PL13453S2 - Heel counter of children's shoe - Google Patents

Description

The subject of the industrial design is the heel counter of a children's shoe, as an integral element of the shoe's construction. The industrial design concerns the construction of children's footwear components. A design solution for a children's shoe heel counter is known, as defined by Polish patent description No. 170709. It is a uniformly constructed three-dimensional element in the shape of a wedge. The underside of the heel constitutes the shoe's heel, and the rear, in a near-vertical position, constitutes the outer, overlay on the rear part of the shoe's upper. According to this patent, the heel counter, in the lower horizontal section, constituting the heel, has a height of 0 to 0.6 shoe sizes, but no more than 20 mm. In the vertical section, which is a load-bearing elastic element that works against buckling in a plane transverse to the axis of symmetry of the footwear, the heel counter has an active height equal to the vertical distance between the ground and the horizontal plane running through the upper contour of the child's ankle. The width of the elastic element in the lower section is equal to or less than 10% of the widest heel width, in the upper section equal to 0.15 to 0.55 times the width of the lower section, and has a minimum thickness measured near the upper edge in the ankle line equal to 0.80 to 0.30 times the thickness. In this solution, the elastic element is attached to the upper via a trapezoidal-shaped, externally sewn-in stiffener that transfers the loads that pull the outer heel counter off, at the total height of the elastic element, or at least two-thirds of that height. The elastic element is attached to the outer heel counter by gluing. The outer surface of the elastic element is non-smooth, free of open pores, and has a higher modulus of elasticity than the rest of the heel counter. The elastic element has edges running along a near-vertical axis, non-rectilinear, and particularly concave, shape, and its horizontal cross-section is similar in shape to a cooper's lubka, with a thickness in the central section greater than the thickness measured at the obliquely cut arc edges. The familiar children's shoe heel counter of this design, although commonly used in the production of shoes for small children, has a drawback: it is relatively labor-intensive both during production and during assembly, which significantly increases the price of the footwear. The industrial design addresses the issue of developing a new, more cost-effective form of a children's shoe heel counter, as an integral element of the children's shoe, with a unique, individual outline, shape, proportions, and surface texture, suitable for repeated industrial or craft reproduction. The subject of the industrial design is illustrated in detail in the attached drawings, in which Fig. 1 shows a perspective view of the heel counter for a left shoe, from the front, diagonally from above; Fig. 2 shows a perspective view of the same heel counter from the back, diagonally from above; and Fig. 3 shows a perspective view of the same heel counter from the bottom, diagonally from above. The heel counter of a children's shoe, as an integral element of the shoe's construction, is a uniform, flexible, three-dimensional element made of synthetic material, with a wedge-shaped bottom, constituting the heel, and a near-vertical rear section, constituting the outer overlay on the rear of the shoe upper. The lower section of the heel counter, which is the heel, is no less than twice as thick as the remaining horizontal section of the heel counter, constituting the sole of the shoe. In the vertical section, which is an integral, load-bearing, elastic element that works for buckling in a plane transverse to the shoe's axis of symmetry, the heel counter has an active height equal to the vertical distance between the ground and the horizontal plane running through the upper contour of the child's ankle. When viewed from the rear, the elastic element resembles a slender trapezoid, with a width at the bottom equal to or slightly less than the heel width, and at the top approximately half the width of the bottom. The elastic element is thinnest and most flexible in the upper section near its horizontal edge. The heel counter is attached to the shoe sole and heel by gluing. The outer surface of the elastic element and sole is provided with finely grooved, dense, convex-concave anti-slip grooves with a regular pattern. The elastic element has edges running along a vertical axis, non-rectilinear, with a slight convexity, and its cross-section in the horizontal plane is similar to a Roman arch, with a thickness in the middle greater than the thickness measured at the arched edges. The heel counter in the sole section of the shoe is thinner than the heel thickness, which is shaped in the midfoot area with an arched cutout running diagonally, largest on the outer side of the shoe and fading to zero at the inner edge of the shoe. The heel counter in the sole section of the shoe has numerous regular, rectangular, shallow relief recesses on the inside, creating a flexible grid that supports the child's heel. The right heel counter is a mirror image of the left one. The lateral edges of the heel counter are smooth, and its inner surface, intended for gluing, is appropriately roughened. Essential features of industrial design. The heel counter of a children's shoe, as an integral element of the construction of a children's shoe, is characterized by the following essential features of industrial design. The heel counter is a uniform, flexible, three-dimensional element, wedge-shaped on the underside, constituting the heel of the shoe, and in a near-vertical position at the back, constituting the outer overlay on the rear of the shoe upper. The thickness of the lower part of the heel counter, constituting the heel, is no less than twice that of the remaining horizontal part of the heel counter, constituting the sole of the shoe. In the vertical section, which is an integral load-bearing elastic element that works on buckling in a plane transverse to the axis of symmetry of the shoe, the heel counter has an active height equal to the vertical distance between the ground and the horizontal plane running through the upper contour of the child's ankle. Viewed from the back, the elastic element resembles a slender trapezoid, with a width in the lower section equal to or slightly less than the heel width, and in the upper section approximately half the width of the lower section. The elastic element is thinnest and most flexible in the upper section near its horizontal edge. The outer surface of the elastic element and the sole is provided with finely grooved, dense convex-concave ribbing. The elastic element has edges running along a vertical axis, non-rectilinear, with a slight convexity, and its cross-section in the horizontal plane is similar in shape to a Roman arch, with a thickness in the middle greater than the thickness measured at the arched edges. The heel counter, in the part constituting the sole of the shoe, has a thickness less than the thickness of the heel, which is shaped in the midfoot area with an arched cutout running diagonally, the largest on the outer side of the shoe and fading to zero at the inner edge of the shoe. The heel counter in the part constituting the sole of the shoe has numerous regular rectangular, shallow relief recesses made on the inside, creating a flexible raster that supports the child's heel. Fig. 1 Fig. 2 Fig. 3 PL PL