag filler material to adjust the amount of filler material required to be in the insulating channels  101  to keep the user at a comfortable temperature. 
     Referring back to  FIG. 1A , the movement channel  103   b  can be fully open to each of the insulating channels  101  so that the down feathers, or other filler material, can be easily fed into any of the insulating channels  101  from the movement channel  103   b.  With this configuration, the down feathers can be selectively fed into any of the insulating channels  101  as desired. For example, if a user of the sleeping bag  100  tends to get cold feet when sleeping, the user can feed more down feathers into the lower insulating channels  101  closer to the bottom B where the user&#39;s feet are generally positioned during a sleep period. The user can also feed more down feathers into the upper insulating channels  101  to keep a user&#39;s upper body region and/or head warmer during a sleep period 
     In an exemplary embodiment, the top T of the sleeping bag  100  indicated by F 1  generally has a more rounded end and wider area to cover a user&#39;s head and provide down storage, as illustrated in  FIG. 1A . This may be formed by stitching the top most baffle  102   a  a predetermined distance away from the top T end of the bag  100 , thus forming the filler and insulation storage area F 1  at the top of the bag  100 . In a similar manner, the area at the bottom B end of the bag  100  may be stitched wider to provide an additional insulation storage area all with the intent of making the stored insulation readily available to the user. 
       FIG. 1B  illustrates the sleeping bag  100  of  FIG. 1A  as viewed along a section A-A when the bag is opened and laid flat. In this figure the bottom B along the width of the sleeping bag  100  is illustrated. As illustrated in  FIG. 1B , the storage channel  103   a  is to the right where down feathers are generally stored when less or no filler is required in the insulating area  101  of the sleeping bag  100 . Although not illustrated in  FIG. 1B , the storage channel  103   a  also extends across the top T and bottom B of the sleeping bag  100 , as illustrated in  FIG. 1A . 
     The movement channel  103   b  is illustrated in  FIG. 1B  as being flat since little or no filler material is presently located in the movement channel  103   b.  In other words, the down feathers or other insulating material that have been fed through the choke point(s)  105  and into the movement channel  103   b  from the storage channel  103   a  have been fed into the insulating channels  101  in a user&#39;s personally desired manner. At this point the sleeping bag  100  is ready to use simply by lying at one side of the sleeping bag  100  and folding the other side over the user, thus fully covering the user. Generally the user will rest on the storage channel  103   a  and the rightmost part of the insulating channel  101 then fold the remainder of the insulating channels  101  over himself/herself for insulation. When the down movement channel  103   b  is empty it can be folded over to prevent movement of the down out of the insulating channels  101 . 
     As will be discussed in more detail below, the sleeping bag  100  can have a zipper feature, buttons, or a hook and loop system at opposite sides thereof to keep the opposite sides of the sleeping bag  100  connected together, thus keeping the user covered and maintaining the body heat of the user within the confines of the sleeping bag  100 . 
       FIG. 1C  illustrates a view of the sleeping bag  100  of  FIG. 1A  along a section D-D as illustrated in  FIG. 1A . Here the baffles  102   a  are illustrated as being stitched between a front portion  100   a  of the sleeping bag  100  and a back portion  100   b  of the sleeping bag  100  to form the insulating channels  101 . The front portion  100   a  and back portion  100   b,  together with the top, bottom and opposite sides together form the entire shell of the sleeping bag  100 . This structure can also apply to comforters according to other exemplary embodiments of the present inventive concept. 
       FIG. 1D  illustrates a partial shell of a coat/jacket to be worn by a user, including stitch lines  104  that form insulating channels  101  where down feathers can be disposed for insulation. In contrast with the baffles  102   a  in  FIG. 1C , the stitch lines  104  according to this exemplary embodiment tend to let some heat escape since there are no down feathers at the stitch points  104 . Choke points  105  can be positioned at predetermined locations along the stitch points  104  to allow down feathers to be moved between each of the insulating channels  101 . 
       FIG. 2A  illustrates a top view of the sleeping bag  100  of  FIG. 1A  extending lengthwise (L) from the top T to the bottom B. As the down feathers or other insulating material are moved from the storage channel  103   a  through the choke point(s)  105  and into the movement channel  103   b,  this insulation material can then be dispersed from the movement channel  103   b  into any of the insulating channels  101  as desired. 
     As illustrated in  FIG. 2A , according to an exemplary embodiment, temperature indication lines  107  can be formed along the length of the sleeping bag  100  from the top T to the bottom B to guide the user as to how much to fill each insulating channel  101  depending on the expected environmental temperature during a sleeping period. For example, if a user intends to sleep on a snowy mountain at a temperature between 15° F. to 30° F., the user can fill each of the insulating channels  101  to a point between the 15° F. to 30° F. indication lines  107 . If a user intends to sleep at a location that is expected to have a temperature of 60° F., the user can fill each of the insulating channels  101  up to the 60° F. indication line  107 . In addition, a user can fill the lower channels  101  to a different amount than the upper insulating channels  101  depending on whether the user&#39;s feet or head get colder or hotter during sleep. 
     The temperature indication lines  107  can be formed at any desired temperature indication intervals to indicate environmental temperatures in which the sleeping bag  100  will keep the user at a comfortable temperature during use. As illustrated, in below freezing weather, such as 0° F., a user can fill each of the insulating channels  101  all the way up to the 0° F. temperature indication line  107 . To personalize the warmth for a user, a user who sleeps warm may choose to fill each of the insulating channels  101  to the 60° F. line, knowing that the forecasted temperature is expected to be about 45° F., thus providing a cooler internal temperature of the sleeping bag  100 . Similarly, a user who sleeps cold may choose to fill each of the insulating channels  101  to the 15° F. line, even though the forecasted temperature is expected to be about 30° F., thus providing a warmer internal temperature of the sleeping bag  100 . The temperature indication lines  107  are formed on the outside of the sleeping bag  100 , and do not interfere with the flow of the insulating material inside the insulating channels  101 . Once the insulating material is filled to the desired temperature indication line (or marks)  107 , this insulating material can be disbursed throughout the insulating channels  101  to provide the desired sleeping temperature. 
     The temperature indication lines  107  can alternatively be ribbons or marks at one section of the sleeping bag  100  to allow a user to estimate how much down needs to be in each of the insulating channels  101  by visual extrapolation across the length of the bag 
       FIG. 2B  illustrates one of many adjustable states in which the sleeping bag  100  can be placed for use. Here, many of the down feathers have been removed from the storage channel  103   a  and mostly distributed among the insulating channels  101 . Once the down feathers are pushed through the choke point(s)  105  and into the movement channel  103   b,  the down feathers can then be distributed among the insulating channels  101   a  s desired, as pointed out above. Also shown in  FIG. 2B  is the configuration where the movement channel  103   b  has little to no down feathers remaining therein, and at this point can be folded over to trap down from moving. This principle can be used as needed to prevent down migration. 
       FIG. 2C  illustrates a cross-sectional view of the sleeping bag of  FIG. 2A , with a choke point  105  being formed with a cord  105   a  and cord lock  105   b.  Here the cord  105   a  is fed through a small tubular channel  105   c  that extends along a perimeter of the choke point  105 . The baffles  102   a  extend width-wise W across the bag  100  and stop short to allow the movement channel  103   b  to be formed. 
       FIG. 2D  illustrates a bottom B view of the sleeping bag of  FIG. 2C  with a choke point  105  in the open position (left diagram) and in the closed position (right diagram). The tubular channel  105   c  of the choke point  105  becomes very small in the closed position such that down feathers or other insulating material cannot pass through. At this position, the tubular channel  105   c  is shriveled up. 
       FIG. 3A  illustrates a state in which the sleeping bag  100  has few down feathers in the insulating channels  101 , and the down storage and movement channels  103   a  and  103   b,  respectively, are stuffed full of feathers, thus leaving the insulating channels  101  empty on the top and bottom of the user. This is considered a warm environment sleeping configuration, since in this state little to no feathers are required to keep the user warm during a warm sleeping period. 
       FIG. 3B  illustrates a state in which the sleeping bag  100  has about half of down feathers dispersed within the insulating channels  101 . This is considered a cool sleeping configuration where the environment in which a user (U) will sleep is cool, but not cold or freezing. In this configuration the down storage channel  103   a  and movement channel  103   b  are half full of down feathers and the insulating channels  101  are filled to a medium thickness. Also illustrated is that some of the insulating down feathers are shifted on top of the user and some underneath the user since sleeping on the down feathers reduces the insulation value, thus reducing the warmth of the bag further. 
       FIG. 3C  illustrates a configuration in which the sleeping bag  100  has a maximum number of down feathers within the insulating channels  101  on top of the user and few underneath. This is considered a cold environment sleeping configuration.  FIG. 3C  illustrates where the down movement channel  103   b  is nearly empty of down feathers and is folded back and held with hook and loop to trap down over the user and prevent it from moving into the down movement channel  103   b,  while the insulating channels  101  are filled to provide a maximum loft. The storage channel  103   a  is provided with just enough down feathers to provide insulation to the user&#39;s left side and to provide enough down feathers in the filler area F 1  (see  FIG. 1A ) to cover the users head completely. Note that this configuration is ideal for sleeping on either of the user&#39;s sides rather than lying on one&#39;s back as in a typical mummy bag. As described above, these various configurations take advantage of the use of the temperature indication lines  107  to adjust the down fill in the insulating channels  101  to achieve the proper down thickness for the temperature desired. Hook and loop strips  305  (or a zipper, buttons, snaps) can be provided at an outside surface of both the storage channel  103   a  and the movement channel  103   b  to fasten the opposite sides of the sleeping bag  100  together, thus keeping the body heat of the user within the sleeping bag  100 . Here the end of the sleeping bag  100  where the movement channel  103   b  is located, and the opposite end of the sleeping bag  100  where the storage channel  103   a  is located, can be fastened together with a button and button-hole configuration  305 , a hook and loop type configuration, or a zipper configuration. These configurations are described in more detail with reference to  FIGS. 6B and 6C . 
       FIG. 4A  illustrates a sleeping bag  400  in accordance with another exemplary embodiment of the present inventive concept. In this exemplary embodiment, there can be three storage channels  403   a  in which to store down feathers, one movement channel  403   b,  and several insulating channels  401  formed in a main area  413 . Here the three storage channels  403   a  provide a configuration that is wider to contain enough down feathers to fill all of the insulating channels  401  when desired. There can alternatively be more or less than three storage channels  403   a.    
     Also provided can be a choke point  405  at the top of the movement channel  403   b  and a choke point  405  at the bottom of the movement channel  403   b  to prevent down feathers from dispersing out from the insulating channels  401  and back to the storage channels  403   a  during a cold sleeping environment. 
     The three storage channels  403   a  also distribute the down feathers evenly under a user for a warm sleeping environment when sleeping on the down feathers results in compressing the feathers and reducing the insulating performance. The choke points  405  also prevent the down feathers from dispersing around from under the user to the insulating channels  401  positioned over the user. It is to be noted that the configuration of, and communication between, the insulating channels  401 , the movement channel  403   b  and the storage channels  403   a  are not limited to the above described arrangement, and can be configured in alternative ways that will provide the intended purposes of the overall inventive concept as described herein. For example, the configuration of the insulating channels  401 , the movement channel  403   b  and the storage channels  403   a  can be rearranged in other configurations which will enable flexible movement of down feathers or other insulating filler material throughout a sleeping bag to provide adjustable warmth control throughout the sleeping bag  400 , and to provide for a quick adjustment of the temperature control. 
     Referring to  FIG. 4B , if the user decides to use the three storage channels  403   a  of  FIG. 4A  as a bed/resting pad, the user&#39;s body will compress the three storage channels  403   a  full of down feathers, making this portion of the sleeping bag  400  cooler. This also allows the user to move the down feathers around to different parts of the insulating channels  401  in the main area  413  by pushing the down feathers through choke points  405  and into the movement channel  403   b,  where the down feathers can then be distributed into the insulating channels  401  to a desired temperature level using the temperature indication lines  407 . Some down feathers can be left in the movement channel  403   b  to allow the user to quickly increase the insulation in the insulating channels  401  during a sleeping period by sweeping the down feathers (or other insulation material) from the movement channel  403   b  into the insulating channels  401  with the swipe of an arm as the temperature varies during the sleeping period. Alternatively, if the user is too warm, down feathers can also be swept from the insulating channels  401  into the movement channel  403   b  with an arm movement or by patting the down feathers out of select ones of the insulating channels  401 . 
       FIG. 4B  also illustrates where the insulating channels  401  in the main area  413  contain a large portion of the down feathers as needed to match the expected temperature conditions, and the storage channels  403   a  contain the remainder of the down insulation, which, while not contributing significantly to keeping the user warm due to being compressed, provides some insulation where the user is not lying on it, which adds comfort. 
       FIG. 4C  illustrates another configuration of the sleeping bag  400  where the down feathers can be stored in one or more of the storage channels  403   a  among the three storage channels  403   a.  Here the main area  413  including the insulating channels  401  (not illustrated due to angle) has no down feathers disbursed therein, and is used as a light covering for a user. In this configuration all of the down feathers are stored among the three storage channels  403   a  and the sleeping bag  400  would be used in warm weather and where little insulation is required, and when the user has a separate sleeping pad in which to rest on, since sleeping on the storage area  403   a  may result in more warmth than desired. 
       FIG. 5A  illustrates a sleeping bag  500  according to another exemplary embodiment of the present inventive concept. In this exemplary embodiment, insulating channels  501  extend across almost the entire sleeping bag  500  and are integrated with three storage channels  503   a.  It is to be noted that the number of storage channels  503   a  can be varied to be fewer in number while wider in size, or to be more in number and thinner in size. It is to be noted that this exemplary embodiment also relates to comforters and quilts. 
     The insulating channels  501  extend into the storage channels  503   a  and are formed by sewing first baffles  502   a  widthwise across the sleeping bag  500  in a main area  509  (confined within the dashed lines) and into the storage channels  503   a.  The main area  509  is the area that encompasses the portion of the insulating channels  501  between the storage channels  503   a  and the movement channel  503   b,  and from the top of the sleeping bag  500  to the bottom of the sleeping bag  500 . The main area  509  functions as the area in which the insulating channels  501  provide the adjustable insulation to keep a user&#39;s body at a comfortable temperature during varying environmental temperatures. 
     A first set of cross baffles  502   b  can be sewn lengthwise from the top of the sleeping bag  500  to the bottom of the sleeping bag  500  along one side (right side in  FIG. 5A ) to form three storage channels  503   a.  This first set of cross baffles  502   b  can be sewn vertically across the baffles  502   a  in sections to create T baffles (see dotted circle). The T baffles are configured to form labyrinths “L” along a portion of the insulating channels  501  (storage channels  503   a ). The insulating channels  501  and storage channels  503   a  are integrated in that the flow therebetween exists, but is partially obstructed by the cross baffles  503   a.    
     The labyrinths L make movement of the down feather more difficult than in the unobstructed portion of the insulating channels  501 , thus assisting in retaining the down feathers in the storage channels  503   a  until a user swipes an arm/hand across the labyrinths L, or pats the labyrinths L, which will force the down feathers to move in the direction of the swiping or away from the patting. Furthermore, any down feathers disbursed outside the storage channels  503   a  into the insulating channels  501  will stay outside the storage channels  503   a  as a result of the T baffles forming the labyrinths L, until the down feathers are intentionally moved back into the storage channels  503   a  with a swiping or patting of the down feathers out of the insulating channels  501 . For example, the storage channels  503   a  (disposed to the right of a phantom line “P”) will trap any down feathers that are moved into this area by a swiping, patting, or pushing of the down feathers from the main area  509  of the sleeping bag  500 , and any down feathers not swiped or patted into the storage area(s)  503   a  will remain in the insulating channels  501  due to being blocked by the T baffles forming the labyrinths L. 
     A movement channel  503   b  can be formed at a side of the sleeping bag  500  opposite the side where the storage channels  503   a  are formed (provided to the left in this diagram). Similar to the formation of the storage channels  503   a,  the movement channel  503   b  can be integrated with the insulating channels  501  by sewing a second cross baffle  502   b  in sections across alternate ones of the baffles  502   a  to create T baffles, where the flow from the insulating channels  501  to the movement channel  503   b  is open but partially obstructed by the T baffles. 
     With the configuration of the sleeping bag  500  in  FIG. 5A , a user can disburse the down feathers throughout the insulating channels  501  in the main area  509 , and can spread some or all of the down features into the storage channels  503   a,  and/or can spread some of the down feathers into the movement channel  503   b.  By spreading down feathers into the movement channel  503   b,  a user can then disburse the down feathers into any desired number of the insulating channels  501 , thus customizing the sleeping bag to have either more down feathers at the upper portion of the bag  500  for more upper body insulation, or to have more down feathers at the middle portion of the bag  500  for more mid-body insulation, or to have more feathers at the bottom portion of the bag  500  for more leg/feet insulation. In other words, by moving down feathers into the movement channel  503   b,  the user can then disburse the down feathers up and down along the side of the sleeping bag  500  from the top of the bag  500  to the bottom of the bag  500  and into any of the insulating channels  501  as desired, for the user&#39;s body type comfort level. Note that by folding the storage channels  503   a  and the down movement channel  503   b  over and attaching them using hook and loop or buttons, the down can be trapped and prevented from moving out of the insulating channels  501 . 
     In addition to selectively choosing which insulating channels  501  to fill with down feathers, a user can also spread the down feathers into each of the insulating channels  501  evenly and to a desired amount so that the feathers can be filled into each of the insulating channels  501  to an amount that matches the expected environmental temperature during a sleeping period. For example, The sleeping bag  500  can include a plurality of temperature indication lines  507  extending from the top to the bottom of the bag  500 . These temperature indication lines  507  are separated by an amount of space that has been determined to contain an amount of down feathers or other insulting material to provide a certain degree of warmth within the insulating channels  501 . Hence, a user can fill each of the insulating channels  501  to the first temperature indication line  507 , which indicates how much down feather fill is required for comfort when the sleeping temperature is expected to be about 60° F., to the second temperature indication line  507 , which indicates how much down feather fill is required for comfort when the sleeping temperature is expected to be about 45° F., to a third indication line  507 , which indicates how much down feather fill required for comfort when the sleeping temperature is expected to be about 30° F., etc. 
     The sleeping bag  500  according to this exemplary embodiment is designed to allow a user to move down feathers along the sides thereof from the top to the bottom, to move down feathers into any desired insulating channels  501  from the top to the bottom of the bag  500  for personalized comfort levels, and/or into each of the insulating channels  501  to an amount that matches the expected environmental temperature during a sleeping period, and into storage channels  503   a  to a certain degree in which some or all of the down feathers are not presently needed, or may be desired to provide a certain amount of padding for the user&#39;s back while lying thereon. 
       FIG. 5B  illustrates a sleeping bag  510  according to still another exemplary embodiment of the present inventive concept. In this exemplary embodiment, similar to the exemplary embodiment of  FIG. 5A , insulating channels  501  extend across almost the entire sleeping bag  500  and are integrated with three storage channels  503   a  so that a flow exists therebetween. It is to be noted that the number of storage channels  503   a  can be varied to be fewer in number while wider in size, or more in number while thinner in size. It is also to be noted that this exemplary embodiment can alternatively be applied as a quilt. 
     The insulating channels  501  in this exemplary embodiment, similar to the exemplary embodiment of  FIG. 5A , are formed by sewing baffles  502   a  widthwise across the sleeping bag  500 . The main area  509  in this exemplary embodiment is the same as that of the exemplary embodiment of  FIG. 5A . A first set of cross baffles  502   b  can be sewn lengthwise from the top of the sleeping bag  500  to the bottom of the sleeping bag  500  to form the three storage channels  503   a.  The storage channels  503   a  are integrated with the portion of the insulating channels  501  disposed in the main area  509 , similar to the exemplary embodiment of  FIG. 5A . 
     This first set of cross baffles  502   b  can be sewn vertically across the baffles  502   a  in sections to create T baffles (enclosed in a dotted circle). Further, adjacent first cross baffles  502   b  cross alternate baffles  502   a,  which form T baffles. The formation of the plurality of first cross baffles  502   b  form labyrinths “L” along a portion of the insulating channels  501 , thus forming the storage channels  503   a,  similar to the exemplary embodiment of  FIG. 5A . 
     With this configuration, any down feathers disbursed outside the labyrinths L, for example, into the insulating channels  501  in the main area  509 , will stay outside the labyrinths L until intentionally moved with a swiping or patting of the down feathers back into the storage channels  503   a.  For example, the storage channels  503   a  will trap any down feathers forced therein by a swiping or patting of the down feathers from the main area  509  of the bag  510 , and any down feathers not swiped or patted into the storage channels  503   a  will remain in the main area  509  of the insulating channels  501  due to being blocked by the T baffles which form the labyrinths L. 
     Also similar to the exemplary embodiment of  FIG. 5A , a movement channel  503   b  can be formed at a side of the sleeping bag  500  opposite the side where the storage channels  503   a  are formed. Similar to the formation of the storage channels  503   a,  the movement channel  503   b  can be integrated with the insulating channels  501  by sewing a second cross baffle  502   b  in sections across the baffles  502   a  to create T baffles (dotted circle). With this exemplary embodiment, a user can disburse the down feathers throughout the insulating channels  501  in the main area  509 , can spread some or all of the down features into the storage channels  503   a,  and/or can spread some of the down feathers into the movement channel  503   b.  By spreading down feathers into the movement channel  503   b,  a user can then disburse the down feathers into any desired insulating channels  501 , thus customizing the sleeping bag to have more down feathers at the upper portion of the bag  500  for more upper body insulation, or to have more down feathers at the middle portion of the bag  500  for more mid-body insulation, or to have more feathers at the bottom portion of the bag  500  for more leg/feet insulation. In other words, by moving down feathers into the movement channel  503   b,  the user can then disburse the down feathers from the top of the bag  500  to the bottom of the bag  500  and into any of the insulating channels as desired for the user&#39;s personal body type comfort level. 
     Furthermore, a user can also spread the down feathers into each of the insulating channels  501  evenly and to a desired amount so that the feathers can be filled into each of the insulating channels  501  to an extent that matches the expected environmental temperature during a sleeping period. Although not illustrated in the exemplary embodiment of  FIG. 5B , temperature indication lines  507  can be provided in this embodiment in a similar manner as those illustrated in the exemplary embodiment of  FIG. 5A . For example, a user can fill each of the insulating channels  501  to a first temperature indication line  507 , which indicates how much down feather fill is required for comfort when the sleeping temperature is expected to be about 60° F., to the second temperature indication line  507 , which indicates how much down feather fill is required for comfort when the sleeping temperature is expected to be about 45° F., to a third indication line  507 , which indicates how much down feather fill required for comfort when the sleeping temperature is expected to be about 30° F., etc. 
     In addition to the storage channels  503   a  and the movement channel  503   b,  the sleeping bag according to this exemplary embodiment may also include a second movement channel  503   c.  This second movement channel  503   c  can provide an additional means for moving down feathers that are disposed in the insulating channels  501  up toward the top of the sleeping bag  510  or down toward the bottom of the sleeping bag  510 . This additional movement channel  503   c  provides a more speedy process of moving down feathers between the different insulating channels  501 , as well as moving more down feathers into the insulating channels  501  or out of the insulating channels  501  when a user requires a quick process of adjusting the insulation comfort level during a quick drop in temperature or a quick rise in temperature during a sleeping period. 
     The sleeping bag  510  according to this exemplary embodiment is designed to allow a user to move down feathers along the sides thereof from the top to the bottom, into any desired insulating channels  501  between the top and bottom of the bag  510  for personalized comfort levels, into each of the insulating channels  501  to a degree that matches the expected environmental temperature during a sleeping period, and into storage channels  503   a  to a certain degree in which some or all of the down feathers are not presently needed or can be used to provide a desired padding for resting thereon. Additionally, the sleeping bag  510  according to this exemplary embodiment also includes a movement channel  503   c  disposed substantially in a middle of the main area  509  for quicker movement of the down feathers when environmental temperatures change rapidly and leave a user little time for adjusting the down feathers to obtain a comfortable sleeping temperature within the sleeping bag  510 . 
       FIG. 5C  illustrates still another exemplary embodiment of the present inventive concept. In this exemplary embodiment, a movement channel  503   b  can be configured the same as the movement channel  503   b  in the exemplary embodiment of  FIG. 5A  and  FIG. 5B , and insulating channels  501  can extend horizontally across the sleeping bag  520  while being integrated with the movement channel  503   b  and three storage channels  503   a,  also configured the same as that provided in the exemplary embodiment of  FIG. 5A . The insulating channels  501  in this exemplary embodiment are also defined by horizontal baffles  502   a,  which are sewn into the shell of the sleeping bag  520  to bring together front and back portions of the sleeping bag  520  and form each of the separate adjacent insulating channels  501 . 
     However, in this exemplary embodiment a first set of cross baffles  502   b  are formed differently from the first set of cross baffles  502   b  illustrated in the exemplary embodiments of  FIGS. 5A and 5B . For instance, all of the first cross baffles  502   b  in  FIG. 5C  cross every other one of the same baffles  502   a  to form broken vertical lines, thus interrupting the insulating channels  501  to form the storage channels  503   a.  In other words, the first cross baffles  502   b  are aligned with respect to each other so that every other baffle  502   a  can include a row of cross-baffle stitches  502   b  separated from each other by a predetermined distance. Hence, each alternate baffle  502   a  includes a row of T baffles (see dotted circle). 
     In this exemplary embodiment, the first set of cross baffles  502   b  do not create a labyrinth L, but instead form a partial obstruction of flow of down feathers across each of the insulating channels  501 , which creates the storage channels  503   a.  Since the partial obstruction created by the cross baffles  502   b  aligned in a row along every other baffle  502   a  do not form labyrinths L, the movement of down feathers from the insulating channels  501  located in the main area  509  to the storage channels  503   a  has a more direct path to travel, and therefore the movement of the down feathers in this exemplary embodiment is easier to accomplish than in the embodiments where labyrinths L are formed. 
     The distance between each of the first cross baffles  502   b  along the baffles  502   a  can be configured to be a predetermined distance apart, and can be slightly farther apart than the distance between adjacent baffles  502   a.  For example, the distance between each of the cross baffles  502   b  along a baffle  502   a  can be 10 inches apart while the distance between each of the baffles  502   a  can be 8 inches apart. This configuration provides for the down feathers to remain trapped within the storage channels  503   a  until intentionally disbursed into the insulating channels  501  in the main area  509  by swiping or patting the down feathers out of the storage channels  503   a  and into the insulating channels  501 . 
     Similar to the exemplary embodiments of  FIGS. 5A and 5B , a user can disburse the down feathers throughout the insulating channels  501  in the main area  509 , can spread some or all of the down features into the storage channels  503   a,  and/or can spread some of the down feathers into the movement channel  503   b.  By spreading down feathers into the movement channel  503   b,  a user can then disburse the down feathers into any desired insulating channels  501 , thus customizing the sleeping bag to have more down feathers at the upper portion of the bag  520  for more upper body insulation, or to have more down feathers at the middle portion of the bag  520  for more mid-body insulation, or to have more feathers at the bottom portion of the bag  520  for more leg/feet insulation. In other words, by moving down feathers into the movement channel  503   b,  the user can then disburse the down feathers from the top of the bag  520  to the bottom of the bag  520  as desired to obtain the user&#39;s personal body type comfort level. 
     Furthermore, a user can also spread the down feathers into each of the insulating channels  501  evenly and to a desired amount so that the feathers can be filled into each of the insulating channels  501  to match the expected environmental temperature during a sleeping period. Although not illustrated in  FIG. 5C , the sleeping bag  520  according to this exemplary embodiment can also include temperature indication lines or markers  507 , as illustrated in  FIGS. 5A and 5B . Therefore, similar to the exemplary embodiments of  FIGS. 5A and 5B , a user can fill each of the insulating channels  501  to the first temperature indication line  507 , which indicates how much down feather fill is required for comfort when the sleeping temperature is expected to be about 60° F., to the second temperature indication line  507 , which indicates how much down feather fill is required for comfort when the sleeping temperature is expected to be about 45° F., to a third indication line  507 , which indicates how much down feather fill required for comfort when the sleeping temperature is expected to be about 30° F., etc. 
       FIG. 5D  illustrates a sleeping bag  530  according to yet another exemplary embodiment of the present inventive concept. In this exemplary embodiment, similar to the exemplary embodiment of  FIG. 5C , insulating channels  501  extend across almost the entire sleeping bag  530  and are integrated with three storage channels  503   a.  As pointed out in the above described embodiments, the number of storage channels  503   a  can be varied to be fewer in number while wider in size, or more in number while thinner in size. It is also to be noted that this exemplary embodiment can alternatively be applied to a comforter or quilt. 
     The insulating channels  501  in this exemplary embodiment, similar to the exemplary embodiment of  FIG. 5C , are first formed across the bag  530  to extend almost to opposite ends thereof. The insulating channels  501  can be formed by sewing baffles  502   a  widthwise across the sleeping bag  500  almost to opposite ends thereof. Then storage channels  503   a  can be formed by stitching a set of cross baffles  502   b  that cross the baffles  502  along a length from the top to the bottom of the bag  520  at one side thereof, which results in the insulating channels  501  in the main area  509  being integrated with the storage channels  503   a  so that a flow between the insulating channels  501  and the storage channels  503   a  exists, but is partially obstructed, similar to the exemplary embodiment of  FIG. 5C . A main area  509  in this exemplary embodiment is located in the same position as that of the exemplary embodiment of  FIG. 5C . 
     Also similar to the exemplary embodiment of  FIG. 5C , a movement channel  503   b  can be formed at a side of the sleeping bag  530  opposite the side where the storage channels  503   a  are formed. Similar to the formation of the storage channels  503   a,  the movement channel  503   b  can be integrated with the insulating channels  501  by sewing a second cross baffle  502   b  in sections across ends of every other baffle  502   a  to create T baffles (illustrated by the dotted circle) so that a flow between the insulating channels  501  and the movement channel  503   b  exists, but is partially obstructed. 
     With this exemplary embodiment, a user can disburse the down feathers throughout the insulating channels  501  in the main area  509 , can spread some or all of the down features into the storage channels  503   a,  and/or can spread some of the down feathers into the movement channels  503   b.  By spreading down feathers into the movement channel  503   b,  a user can then disburse the down feathers into any desired insulating channels  501 , thus customizing the sleeping bag to have more down feathers at the upper portion of the bag  500  for more upper body insulation, or to have more down feathers at the middle portion of the bag  500  for more mid-body insulation, or to have more feathers at the bottom portion of the bag  500  for more leg/feet insulation. In other words, by moving down feathers into the movement channel  503   b,  the user can then disburse the down feathers from the top of the bag  500  to the bottom of the bag  500  as desired for the user&#39;s personal body type comfort level. 
     Furthermore, a user can also spread the down feathers into each of the insulating channels  501  evenly and to a desired amount so that the feathers can be filled into each of the insulating channels  501  to match the expected environmental temperature during a sleeping period. For example, a user can fill each of the insulating channels  501  to the first temperature indication line  507 , which indicates how much down feather fill is required for comfort when the sleeping temperature is expected to be about 60° F., to the second temperature indication line  507 , which indicates how much down feather fill is required for comfort when the sleeping temperature is expected to be about 45° F., to a third indication line  507 , which indicates how much down feather fill required for comfort when the sleeping temperature is expected to be about 30° F., etc. 
     In addition to the storage channels  503   a  and the movement channel  503   b,  the sleeping bag according to this exemplary embodiment may also include a second movement channel  503   c  disposed from the top of the sleeping bag  530  to the bottom of the sleeping bag  530  at substantially the middle of the main area  509 . This second movement channel  503   c  can provide for quick movement of the down feathers disposed in the insulating channels  501  up toward the top of the sleeping bag  510  or down toward the bottom of the sleeping bag  510  via the second movement channels  503   c.  This additional movement channel  503   c  provides a more expedient process of moving down feathers between the different insulating channels  501 , as well as moving more down feathers into the insulating channels  501  or out of the insulating channels  501  when a user requires a quick process of adjusting the temperature comfort level during a quick drop in temperature or a quick rise in temperature during a sleeping period. 
     The sleeping bag  530  according to this exemplary embodiment is designed to allow a user to move down feathers along the sides thereof from the top to the bottom, into desired insulating channels  501  from top to bottom for personalized comfort levels, into each of the insulating channels  501  to match the expected environmental temperature during a sleeping period, and into storage channels  503   a  to a certain degree in which some or all of the down feathers are not presently needed or are desired to provide a padded bed to rest on. In addition, the sleeping bag  530  according to this exemplary embodiment also provides an additional movement channel  503   c  for a more expedient process of moving the down feathers when environmental temperatures can change rapidly so that a user can rapidly change the insulation amount in the sleeping bag to keep up with temperature changes before becoming uncomfortable due to being subjected to an uncomfortable temperature during a sleeping or resting period. 
       FIG. 5E ,  FIG. 5F ,  FIG. 5G  and  FIG. 5H  illustrate various alternative structural designs of the exemplary embodiments described above with reference to  FIGS. 5A through 5D . For example,  FIG. 5E  illustrates a sleeping bag  540  according to an exemplary embodiment, where baffles  502   a  are disposed in a “chevron design,” thus extending upward and outward rather than horizontally across the sleeping bag  540 . Also in this alternative exemplary embodiment, there are movement channels  503   b  around the entire sleeping bag  540 , and no storage channels are present. 
       FIG. 5F  illustrates another alternative exemplary embodiment of a sleeping bag  550 , where baffles  502   a  extend vertically along a sleeping bag  550 , and while movement channels  503   b  extend around the sleeping bag  550 , a second movement channel  503   c  extends horizontally through a middle section thereof. Moreover, cross baffles  502   b  exist in alternative baffles  502   a.    
       FIG. 5G  illustrates yet another alternative embodiment of a sleeping bag  560 , where baffles  502   a  extend vertically and cross baffles  502   b  exist at each baffle  502   a  rather than on alternate baffles  502   a.  Moreover, cross-baffles  502   b  can occur along each baffle  502   a  in numbers of three, four, five, etc. along the length of each baffle  502   a.    
       FIG. 5H  illustrates another alternative exemplary embodiment of a sleeping bag  570 , where a set of first storage channels  503   a    1  are formed at one side thereof, similar to the exemplary embodiment illustrated in  FIG. 5B , and a second storage channel  503   a    2  takes the place of the movement channel  503   b.  With this configuration, a user simply pushes the down feathers towards both the first storage channels  503   a    1  and the second storage channel  503   a    2  to cool the sleeping bag  570  down. The down feathers will be trapped at both sides of the sleeping bag  570  due to the baffles  502   b  disposed to cross the baffles  502   a  at each side of the sleeping bag  570 . A moving channel  503   c  can be disposed down the middle of the sleeping bag  570  similar to the sleeping bag in the exemplary embodiment illustrated in  FIG. 5B . 
       FIG. 6A  illustrates a sleeping bag  600  according to yet another exemplary embodiment of the present inventive concept. This example embodiment can include insulating channels  601  that extend across a width of the sleeping bag  600  from a top T to a bottom B. Also provided are temperature indication lines  607  disposed vertically from top T to bottom B at predetermined positions spaced apart and adjacent to each other. The predetermined positions of spacing are calculated to be positions corresponding to locations across the sleeping bag  600  where down feathers or other filler insulating material should be filled within each of the insulating channels  601  to match the expected environmental temperature during a sleeping period. The sleeping bag  600  according to this exemplary embodiment can also include a large down feather storage area  611  to store the down feathers or other insulating material when the insulating material is not needed, or when some of the insulating material is desired to act as a padding for a user to sleep on. 
     This sleeping bag may also include a main area  613 , which contains the portion of the insulating channels  601  in which the temperature indication lines  607  can be provided. The main area  613  is generally used as a covering portion to cover a user during a sleeping period, while the storage area  611  is generally used as a padding for resting thereon. 
     Both the storage area  611  and the main area  613  in this embodiment include the insulating channels  601 . This storage area  611  can also include one or more choke points  605 .  FIG. 6A  illustrates one choke point  605  at the bottom of the large storage area  611  and one choke point  605  at the top of the large storage area  611 , each provided to restrict to a point that the down feathers are maintained within this storage area  611 , when desired. Choke points  605  can also be provided at the entrance to the main area  613  (see dotted circle  605 ) to prevent down insulation ingress or egress therefrom as a user may move around during a sleeping duration. 
     The large storage area  611  is separated from the main area  613  of the sleeping bag  600  by a baffle divider  609 . The choke points  605  can be sewn between the lowermost baffle stitching line  601  and the uppermost baffle stitching line  601 , respectively, and the baffle divider  609 . Further, a string can be fed through the sewn choke points  605  to be tightened when a user desires to prevent down feathers from moving between the main area  613  and the storage area  611 , and can be loosened when a user desired to move down feathers from the main area  613  or the storage area  611 . The choke points  605  can alternatively be made of a plastic or other material that maintains a predetermined shape to allow down feathers to pass through when pushed by a user&#39;s hands. As a result of the position and formation of the choke points  605 , the down feathers will remain in the large down storage area  611  until they are removed from the insulating channels  601  and pushed through the choke points  605 . Similarly, the down will remain in the main area  609  until the down feathers are pushed back through choke points  605 . 
       FIG. 6B  illustrates the sleeping bag  600  of  FIG. 6A  with most of the down feathers distributed to the insulating channels  601  in the main area  613 , where enough down feathers remain in the storage area  611  to act as a soft padding for resting on. Also shown are positions where buttons  615  can be distributed along the entire length of the sleeping bag  600  to fasten the side of the sleeping bag  600  at the main area  613  to the side of the sleeping bag  600  at the storage area  611 . Alternatively, the sides of the sleeping bag  600  can be fastened together using a zipper or a hook and loop fastening system. 
       FIG. 6B and 6C  show the benefit of using either buttons or a hook and loop system over a zipper. A comparison of  FIGS. 6B and 6C  shows that two parallel rows of buttons or hooks (or loops) can provide for a circumferentially loose fitting bag to stretch out in, and by moving the button holes to the next inner row of buttons (or hooks to the next inner row of loops) is snugged tighter around the sleeper, thus making the bag warmer. 
       FIG. 7A  illustrates a sleeping bag  700  according to still another example embodiment. This sleeping bag  700  is similar to the sleeping bag  600  illustrated in  FIGS. 6A and 6B , however, this sleeping bag  700  according to an exemplary embodiment has a large pocket  711   a  sewn within a large storage area  711 , similar to the large storage area  611 . This sleeping bag  700  can also include a baffle divider  709  to divide channels  701  formed in a main area  713  from channels  601  formed in the large storage area  711  of the sleeping bag  700 . 
       FIG. 7B  illustrates a view of the sleeping bag  700  of  FIG. 7A  where down feathers are all dispersed in the large storage area  711 , which can be used in this configuration as a bed, making sleeping very comfortable on warm evenings when the down feathers are not needed in the main area  713  to keep the user warm. Here the main area  713  can be folded over since it is void of any down feathers. 
       FIG. 8A  illustrates a sleeping bag  800  according to yet another example embodiment of the present inventive concept. This sleeping bag  800  is designed for two sleepers. Insulating channels  801  are evenly distributed among two equal halves of the sleeping bag  800 , where the halves are divided by a baffle divider  809 . Storage channels  803  can store down feathers in order to minimize insulation on top of a user, and choke points  805  are provided, similar to the previous embodiments, to contain the down feathers within the storage areas  803  until the user(s) pushes the down feathers through the choke points  805  and into the insulating channels  801  at each side of the baffle divider  809 . 
       FIG. 8B  illustrates a configuration where two users sleep in the sleeping bag  800 . Here, all or mostly all of the down feathers are distributed into the channels  801  at each side of the baffle divider  809 . The insulating channels  801  with the feathers therein act as a warm cover for each of the users, and the storage channels  803  are underneath the users. Since the storage channels  803  are empty in this configuration, the storage channels  803  will merely hold the sleeping bag  800  in place around the users. This configuration allows the users to set the temperature insulation level of the sleeping bag  800  to their individual preferences. 
     The sleeping bag  800  illustrated in  FIG. 8A  can also be configured as a comforter. The comforter can be spread across a bed to cover two users that are sleeping in a bed. Being configured as a comforter, the down feathers can be evenly distributed into each of the insulating channels  801  and storage channels  803 . 
     The various exemplary embodiments as described herein can extend to down insulated clothing such those that use down movement channels, storage areas, channels, and choke points, clothing, such as jackets and parkas, can be also made temperature adjustable over a wide range. 
     Accordingly, it is to be understood that the embodiments of the invention herein described are merely illustrative of the application of the principles of the invention. Reference herein to details of the illustrated embodiments is not intended to limit the scope of the claims, which themselves recite those features regarded as essential to the invention. 
     Although a few embodiments of the present general inventive concept have been shown and described, it will be appreciated by those skilled in the art that changes may be made in these embodiments without departing from the principles and spirit of the general inventive concept, the scope of which is defined in the appended claims and their equivalents.