Patent Application
20160368156
This disclosure relates generally to scissors and methods of manufacturing same. More particularly, this disclosure relates to scissors employing molded handle components.
In scissors and manufacturing methods to which the present disclosure relates, it is common to provide molded thumb bow and finger bow handle components. Each of the handle components fixedly receives a metal scissor blade. The handle/blade assemblies are pivotally joined to form a pair of cooperative scissors.
Briefly stated, the scissors in a preferred form comprises a first scissor component comprises a first blade and a first handle connecting the first blade and having a first pivot and a thumb bow defining a thumb opening and a first transition opening disposed between said first pivot and said thumb opening. A second scissor component comprises a second blade and a second handle connecting the second blade and having a second pivot and a finger bow defining a finger opening and a second transition opening disposed between said second pivot and said finger opening. The first and second scissor components are pivotally joined at the first and second pivots.
The first scissor component comprises a reduced neck portion and a pair of struts connecting the reduced neck portion with the thumb bow. The second scissor component also comprises a reduced neck portion and a pair of struts connecting the reduced neck portion to the finger bow. The first transition opening has a quasi-triangular shape. The second transition opening also has a quasi-triangular shape. The first handle and the second handle are molded components. The molded components are preferably formed from ABS material.
The first scissor component and the second scissor component, in a pivotally closed position, define an effective surface profile projection wherein the first and second transition openings and thumb and finger openings having an area greater than 30% of the effective surface profile projection of the first handle and the second handle. The struts generally diverge at an acute angle from the reduced neck portion.
A method for manufacturing a scissor handle component comprises providing a mold configured to form a thumb bow defining a thumb opening and an opposite pivot portion. The pivot portion transitions to a reduced neck portion and is configured to form a transition opening between the neck portion and the thumb bow. The method comprises injecting molding material into the mold at a location adjacent an intersection between the reduced neck portion and the structure at least partially defining the transition opening, to form a handle component.
In one embodiment, the method further comprises providing a second mold configured to form a finger bow defining a finger opening and an opposite pivot portion. The pivot portion transitions to a reduced neck portion and is configured to form a second transition opening between the reduced neck portion and the finger bow. The method further comprises injecting molding material into the second mold at a location adjacent an intersection between the reduced neck portion and the structure at least partially defining the second transition opening, to form a second handle component. The molding material is preferably ABS material.
A pair of scissors, in one embodiment, comprises a first scissor component comprising a first blade and a molded first handle connecting the first scissor and having a first pivot and a thumb bow defining a thumb opening and a quasi-triangular first transition opening disposed between the first pivot and the thumb opening. The first transition opening is at least partially defined by a first pair of first struts integrally connecting the thumb bow. A second scissor component comprises a second blade and a second handle connecting the blade portion and having a second pivot and a finger bow defining a finger opening and a second quasi-triangular transition opening between the second pivot and the finger opening. The second transition opening is at least partially defined by a second pair of struts integrally connecting the finger bow. The first and second scissor components are pivotally joined at the first and second pivots.
The first scissor component comprises a reduced neck portion and the first pair of struts integrally connects the reduced neck portion with the thumb bow. The second scissor component comprises a second reduced neck portion and the second pair of struts integrally connects the second reduced neck portion to the finger bow. The molded handles are formed from ABS material.
The first scissor component and the second scissor component, in a pivotally closed position, defines an effective surface profile projection wherein the first and second transition openings and the thumb and finger openings have an area greater than 30% of the effective surface profile projection of the first handle and the second handle. The first pair of struts generally diverges at an acute angle from the reduced neck portion. The second pair of struts also generally diverges at an acute angle from the second reduced neck portion.
With reference to the drawings wherein like numerals represent like parts throughout the figures, a representative pair of scissors is designated generally by the numeral 10. Scissors 10 has an efficient structure with a minimalized construction which does not adversely affect the structural and functional integrity of the scissors. Dimensions in millimeters for one preferred 8 inch embodiment are illustrated in
Scissors 10 includes a thumb handle component 20 which receives a steel or composite metal scissor 22 and a finger component 40 which receives a steel or composite metal scissor 42. The scissors 22 and 42 are staked, captured or otherwise fixedly connected with the respective handle components 20 and 40 and are joined at a pivot 60 to form the pair of scissors. The pivot 60 can assume numerous forms. The handle components 20 and 40 are molded components.
Handle component 20 includes a thumb bow 24 which preferably has a contoured circular or quasi-circular thumb opening 25. The opposing end portion of the handle includes an enlarged pivot support 26 which intermediately tapers to a reduced neck 28. A quasi-triangular shaped transition opening 30 is formed between the thumb bow opening 25 and the pivot support 26. The transition opening 30 is partially defined by a pair of struts 34 and 36 which integrally connect with the neck 28 and angularly diverge to integrally connect with the thumb bow 24 surrounding and defining the thumb opening 25.
The finger handle component 40 includes a finger bow 44 which defines a contoured finger opening 45 and an enlarged opposite pivot support 46 which intermediately tapers to a neck portion 48. A quasi-triangular shaped transition opening 50 is formed between the finger opening 45 and the pivot support 46. Angularly oriented struts 54 and 56 integrally connect the neck 48 to the finger bow 44.
The handle components 20 and 40 are preferably molded from ABS (acrylonitrile butatiene styrene) material. Other plastic and molding compositions are possible. Because of the transition openings 30 and 50, less material is required than were the handle portions otherwise solid throughout except for the thumb and finger openings. However, structural integrity of the handle portions is ensured by both the handle configurations and the method of injection molding.
Upon assembly and normal usage of the scissors, the handle components are configured so that most of the stress is applied to the neck portions 28 and 48.
An important manufacturing key to forming the handle components is the injection gate location for the handles. As best illustrated in
While preferred embodiments of the foregoing scissors and manufacturing method have been set forth for purposes of illustration, the foregoing should not be deemed a limitation of the invention herein. Accordingly, various modifications, adaptations and alternatives may occur to one skilled in the art without departing from the spirit and the scope of the present invention.
