RU2058171C1 - Table-tennis racket - Google Patents

Abstract

FIELD: sports equipment. SUBSTANCE: racket has handle with striking part, which contains core composed of interconnected members and outer plates. Core members are positioned in racket plane so, that cells are formed, and are made from wood. Each member has slots extending crosswise of member body and adapted to receive respective core member. EFFECT: increased efficiency and strength and enhanced reliability in operation. 5 cl, 5 dwg

Description

 The invention relates to sports equipment, in particular to rackets for table tennis.

 The prior art table tennis racket, which contains a handle with a striking part, including a core made of interconnected elements made of wood, and outer plates, is the closest analogue to the one claimed (German patent N 3826986, class A 61 B 59/04, 1990).

 A disadvantage of the tennis racket known in the art is its high weight and insufficiently high rigidity.

 The technical task of the invention is to provide a racket with low weight and high rigidity.

 The technical result is achieved due to the fact that the racket for table tennis contains a handle with an impact part, including outer plates and a core consisting of elements made of wood, which are located in the plane of the racket with the formation of a cellular structure, with each element having transverse grooves to accommodate the corresponding core element.

 The groove connection of the core elements, each of which in cross section may have a different shape, rectangular, round, or triangular, can be hardened with adhesive compositions, and the core elements can be made of veneer and / or plywood from different types of wood with different directions of wood fibers and the outer plates of the racket can be made of plywood, including wood of one or different types of wood with the same or different direction of the fibers.

 Cells formed by core elements, or some of them, can be filled with foamed epoxy resin and / or other lightweight fillers from a material with low density and / or core fragments.

 In FIG. 1 shows a racket assembly; figure 2 section aa in figure 1; in FIG. 3 is a longitudinal section BB in FIG. 1; in Fig.4 the core of the racket; 5, embodiments of the shape of the cells of the racket core.

 Tennis racket contains a handle 1, outer plates 2, a core 3 placed between them, made of interconnected elements 4 made of wood, located in the plane of the racket with the formation of cells 5. Each element 4 of the core 3 has transverse grooves 6 for placement in corresponding element 4, and its cross-section may have a different shape (triangular, round, rectangular) (not shown in the drawing).

 Elements 4 are made of dense wood so that the wood fibers run along the axis of the element, which provides it with high bending stiffness. Elements 4 of the core 3 are placed inside the racket in different directions with respect to one another, which provides the racket with bending stiffness not in one but in several directions. The directions of the elements and the pattern of their location (figure 5) are selected taking into account the greatest deformation loads occurring on the racket during the impact. When placing the elements in the grooves of the corresponding element, a strong cellular frame is formed having a low weight and high bending stiffness in various directions of the applied force. Due to the small weight of the core due to the large porosity, it is possible to increase the thickness of the impact part over the usual, thereby increasing the stiffness and strength of the racket as a whole.

 The core 3 may be made of basalt wood. The core 3 is connected to the outer plates 2 of the racket by means of any suitable adhesive compositions. To ensure uniformity of the racket’s striking part, all cells, or some of them, for example the largest ones, are filled with waste fragments of the core 3 and / or (not shown) with materials of low density, for example, hardening foamed or containing light fillers epoxy resin. The configuration and cross-sectional profile of the fragments, as well as the pattern of the filler fragments, can be arbitrary, except that the thickness of the fragments must correspond to the thickness of the core 3. The filler fragments can be connected and / or not connected to the elements of the core-racket. A racket made in this way has a slightly reduced strength, but a high "speed" and low weight. In this regard, it can serve as a good tool for beginner athletes.

 The material for the manufacture of elements 4 of the core 3 can be any wood. The best results are achieved using dense wood (oak, ash) and / or medium density wood (beech, birch). In order to reduce the waste of valuable hardwood, veneer can also be used as a starting material for the manufacture of core elements. The veneer elements are made so that the wood fibers run parallel to the longitudinal axis of the element. Sliced veneer is more suitable, since peeled contains a greater number of microcracks, which reduces the strength of the elements and also complicates their production. In order to increase the strength of the elements and reduce the percentage of defects for the manufacture of elements, glued veneer sheets, i.e. plywood, can be used. When using plywood, a similarly bonded three-layer plywood is most preferred. Elements of plywood are made so that the wood fibers of the largest number of plywood sheets lie parallel to the longitudinal axis of the element. The use of plywood reduces the cost of a racket, but increases its weight, reduces the operational characteristics of "control", "speed".

 The material for the manufacture of the outer casing 3 of the racket 2 covering the core 3 can be veneer and / or two- or three-layer plywood made of wood of various densities. The best results are achieved using two-layer plywood made of dense wood with a transverse arrangement of fibers in each layer of plywood. Due to the fact that the core 3 provides the racket with high strength, rigidity, the use of additional intermediate layers of reinforced plastics in the racket is not required, but is not excluded.

 Thus, the proposed design of a tennis racket can be made by order of an athlete taking into account his height, racket grip, technique of performing a strike, i.e. taking into account its individual characteristics, on which the nature of the deformation of the racket, and therefore its playing properties, depends.

 The selection of the figure (figure 5), the density of the elements, material, profile of elements in the core, etc. allows you to strengthen the individual direction of the racket, the most deformed upon impact; increase the rigidity of the shock in its individual places; align the value of the ball bounce between the central and peripheral parts of the strike plane of the racket, etc. the pattern of placement of elements in the core that is optimal for achieving any specific goal is determined by the number of directions of the elements relative to the axis of the handle; the density of the elements on a unit surface of the core; configuration of elements; the number of grooves in the elements; placing grooves on different faces of elements with different and / or equal distance between grooves, changing the distance between grooves, which may be the same in all elements and / or unequal; as well as by placing grooves on one and / or different faces of the elements, it is possible to achieve that the elements in the core will not only run rectilinearly, but also bend, for example, in accordance with the outline of the racket (Fig. 5).

Claims (5)

 1. TABLE FOR TABLE TENNIS, comprising a handle with a shock part, comprising a core made of interconnected elements made of wood, and external plates, characterized in that the core elements are located in the plane of the racket with the formation of a cellular structure, with each element has transverse grooves to accommodate the corresponding core element.  2. The racket according to claim 1, characterized in that the grooved connection of the core elements, each of which in cross section may have a different shape, for example, rectangular, or round, or triangular, can be further strengthened by various adhesive compositions.  3. The racket according to claim 1, characterized in that the core elements are made of veneer and / or plywood from different types of wood with different directions of wood fibers.  4. The racket according to claim 1, characterized in that the outer plates of the racket can be made of plywood, including wood of one or different types of wood, with the same or different directions of wood fibers.  5. The racket according to claim 1, characterized in that all of the core cells or some of them can be filled with foamed epoxy resin and / or other lightweight fillers from a material with a low density and / or core fragments.

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