Patent Grant
6929002
1. The Field of the Invention
The present invention generally relates to a container for portable heating equipment and, in particular, to a container that can be used to transport and store portable heating equipment when the equipment is not being used and which is also designed to support at least a portion of the portable heating equipment when it is being used.
2. Description of Related Art
The popularity of outdoor recreation in the United States has grown tremendously in recent years. An ever increasing number of outdoor activities have become more accessible to a greater number of people, resulting in a greater proportion of the general population spending more time in less developed and remote areas of the country. Persons who spend time in such remote areas are commonly referred to as “outdoor enthusiasts.” Outdoor enthusiasts travel to remote areas to engage in recreational activities such as hiking, biking, camping, hunting, rock climbing, and mountain climbing.
This increased interest and participation in outdoor recreation has increased the demand for products that provide some of the comforts of modern living. For instance, portable tents of many shapes and sizes have been manufactured to provide privacy and shelter during camping and overnight excursions to remote outdoor areas. Additionally, products such as folding chairs, compact cooking apparatus, compact showering apparatus, backpacks, and portable food storage devices, such as coolers, enable outdoor enthusiasts to enjoy activities in remote areas while still enjoying some of the necessities or comforts of modern living. As a result, outdoor enthusiasts are seeking more of the modern comforts even during their recreational activities in remote areas.
Outdoor enthusiasts commonly desire to take portable heat sources for use in remote areas during their recreational activities. Various types of devices have been used for many years as portable heat sources, but heat sources that are truly portable and easy to use are not readily available. For example, a common concern for outdoor enthusiasts relates to keeping warm. Without the benefit of temperature-regulated buildings or structures, a person in a remote area is often subject to extreme temperature variations. Mountainous areas are a popular destination outdoor enthusiasts, yet, because of their high elevation, these areas often experience much lower temperatures than are comfortable, especially at night.
Portable heat sources, such as air heaters, are often used to help protect oneself from the low temperatures frequently encountered while in the outdoors and places where other sources of heat, such as electricity, are unavailable. These heaters are used to heat enclosures, such as tents, campers, trailers, tent trailers and the like. Various heaters are available, but they typically have multiple pieces, are awkward to carry and are not very “portable”.
Another type of portable heat source, such as portable water heaters, is often used by outdoor enthusiasts to provide hot water for cooking and showering. Portable water heaters are desirable because outdoor enthusiasts that previously wanted hot water often had to use a cook stove or camp fire to heat a container of water, and that required a significant amount of time. For example, a camp fire or cook stove may take fifteen to twenty minutes, or more, to heat a gallon of water.
Portable heat sources, such as showers and hot water heaters or heaters for enclosed spaces such as tents, campers and the like, can be used in a variety of situations and locations. These portable heat sources have been used for many years, but are often not truly “portable.” For example, these heat sources usually have multiple pieces and attachments which are necessary for use. These pieces and attachments are often easily lost, and are difficult to keep together so that all the pieces and attachments are accounted for when needed to operate the heat source.
In particular, conventional portable showers are often not truly portable because they are heavy, awkward to carry, and include a plurality of parts. For example, conventional portable showers often include a large housing that is divided into a number of compartments. One compartment is a large, watertight container that is used to hold the water for the shower, and the other compartments are used to hold various pieces of equipment such as a pump, power source, heat source, fuel for the heat source, hose, showerhead, etc. As a result, many of the conventional portable showers are not truly portable because they are heavy, large and awkward to move because the large water compartment is an integral part of the device, but separate from the compartments for storing the pump, power source, heat source, etc.
Portable showers with water containers that are not an integral part of the device are also known, but these water containers are not truly portable because they too are heavy and awkward. These portable showers use water containers to hold the water while the water is being heated. In particular, these types of known devices require the water container to be constructed from metal to allow heat to be transferred from the heat source to the water. Disadvantageously, metal water containers are heavy and often expensive to manufacture because of their customized shape. Such metal water containers are often made using thin sheets of metal in an attempt to minimize the weight of the container. However, the thin metal of these water containers is often easily damaged because it can be dented and disfigured, and metal water containers in general often rust or corrode over time. Further, these metal water containers are typically either large and, therefore, too heavy to be truly portable, or so small that the container cannot hold enough water sufficient for a shower. Further, these conventional portable showers often do not provide adequate hot water because, in an attempt to keep such showers lightweight and portable, the water containers are too small to hold a sufficient amount of water for use as a shower.
In a further attempt to keep these conventional water heaters portable, conventional portable water heaters typically have relatively small heat sources. However, these conventional portable showers also require all the water in the container to be heated before the device can be used as a shower. Thus, depending upon the size of the heat source and the size of the container, it can take up to thirty minutes or more to heat the water for a hot shower. Therefore, the size of the water container is further limited by the ability of the heat source to heat the container of water within an acceptable time frame. Disadvantageously, the heated water in the container, which is generally poorly insulated or not insulated at all, is constantly losing heat. This heat loss increases the time required to heat the water for a hot shower, further limiting the size of the water container. Therefore, the size of the water containers used in conventional portable showers is often limited in order to decrease the size and weight of the device and to decrease the time required to heat the water before use for showering.
Another problem with existing portable heating equipment is that when they are being used in a remote area, there often is not a convenient, flat surface to set up the fuel source and activate the portable heating equipment. If a place is chosen to set up the portable heating equipment that is not sufficiently flat or protected, the fuel source and even the whole heat source may tip over. This can potentially be very dangerous fire hazard. In addition to just the danger of burning the user, there is also the risk of starting the environment, tent, trailer or other structure on fire.
A need therefore exists for a container for portable heating equipment that is truly convenient to use, lightweight, but large enough to accommodate the portable heating equipment and also eliminates the above-described problems.
The present invention is a container for portable heating equipment that allows a heat source and other equipment to be easily carried and transported. Advantageously, the container allows the portable heating equipment to be stored and transported in a safe, secure environment. In addition, the container is capable of performing one or more functions while the heating equipment is being used. For example, the container may be used to hold water when the portable heating equipment is being used as part of a portable water heater for a shower. Additionally, the container may be used to support all or a portion of the portable heating equipment in a generally upright position. Further, the container may be used with portable heating equipment that performs different functions, such as heating a tent or other type of enclosure, cooking, heating water for a hot shower, etc. Thus, the container is a multi-functional device that can be used to store and transport a variety of heating equipment, to retain and protect the heating equipment during use, and to hold a reservoir of fluid to be heated by the heating equipment.
One aspect of the container for portable heating equipment is it provides a container for transporting the heating equipment. The container is sized and configured to hold the various components of the portable heating equipment in a relatively small and compact area. In particular, the components of the portable heating equipment are typically disassembled and inserted into the container for convenience as well as to help prevent loss of any pieces or attachments of the heating equipment. Advantageously, the components of the portable heating system may be configured to be nested together to save space within the container. The container may, in some cases, also be sized and configured to hold the fuel source to be used as part of the heating assembly.
Another aspect of the container for portable heating equipment is the container provides protection for the heating equipment from damage or breakage. Desirably, the containers are constructed from a lightweight, durable material, such as plastic, to protect the heating equipment from damage during transportation. Advantageously, plastic containers are lightweight and rugged. The container also optionally forms a generally air tight and/or water tight seal when the lid is closed, thereby protecting the equipment from damage due to exposure to the elements during storage and transportation. Additionally, plastic containers are relatively inexpensive to manufacture because they can quickly and easily be molded or formed into the desired shape.
Yet another aspect of the container for portable heating equipment is that the containers are readily stackable. This allows several containers to be stacked to save space. For example, manufacturers and retailers who typically store large quantities of such containers, or even owners of multiple types of heating equipment, can save storage space because any suitable number of containers can be stacked one on top of the other.
Another aspect of the container for portable heating equipment is the container is readily usable in connection with portable water heaters, such as those used for portable hot showers, portable stoves, or portable air heaters. When the portable water heater is being used, the container can be used to hold a water supply to be heated by the portable water heater. Portable hot showers can also be used in many different locations such as in parks, cabins, recreational vehicles (RV's), boats, beaches, etc. Thus, portable hot showers can be used in a variety of outdoor environments, and also in conjunction with indoor environments such as cabins without electrical power or permanent water heaters.
In particular, the container is used with portable showers that heat the water as it flows to the user. When used with these portable showers, the container itself can hold water to be heated by the portable shower. These types of portable showers provide heated water very quickly and efficiently because an entire reservoir or container of water does not have to be heated before a hot shower can be taken. In particular, the container is preferably used with a portable shower in which water to be heated flows directly from the container through a heating assembly where it is heated, and then directly to the user without ever being stored or held in a container or reservoir once it has been heated. In particular, an inlet from the portable shower is then inserted into the container holding the water. A pump draws the water into the heating system of the shower and propels the water through a flexible tube or conduit to a heating assembly for use by the user. These types of water heaters do not require the container to transfer heat to the water. Therefore, the container can be made of a durable and lightweight material, such as plastic, and still serve as a water supply for the water heater. Further, such water heaters do not heat the entire reservoir of water all at once, so the size of the container is not limited by the heat source's ability to heat the water within an acceptable time frame. Thus, the size of the container is small and light enough to be truly portable, while still being large enough to store the portable water heater, and to hold an adequate amount of water for a shower when the water heater is in use.
In greater detail, the container is used to store the portable heating equipment in a safe and secure environment when it is not being used. The container is also used to transport the portable heating equipment. Typically, the portable heating equipment, such as a portable shower or air heater, is at least partially disassembled when it is stored and transported within the container. When a user desires to use the portable heating equipment, the lid is removed from the body of the container and the portable heating equipment is removed from inside the container. The portable heating equipment is then assembled. A portion of the portable heating equipment is placed in a recessed portion of the lid. Thus, the lid of the container provides a stable base for the portable heating equipment. Desirably, the recessed portion in the lid is sized and configured to receive a fuel source for the portable heating equipment. The fuel source, for example, may comprise one or more pressurized propane cylinders, which are held in a generally upright position. In particular, the lid is placed on a generally flat surface and the fuel source is securely held within the recessed portion in the lid. Thus, the lid acts as a base for the fuel source and safely holds the fuel source, and in some cases the heat source, in a relatively secure and stable position.
Advantageously, the container allows a portable shower or water heater to be used in almost any location or setting. For example, the container can be filled with water from a lake, pond, stream or river; culinary water supply, such as at a house or cabin; or other suitable source. Significantly, the container holds the water to allow the portable water heater to be used any time that hot water is desired, such as for showering, cooking or cleaning.
Significantly, the container may also be used to store a portable heater for heating enclosures, such as a tent, a camper, a trailer, a tent trailer and the like. The container holds the portable tent heater in a safe and secure environment for storage and transportation. Similar to use in conjunction with the portable water heater, the lid of the container can support at least a portion of the portable tent heater in a generally upright position during use of the device.
Still another aspect of the container for portable heating equipment is the container can support other portions of the equipment during use of the portable heating device. Desirably, the container may also be configured to support a fuel source or a power source, such as a battery pack, for the heating system.
Thus, the container provides a protective carrying case and stable support for portable heating equipment, such as air heaters and water heaters. The container is made of a high strength material, such as plastic, so as to be lightweight, rugged and easy to manufacture. The container can hold water to be heated when the container is used in conjunction with a portable water heater. These and other aspects, features and advantages of the present invention will become more fully apparent from the following description of the preferred embodiments and appended claims.
The appended drawings contain figures of preferred embodiments of the container for portable heating equipment, which illustrate some of the above-recited and other aspects, features and advantages of the present invention. It will be appreciated, however, that the illustrated drawings only illustrate preferred embodiments of the invention and are not to be considered limiting of its scope. The invention will be described and explained with additional specificity and detail through the following figures:
The present invention involves a container for portable heating equipment. More specifically, the present invention is a container for use with portable heating equipment, such as portable water heaters, portable air heaters, portable stoves and the like. Advantageously, the inventive container allows the portable heating equipment to be stored in a secure environment and transported to a variety of different locations. In addition, the container is capable of supporting at least a portion of the heating equipment in a desired and safe position while the portable heating equipment is in use. The principles of the present invention, however, are not limited to containers for portable heating equipment. It will be understood that, in light of the present disclosure, the container can be successfully used in connection with other types of devices and equipment.
Additionally, to assist in the description of the container for heating equipment, words such as top, bottom, front, rear, right and left are used to describe the accompanying figures. It will be appreciated, however, that the container can be located in a variety of desired positions—including upside down. A detailed description of the container now follows.
As illustrated in
In one possible embodiment, by way of example and not limitation, body 12 has a length of about 12 inches, a width of about 9 inches and a height of about 9 inches. It will be appreciated that body 12 may also have various other dimensions depending upon various factors such as the size of the equipment to be stored inside container 10 or the desired volume of enclosed space 26. Any one or all of the height, width and length may be varied without affecting the function thereof. It is contemplated, however, that the size of body 12 is limited inasmuch as container 10 is “portable.”
Container 10 may include various optional features intended to help to stabilize container 10 when it is placed on a surface, and to aid in vertically stacking several containers 10 one on top of another. In one embodiment depicted in
Container 10 may also include an optional support structure 31 illustrated in
In one embodiment of container 10 illustrated in
In one embodiment, the interior surfaces of walls 16 defining enclosure 26 are generally smooth to facilitate storage, insertion, and removal of items in enclosure 26 of body 12. In one embodiment, inside surfaces of walls 16 include an optional reinforcing member 44 that is configured to reinforce or strengthen the corners of body 12 of container 10. One possible embodiment of reinforcing member 44 is shown and is disposed near the corners of enclosure 26 defined by walls 16 of body 12. It will be appreciated by one skilled in the art that various other configurations of reinforcing member 44 may be utilized. In one embodiment, reinforcing member 44 is depicted as elongated rib-like members. It will be appreciated that reinforcing member 44 may have various other shapes. Further, as depicted in
Container 10 also comprises lid 14, which in one embodiment is capable of moving between a closed position illustrated in
In an alternate embodiment, lid 14 does not rotate. Instead, lid 14 is manually lifted away from body 12 to move into the open position so that body 12 is accessible. In this embodiment, lid 14 is mechanically held in the closed position by a second clasp 60. Alternatively, it will be appreciated by one skilled in the art that lid 14 could be formed of a resilient material that can snap fit onto body 12. Accordingly, it will be appreciated by those skilled in the art that various other methods of attaching lid 14 to body 12 may be utilized which would allow lid 14 to move between an open position and a closed position.
As illustrated in
In one possible embodiment depicted in
In one embodiment, hinge portions 50 are integrally formed with body 12 of the container 10. One skilled in the art will appreciate that hinge portions 50 may be attached to the body 12 using any suitable fastening or connecting method, including but not limited to, gluing, welding, and the like. Additionally, one skilled in the art will appreciate that container 10 may include any suitable number of hinge portion 50 depending, for example, upon the size of body 12 or lid 14. Further, support arms 52 may be separated by any suitable distance and correspondingly, connecting member 54 may have any suitable corresponding length. It will be appreciated that in one embodiment, illustrated in
Hook-like members 80 are attached to lid 14 so as to cooperate with support arms 52 and connecting members 54. In one embodiment, hook-like members 80 are integrally formed with lid 14. One skilled in the art will appreciate that hook-like members 80 may be attached to lid 14 using any suitable fastening or connecting method, including but not limited to, gluing, welding, and the like. In addition, it will be appreciated by one skilled in the art that the positions of hook-like members 80 and support arms 52 with connecting member 54 could be reversed. In other words, hook-like members 80 could be formed on body 12 and support arms 52 with connecting members 54 could be formed on lid 14 and carry out the intended function thereof.
Turning to
Hinge portion 50 comprising pairs of spaced-apart support arms 52, a generally circular connecting member 54 extending there between, and hook-like members 80 is one example of structure capable of performing the function of means for selectively attaching lid 14 to body 12. It will be appreciated that various other types and configurations of structure are available that can perform the function of selectively attaching lid 14 to body 12. Various other types of structure that may be used as such a means for selectively attaching lid 14 to body 12 including, by way of example and not limitation, forming a snap fit or slip fit there between, sliding engagement there between, a hinge like member, nut and bolt, a cooperating opening and pin, and other mechanical coupling methods.
In one embodiment, lid 14 and body 12, when in the closed position illustrated in
In one embodiment, when lid 14 is in the closed position of
In one embodiment, a generally water-tight or water-resistant seal is created that prevents water from entering or exiting container 10 when lid 14 is closed. Additionally, this seal may be generally air tight to prevent air and other gasses from entering or exiting container 10 when lid 14 is closed. It will be appreciated, however, that in another embodiment, lid 14 and body 12 may not be either air and/or water tight, but container 12 is still capable of performing its intended function.
The present invention also comprises a closing mechanism or clasp 60 for retaining lid 14 in a closed position. It will be appreciated that various methods and structures for retaining lid 14 in the closed position are available and are well known in the art, and any such structures or methods may be used in conjunction with the present invention without departing from its spirit and scope. As depicted in
In one embodiment, shown in
More specifically, as depicted in
In one embodiment, lid 14 has a generally rectangular configuration with dimensions that generally correspond to the length and width of body 12 of container 10. It will be appreciated that lid 14 may have various other configurations as long as it cooperates with body 12 of container 10. In one embodiment, lid 14 has a length of about 12 inches and a width of about 9 inches, but the size of the lid may vary according to the size of body 12 of container 10. Additionally, in one embodiment, the height of lid 14 is about 1 to 2 inches. It will be appreciated that the height of lid 14 may be larger or smaller depending, for example, upon the intended use of the container 10.
As shown in
As shown in
As illustrated in
In one embodiment depicted in
As seen in
More specifically, when lid 14 is placed on a generally flat surface such as the ground, lid 14 supports fuel source 122 in a generally upright position and prevents it from falling or tipping over. Receiving area 120 may also be used to support all or a portion of the heating equipment, such as a portable water heater or hot shower shown in
A portable water heater that is sized and configured to be used with the container 10 is disclosed in co-pending U.S. provisional patent application Ser. No. 60/311,731, filed Aug. 10, 2001 and entitled “Portable Water Heater,” which was converted into a U.S. patent application Ser. No. 10/216,496, filed on Aug. 9, 2002, is hereby incorporated by reference in its entirety. A portable tent heater that is sized and configured to be used with container 10 is disclosed in co-pending U.S. provisional patent application Ser. No. 60/311,647, filed Aug. 10, 2001 and entitled “Portable Air Heating System,” which was converted into a U.S. patent application Ser. No. 10/215,918, filed on Aug. 9, 2002, is hereby incorporated by reference in its entirety.
A portable multi-purpose heating device that may also be used in connection with container 10 is disclosed in co-pending U.S. provisional patent application Ser. No. 60/312,649, filed on Aug. 15, 2001, and entitled “Portable Multi-purpose Heating Unit,” which was converted into a U.S. patent application Ser. No. 10/222,667 filed on Aug. 15, 2002 which is hereby incorporated by reference in its entirety. One skilled in the art will appreciate that other types of portable heating equipment may also be used in conjunction with container 10.
Returning to
When in a stacked position, feet 30 of a stacked container 10 contact surface 100 of lid 14 just outside of upwardly extending portion 126 of retaining members 124. Retaining members 124 thereby prevent feet 30 of stacked container 10 from sliding off of surface 100 of lid 14 of the lower container 10. It will be appreciated that alternatively, feet could fit inside upwardly extending portion 12 of retaining members 124. Further, various other configurations of feet 30 and retaining members could be used and still perform the function thereof. For example, an upwardly extending notch could be formed on surface 100 of lid 14 which could be received in a recess formed in foot 30.
In one embodiment, lid 14 and body 12 of container 10 are constructed from a durable, lightweight material such as plastic. Plastic is used because it can be readily molded or formed into the desired shape, and it is relatively easy and inexpensive to manufacture. Plastic is preferably impact resistant to form a durable and rugged container that helps protect the heating system during storage and transportation. It will be appreciated that container 10 may be made of various other materials without effecting the function thereof. By way of example and not limitation container 10 could be formed of various polymers, composites, carbon fiber materials, metals, metal alloys and mixtures thereof as well as other materials capable of being formed into container 10.
When container 10 is used with a portable shower as seen in
Advantageously, container 10 stores and transports the portable shower to desired location, while protecting the portable shower from damage. Body 12 of container 10 can then be used to supply water to portable shower and lid 14 supports at least a portion of the shower in a generally upright position. Thus, container 10 is a multifunctional device that is useful while storing, transporting and using the portable shower.
Although the present invention has been described in terms of certain preferred embodiments, other embodiments apparent to those skilled in the art are also intended to be within the scope of the invention. Thus, the described preferred embodiments are to be considered as illustrative and not restrictive. Accordingly, the scope of the invention is intended to be defined only by the following claims. All changes that come within the meaning and range of equivalency of the claims are to be embraced within their scope.
This application claims the benefit of U.S. Provisional Application No. 60/312,550, filed Aug. 15, 2001 and entitled “Container for Portable Heating Equipment,” which is hereby incorporated by reference.
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