1. Technical Field
The present invention relates to nets for ball games and, more particularly, to a ball net structure characterized by an optimal ratio of rigid metallic pipe to flexible resilient rod by length, allowing the resilient rod to bend to attain optimal curvature and produce the largest and evenest tensile force, and characterized in that two high-rigidity net-clamping shells clamp a plastic sheet edge-binder and a first edge or a second edge of the net body and are fixed in place with at least two nails to spread stress uniformly, to enable a net body to bear greater stress, and to extend the service life of the ball net structure.
2. Description of Related Art
Conventional ball games, such as tennis, volleyball, beach volleyball, and badminton, require a net for separating the two opposing players or teams. According to the prior art, a net fastening process entails erecting two metallic bars on two edges of a net and then fastening the two edges of the net to the two metallic bars, respectively. However, metal lacks elasticity, and thus it is impossible to stretch and tighten the net. As a result, the net is so flaccid that it does not function well but becomes boring to the players, thereby causing the players to reduce sport duration or frequency eventually. Furthermore, a structure made of steel or iron is not only heavy but also incapable of bending. Hence, to be bent to attain a curvature, it must be processed to attain a curvature, which is no easy job.
Although a conventional net body is peripherally provided with a plastic sheet edge-binder, the plastic sheet edge-binder is subjected directly to a tensile force, and the plastic sheet is too thin to bear a large tensile force. Furthermore, the tensile force is concentrated at the top and bottom of the two edges of the plastic sheet edge-binder. As a result, the top and bottom of the two edges of the plastic sheet edge-binder are susceptible to damage. Accordingly, the conventional net body is susceptible to damage and has a short service life.
Furthermore, it is inconvenient and takes time to erect and store the conventional net body. As a result, sports which require the conventional net body are relatively unpopular because of the aforesaid drawbacks of the conventional net body.
It is an objective of the present invention to provide a ball net structure characterized by an optimal ratio of rigid metallic pipe to flexible resilient rod by length, such that the high-flexibility resilient rods not only bend to attain optimal curvature but also produce the largest and evenest tensile force. The ball net structure of the present invention is further characterized by two high-rigidity net-clamping shells which clamp a plastic sheet edge-binder and a first edge or a second edge of the net body and are fixed in place with at least two nails to thereby achieve uniform distribution of stress, allow the net body to bear a relatively large stress, and extend the service life of the net body.
In order to achieve the above and other objectives, the present invention provides a ball net structure, comprising: a base; two tilted metallic pipes flanking the base and having front ends receiving two resilient rods, respectively, with a 2:1 ratio of metallic pipe to resilient rod by length approximately, such that the resilient rods bend to attain optimal curvature and produce the evenest and largest tensile force. Thus, a net body is evenly stretched by and between the resilient rods to keep being flat and tight under a uniform outward tensile force.
In order to achieve the above and other objectives, the present invention provides a ball net structure comprising: a net body having a first edge and a second edge, with a plastic sheet edge-binder disposed at each of the four edges of the net body; clamping elements for clamping the first edge and the second edge; a net-clamping shell of high rigidity for clamping the two clamping elements, the plastic sheet edge-binder, and the first or second edge of the net body; and at least two nails disposed on each of the net-clamping shells, spaced apart, and adapted to fix the net-clamping shells in place. The at least two nails enable the two clamping elements, the plastic sheet edge-binder, and the first or second edge of the net body to bear any force jointly and equally and thus to incur uniform distribution, rather than concentration, of stress, thereby extending the service life of the net body.
The present invention provides a ball net structure.
Referring to
The base 10 is disposed on the ground.
The two tilted metallic pipes 21, 22 are insertedly disposed on two sides of the base 10 and titled outward.
The two resilient rods 31, 32 have insertion ends 311, 321, respectively. The insertion ends 311, 321 are inserted into the tilted metallic pipes 21, 22, respectively, and fixed in place. The tilted metallic pipes 21, 22 are longer than the resilient rods 31, 32, which are made from spherical fiber or carbon fiber, such that the resilient rods 31, 32 can bend in a manner to have optimal curvature and produce the evenest and largest tensile force.
In the embodiments of the present invention, the net body 40 comes in the form of a volleyball net body 40b, badminton net body 40a, beach volleyball net body, baseball training net body 40d, and tennis net body 40c, respectively. The net body 40 has a first edge 41 and a second edge 42. The first edge 41 and the second edge 42 are disposed around the two resilient rods 31, 32, respectively. With the two resilient rods 31, 32 each bending to produce a uniform outward tensile force, the net body 40 is kept flat and tight.
Referring to
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The elastic cord 80 penetrates the two tilted metallic pipes 21, 22 and the base 10 of the baseball training net body 40d and is pulled during an assembly process to enable constituent components to be mounted quickly, thereby dispensing with the hassle of looking for the constituent components.
Referring to
The resilient rods 31, 32 of the ball net structure are each a carbon fiber rod.
The resilient rods 31, 32 of the ball net structure are each a glass fiber rod.
The resilient rods 31, 32 of the ball net structure are each a plastic rod.
Referring to
The net body 40 has the first edge 41 and the second edge 42. The four edges of the net body 40 are each edged with a plastic sheet edge-binder 43.
The first edge 41 and the second edge 42 are each clamped by and between the two clamping elements 50.
The net-clamping shells 60 are of high rigidity. The high-rigidity net-clamping shells 60 clamp the two clamping elements 50, the plastic sheet edge-binder 43, and the first edge 41 or the second edge 42 of the net body 40.
The fixing structure is provided in the form of at least two nails 70. The at least two nails 70 are disposed on each of the net-clamping shells 60, spaced apart, and adapted to fix the net-clamping shells 60 in place. Due to the at least two nails 70, the two clamping elements 50, the plastic sheet edge-binder 43, and the first edge 41 or the second edge 42 of the net body 40 bear any force jointly and equally and thus incur uniform distribution, rather than concentration, of stress, thereby extending the service life of the net body 40.
As regards the ball net structure, the at least two nails 70 are preferably three said nails 70, such that the three nails 70 bear any force jointly and equally and thus incur uniform distribution, rather than concentration, of stress, thereby extending the service life of the net body 40.
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Therefore, the ball net structure of the present invention is novel and innovative and thus meets the requirements of patentability, such as novelty and inventiveness. Furthermore, the ball net structure of the present invention is characterized by an optimal ratio of rigid metallic pipe to flexible resilient rod by length, such that the high-flexibility resilient rods not only bend to attain optimal curvature but also produce the largest and evenest tensile force. The ball net structure of the present invention is further characterized by two high-rigidity net-clamping shells which clamp the plastic sheet edge-binder and the first edge or the second edge of the net body and are fixed in place with at least two nails to thereby achieve uniform distribution of stress. Hence, the ball net structure of the present invention meets a further patentability requirement, that is, industrial applicability.
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Entry |
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Bison VB7000NS Carbon Max Carbon Fiber Composite Volleyball Net System, Jan. 31, 2015. |
Number | Date | Country | |
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20150057109 A1 | Feb 2015 | US |