The invention relates to a dog leash that prevents tangling between the dog's legs, and a method of producing the dog leash.
When taking a dog for a walk, the leash often gets tangled between or around the dog's legs. This problem is particularly prevalent when the leash is long, but can also occur with shorter leashes. Sometimes the dog owner does not notice the entanglement right away, which can be not only annoying to the dog, but dangerous as well, as the entanglement can cause the dog to trip, or reduce circulation in the dog's body.
U.S. Pat. No. 5,291,856 issued to Goller provides a solution to this problem by applying stiffening means to the leash in the form of a coiled member or a rigid shaft attached to the leash or an insert extending interiorly along the distal end of the leash. The stiffening means minimizes the tendency of the leash to become slack and entangled beneath the dog's body. However, each of these remedies has a drawback of being difficult to manufacture, or being too rigid, and/or being just plain uncomfortable.
There is a need or desire for a dog leash that does not get tangled between the dog's legs, is easy to manufacture, and provides enough flexibility to be comfortable during use.
The object of the invention, therefore, is to provide a dog leash that prevents tangling between the dog's legs without being overly rigid. Another object of the invention is to provide a method of making a dog leash that prevents tangling between the dog's legs without being overly rigid. These objects are achieved by applying a stiffening agent to an exterior surface of a flexible cord along a partial length of the flexible cord near an end that can be refastenably connected to the dog's collar. The stiffening agent can be either heat shrink tubing or a rubber coating.
A dog leash that prevents tangling between the dog's legs can be achieved by applying a stiffening agent to an exterior surface of a flexible cord along a partial length of the flexible cord near an end that can be refastenably connected to the dog's collar. The flexible cord may be any suitable dog leash material, such as a woven material, leather, cotton, nylon or other polymer, which may be either braided or flat, or have any suitably shaped cross-section. The flexible cord may be any suitable length, such as between 2 and 16 feet, or between 3 and 10 feet, or between 4 and 6 feet. For example, according to certain embodiments, the flexible cord may be 4 feet, 5 feet, or 6 feet long. The flexible cord may be formed of a single material, or a combination of two or more materials. For example, a first material extending from the first end, which may have a length between 1 and 6 feet, may be a lighter weight material than a second material extending from the second end, which may also have a length between 1 and 6 feet. The flexible cord preferably has a handle at a first end, such as in the form of a loop, and a fastener at a second end, such as a swivel fastener, for refastenably connecting the flexible cord to the dog's collar or harness.
One suitable type of stiffening agent is heat shrink tubing. The heat shrink tubing may be in the form of a single tube that can be fitted over the flexible cord and, through the application of heat, shrunk to fit the flexible cord. Alternatively, a plurality of overlapping pieces of heat shrink tubing may be fitted over the flexible cord and shrunk to fit the flexible cord.
In embodiments that include a single tube of heat shrink tubing, the single tube may be between about 6 inches and about 4 feet long, or between about 1 foot and about 3 feet long, depending on the length of the flexible cord. According to certain embodiments, the single tube of heat shrink tubing may cover between about 5% and about 60% of the length of the flexible cord, or between about 10% and about 50% of the length of the flexible cord, or between about 15% and about 40% of the length of the cord, again, depending on the length of the flexible cord.
Similarly, in embodiments that include a plurality of overlapping pieces of heat shrink tubing, the heat shrink tubing, once applied to the flexible cord, may cover a length between about 6 inches and about 4 feet, or between about 1 foot and about 3 feet. According to certain embodiments, the plurality of overlapping pieces of heat shrink tubing may cover between about 5% and about 60% of the length of the flexible cord, or between about 10% and about 50% of the length of the flexible cord, or between about 15% and about 40% of the length of the cord.
Another suitable type of stiffening agent is a rubber coating, such as a rubber dip, into which the flexible cord may be dipped, or which may be painted onto the exterior surface of the flexible cord and allowed to dry. Like the heat shrink tubing, the rubber coating may also cover a length of the flexible cord between about 6 inches and about 4 feet, or between about 1 foot and about 2 feet. According to certain embodiments, the rubber coating may cover between about 5% and about 60% of the length of the flexible cord, or between about 10% and about 50% of the length of the flexible cord, or between about 15% and about 30% of the length of the cord.
Both of these types of stiffening agent, namely the heat shrink tubing and the rubber coating, when applied to an exterior surface of the flexible cord, provide sufficient stiffness to prevent the leash from becoming tangled around or between a dog's legs, while maintaining sufficient flexibility to be comfortable for both the dog and the dog owner. If the stiffening agent is too rigid, the dog owner may feel as though the stiffening agent is pushing the dog away from the owner unnecessarily. The heat shrink tubing and the rubber coating provide enough flexibility to allow the dog and owner to be close to one another, but without the slack in the leash that would lead to entanglement of the leash around the dog's legs.
As an added bonus, when using a stiffening agent that is non-toxic, the stiffening agent doubles as a reinforcement of the flexible cord. Many dogs tend to chew on their leash, which can cause the leash to break. The reinforcement of a non-toxic stiffening agent can withstand chewing to a greater extent than the leash alone. The stiffening agent in the form of either a heat shrink tubing or rubber coating is much more durable and safer than other stiffening means, such as a coiled member, rigid shaft, or an insert extending interiorly along the distal end of the leash. Another benefit provided by the heat shrink tubing and rubber coating is the cleanliness factor. The heat shrink tubing and rubber coating provide a smooth surface that prevents dirt from getting trapped within the stiffening agent, and the surface of the stiffening agent is easy to clean.
To further enhance a user's grip on the leash 20 and to provide greater comfort to the dog owner handling the leash 20, according to certain embodiments, a rubber coating or rubber material 34, such as neoprene, may be applied to an interior surface of the loop handle 24.
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Additional elements may be added to the dog leash 20. For example, one or more reflective strips may be applied to the exterior surface of the flexible cord 22, or to an exterior surface of the stiffening agent 32, as a safety feature when walking the dog in the dark. As another example, text, such as the dog's name, and/or a graphical design or logo, may be applied to the exterior surface of the flexible cord 22 or stiffening agent 32.
A method of producing the dog leash 20 includes obtaining a flexible cord 22 having a handle 24 at the first end 26 and a fastener 28 at the second end 30 for refastenably connecting the flexible cord 22 to a collar. Application of the stiffening agent is simple and straightforward. More particularly, the stiffening agent can be applied to an exterior surface of the flexible cord 22 along a partial length of the flexible cord 22 near the second end 30. When using a heat shrink tubing 32a as the stiffening agent 32, heat must be applied to the heat shrink tubing 32a after applying the heat shrink tubing 32a to the exterior surface of the flexible cord 22. When using a rubber dip to form a rubber coating 32b, the flexible cord 22 may be dipped into the rubber dip or the rubber dip may be painted onto the exterior surface of the flexible cord 22 and allowed to dry in order to form the rubber coating 32b. A rubber material, such as neoprene, can be applied to an interior surface of the loop-shaped handle and/or to the exterior surface of the flexible cord along a partial length of the flexible cord near the handle.
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The descriptions and figures included herein depict specific implementations to teach those skilled in the art how to make and use the best option. For the purpose of teaching inventive principles, some conventional aspects have been simplified or omitted. Those skilled in the art will appreciate variations from these implementations that fall within the scope of the invention. Those skilled in the art will also appreciate that the features described above can be combined in various ways to form multiple implementations. As a result, the invention is not limited to the specific implementations described above, but only by the claims and their equivalents.
Number | Date | Country | |
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63277541 | Nov 2021 | US |