The present invention relates to shears and scissors, in particular, scissors that are mechanically assisted for easier use.
Shears and scissors that are biased to an open position are known in the art. Biasing eliminates the need for the user to manually separate the blades after completing a cutting action. Many such biased, or mechanically assisted, shears employ a spring means for biasing the tool to an open position. The mechanical assistance offered by such spring-biased scissors often removes the need for finger and thumb loops in the scissors, which loops are helpful in manually separating the blades of conventional scissors that lack a biasing means. Spring-biased shears may be actuated simply by gripping the two handles to overcome the force of the biasing means, or by applying pressure from the thumb against one handle, while holding the other handle in the palm and fingers. For certain users, such as those suffering from arthritis or other lack of strength or dexterity in the fingers, using a grip-actuated mechanically assisted scissors is easier than using conventional, non-biased scissors with finger and thumb loops.
In spite of these advantages, mechanically assisted scissors of the prior art present certain problems. One such problem is that these scissors often contain exposed metal springs, creating a danger of user injury through pinching by the spring. The designs in the prior art also expose the spring to air, moisture, and water, increasing the risk of corrosion and shortening the tool's useful life. A further problem with the designs of spring-biased scissors in the prior art is that these scissors, often lacking finger loops, may easily slip from the user's hand, creating a risk of injury to the user or damage to the tool. Other problems with the biased scissors of the prior art include discomfort for, and poor control by, the user because of poorly shaped or textured handles. Accordingly, there is a need for a mechanically assisted scissors that does not have an exposed biasing means that protects the user from risk of injury, that reduces the risk of damage to the tool by dropping, and that increases comfort of use.
The mechanically assisted scissors of the present invention encloses a biasing means by providing a chamber around the pivot of the scissors in which the biasing means is positioned.
The present invention may have ergonomically curved and textured handles to enhance user comfort and ease of use.
The scissors of the present invention has a first scissor member that has a top handle and a first blade, and a second scissor member that has a bottom handle and a second blade. A pivot assembly pivotally connects the first scissor member to the second scissor member. The first scissor member has a first cavity, and the second scissor member has a corresponding second cavity. When the scissor members are pivotally connected, the first and second cavities are opposed to one another and align with one another, forming a chamber. This chamber houses a biasing means, for biasing said first scissor member and said second scissor member to an open position.
The handles of the first and second scissor members may be angularly offset in relation to the blades of the first and second scissor members. The scissors can have a finger guard that extends from the bottom handle, and the scissors also may have a tether.
In another embodiment, the present invention includes a scissors comprising a first scissor member comprising a top handle, a first cavity, and a first blade having a first inner surface. A second scissor member is also included comprising a bottom handle, a second cavity, and a second blade having a second inner surface. A pivot assembly connects the first scissor member and the second scissor member, whereby the first inner surface and the second inner surface are oriented to face one another, thereby aligning the first and second cavities with one another to form a chamber around the pivot assembly when the first and second scissor members are pivotally connected. A biasing means is located within the chamber for biasing the first scissor member and the second scissor member to an open position. An open angle limiter is peripheral to the chamber. Also included is a locking mechanism for restricting the first scissor member and the second scissor member to a closed position.
In another embodiment, the present invention includes a scissors comprising a first and second scissor member. The first scissor member comprises a top handle and a first blade having a first inner surface. The first blade extends forward of the top handle and ends at a first distal end. The top handle extends rearwardly of the first blade and ends at a first proximate end. The top handle may be slightly curved, and the top handle may have a rigid base material and a resilient grip material. The second scissor member comprises a bottom handle and a second blade having a second inner surface. The second blade extends forward of the bottom handle and ends at a second distal end. The bottom handle extends rearwardly of the second blade and ends at a second proximate end. The bottom handle may be slightly curved, may have a finger guard, may have a rigid base material and a resilient grip material, wherein the grip material is ribbed. Also included is a pivot assembly, which connects the first scissor member and the second scissor member, whereby the first inner surface and the second inner surface are oriented to face one another. The first scissor member and the second scissor member are pivotable between an open position, wherein the first and second blades are oriented transversely to one another and a closed position, wherein the first and second blades are oriented approximately parallel to one another. The first scissor member has a first cavity and the second scissor member has a second cavity, whereby the first and second cavities are opposed to one another and aligned with one another when the first and second scissor members are pivotally connected to form a chamber around the means for pivotally connecting the first and second scissor members. Also included is a biasing means within the chamber for biasing the first scissor member and the second scissor member to an open position. An open angle limiter peripheral to the chamber also is included. A locking mechanism is also included for restricting the first scissor member and the second scissor member to a closed position.
Preferred embodiments of the invention are described below with reference to the following figures, which are provided for illustrative purposes only. The figures illustrate a best mode presently contemplated for carrying out the invention.
The scissor assembly 10 also has a second scissor member 30. The second scissor member 30 has a second blade 32 and a bottom handle 34. The second blade 32 has a second inner surface 33. As shown in
The handles 24, 34 may be formed by overmolding the flexible grip material 42 over the rigid base material 40 through any suitable process such as injection molding. The handles 24, 34 also may be ribbed, as shown in the bottom handle 34 of the embodiment of
A coating 25 may be disposed on the first blade 22 and second blade 32 to enhance hardness, durability, or resistance to corrosion, or to provide an aesthetically acceptable appearance. Suitable coatings may include titanium nitride, chromium nitride, or a combination of titanium nitride and chromium nitride. Suitable coatings are known in the art, such as disclosed in U.S. patent application Ser. No. 10/720,578, U.S. patent application Ser. No. 11/231,259, and U.S. patent application Ser. No. 11/231,151, which are incorporated herein by reference.
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In general, while the present invention has been shown and described in terms of preferred embodiments, it is recognized that equivalents, alternatives, and modifications aside form those expressly stated are possible and within the scope of the invention.
This application is related to and claims the benefit of U.S. Provisional Application Ser. No. 60/734,488 on Nov. 8, 2005, the contents of which are incorporated herein by reference thereto.
Number | Date | Country | |
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60734488 | Nov 2005 | US |