PT93114A - SOLE ANTI-PLATENER FOR CALCULATION - Google Patents

Abstract

An anti-slip sole has intersecting sinuous grooves (14), (16) defining a pattern of cleats (18) having non-linear edges. The sole exhibits good slip resistance on tiled surfaces contaminated with cooking oils or grease.

Description

-2- 70 622 PGC / st / 5038050

The present invention relates to an anti-skid sole for footwear.

Some aspects related to the footwear non - slip sole model were recently discussed by Mike Wilson in the SATRA Bulletin, February 1989, 150-151.

One problem with which this invention relates is the provision of an anti-skid sole that exhibits good resistance to omnidirectional skidding or in most of the directions in which skidding may occur, either in a dry location or in a kitchen where there may be either a spill of water or oil. In particular, there is a requirement for footwear which exhibits good slip resistance on smooth mosaic surfaces contaminated with edible oils or fat.

A sole pattern has been shown showing the major edges in many directions using a wedge pattern to provide skid resistance where the wedges have sinuous or wavy edges. Thus, each wedge may have a pair of non-linear edges defined by grooves separating adjacent wedges, said grooves generally having a direction transverse to the sole and having a corrugated shape.

In general the sole will be formed by a set of grooves with equal spacings. Advantageously, the grooves are regular, with a pitch or wavelength related to the size of the wedges so that the adjacent wedges have concave and convex edges alternately. With this wedge edge profile there is a greater likelihood of the wedges having major edges oriented in a direction of possible skidding. The present main edges as described for removing the flowable films and for this purpose are made as expediently as possible, taking into account the materials and the molding techniques employed, such as molding & high pressure. The grooves can run ophthalmically through the sole, the middle end of each groove -3- 70 622 PGC / st / 5038050 being forward of the side end. Preferably, the grooves are directed at an angle of about 65 ° and the ratio of the toe to the heel direction.

The wedges are advantageously based on a distorted rectangular or diamond shape in which case each wedge has a second pair of non-linear edges defined by second grooves separating the adjacent wedges and directed so as to intersect the first grooves, second grooves a wavy shape. The angle of intersection is preferably near the right angle, but need not be exactly 90 °. The second set of grooves will also normally be formed in the sole having equal spacings, the spacing of the grooves of the second set being at least twice the spacing of the grooves of the first set. The aspect ratio of wedges unchanged by the edge of the shoe is then 2: 1 or rows. The second grooves generally have the same pitch or wavelength as the grooves of the first set, and can run obliquely through the sole in a direction opposite the grooves of the first set, the lateral end of each second groove being ahead of the mid end. Thus, the grooves of the second set may be directed at an angle of about 23Â ° relative to the direction of the toe to the heel. It will be understood that the first pair of wedge edges has the main function of preventing slippage in most of the directions in which this may occur, and that the second pair of edges while opposing the skid in the orthogonal direction, have grooves between them which can also act as drainage channels.

The dimensions of the wedges should be sufficiently wide so as to avoid the risk of the sole rupturing during their actuation, but there must also be sufficient grooves or channels to provide drainage of fluid. The wedges, typically not adjacent to the edges of the sole, each have a maximum dimension of about 12 mm and a minimum dimension of about 6 mils. The grooves are advantageously dimensioned to facilitate cleaning and facilitate detachment of articles held during flexion. They are also sized to increase ground contact to increase the breakage of the fluid films on the floor under the sole, and to ensure that the oils and water are expelled by the edge edges of the wedges and effectively drained. Thus, it should have a width of about 2 Em in the exposed face of the sole. The depth will normally be selected based on the duration of the sole, but is typically about 4 mm.

For maximum contact the floor, the sole has a lower face for continuous contact with the floor from the toe to the heel, and the wedge pattern also extends continuously from the end of the toe to the end of the heel. Optimum drainage resistance in an environment subject to water and oil contamination is provided by appropriate selection of a sole wedge or a carding pattern, combined with appropriate selection of the material and hardness. The sole is preferably rubber-welded, especially a nitrile rubber or other oil-resistant rubber. It has been found that a rubber molded sole has better skid resistance than a molded polyurethane sole using presently available materials. The material has to combine the appropriate oil resistance, slip resistance and erosion resistance properties, and therefore must have a hardness of about 60-70 Shore, preferably about 65.

For use in non-slip footwear, a lower rubber layer should be attached on a blind face, to an upper layer of polyurethane, or other plastic material, blown or expanded. The upper layer then preferably has a transversely cup-shaped front to support the weight of the metatarsus, with the least disturbance of flattening of the inner face of the sole. The invention is not limited to the use in the manufacture of non-slip footwear and may take the form of a rubber replacement part for shoe repair or may be used in boots, shoes or slippers for general use the general public. The invention also provides an anti-spill boot or shoe having a sole as described above. In a further aspect, the invention relates to the application of a non-slip sole as mentioned above, having a smooth floor subject to the contamination of oily oils, for example tile surfaces in ready-to-eat establishments.

Figure 1 is a side view of a non-skid composite sole for use in the manufacture of boots or shoes; Figure 2 is a plan of the underside of the sole; Figure 3 is a fragmentary longitudinal section of the front of the sole; and Figure 4 is a section through the C-G line of Figure 2.

In the drawings, a molded sole for safety shoes to be used in the kitchen with a tile floor and in which much fried food such as a ready-made establishment is cooked has an inner layer 10 of rubber, with a hardness of 65 Sfiore, and an upper layer 12 of blown polyurethane. The polyurethane layer 12 protects the foot and distributes the weight to the underlying rubber layer 10. The underside of the rubber layer 10 is formed by a pattern of first equally spaced winding grooves (14) and a pattern of second winding grooves (18). ) intersecting the first slots to define a pattern of cards or wedges having four non-linear edges. The wavelength of the corrugations of the grooves 14 (which may appear to be sinusoidal waves but do not have to be strictly regular), relates to the pitch or spacing of the grooves 16, so that the wedges 18 and the corresponding edges 22, 24 of the wedges are alternately convex or concave, as shown. However, the regularity of the undulations and the relationship between them can be approximated. Both the grooves 14 and 16 are directed obliquely towards the toe-toe and intersect, approximately at a right angle, approximately 60-22 ° C / s. The grooves 14 are more important for defining the skid resistant main edges, while the grooves 16 which are directed closer to the toe direction are more important from the point of view of drainage of the fluids from the contact area. It will be noted that the sole is prepared to make continuous contact of the ground, from the base of the foot to the heel, and that the pattern of wedges is continuous from the toe to the heel. For maximum slip resistance, the heel is bevelled at an angle of about 15Â ° as at 26, the grooves defining the undulating wedges 14, 16 extending to the heel region, as shown.

In Figure 3, it will be noted that for good flexibility, the grooves 14 elongate through the larger part of the thickness of the rubber layer 10, the layer 10 locally having a thickness of 6 mm, and the grooves 14 a thickness of 4 mm. The profile of the grooves 14 decreases internally at a 3Â ° angle to facilitate release during molding and also to facilitate cleaning. The polyurethane layer 12 in the toe and the metatarsal region of the sole has a thickness of about 3 mm, but the thickness increases to about 20 mm in the heel region to protect from the heel contact force during walking. Referring now to Figure 4, the front of the sole appears in cross-section, and the undersurface of the rubber layer 10 is substantially flat for maximum contact with the floor, while the upper face of the polyurethane layer 12 is in the form of a plate or cup as at 30 to receive the metatarsal region of the foot and distribute the applied weight with minimal disturbance to the leveling of the layer 10.

Claims (19)

A sole of footwear having a wedge pattern for providing a slip resistance, characterized in that each wedge has a pair of non-linear edges defined by grooves separating wedges , said grooves generally having a direction transverse to the sole, and having a corrugated shape. Solely according to claim 1, characterized in that a plurality of grooves are formed in the sole with equal spacings. Solely according to claim 1 or 2, characterized in that the grooves have a pitch or wavelength related to the size of the wedges, so that the adjacent wedges have concave and convex edges alternately. Solely according to claim 2 or 3, characterized in that the grooves run obliquely through the sole, the middle end of each groove being forward of the lateral end. Solely according to claim 4, characterized in that grooves are generally directed at an angle of about 65 ° to the direction of the heel toe. Solely according to any one of the preceding claims, characterized in that each wedge has a second pair of non-linear edges, defined by second grooves separating the adjacent wedges and directed so as to intersect the first grooves, said second grooves also having a second groove wavy form. Solely according to claim 6, characterized in that an assembly of the second grooves is formed in the sole with equal spacings. Solely according to claim 7, characterized in that the spacing of the grooves of the second set is at least twice the spacing of the grooves of the first set. Sole according to one of claims 6 to 8, characterized in that the grooves of the second set run obliquely through the sole in a direction opposite the grooves of the first set, the lateral end of each second groove ahead of the middle end. Solely according to claim 9, characterized in that the grooves are generally directed at an angle of about 23 ° to the direction of the toe to the heel. Solely according to any preceding claim, characterized in that each of the wedges not adjacent the edges of the sole have each a maximum dimension of about 12 mm and as a minimum dimension, about 6 mm. Solely according to any preceding claim, characterized in that the grooves have a width of about 2 mm on the exposed face of the sole. Solely according to any preceding claim, characterized in that the grooves have a depth of about 4 mm. A sole according to any preceding claim, characterized in that it extends from the heel to the toe and has a wedge pattern continuously extending from the end of the toe to the heel end. 15 - Sola according to any one. of the previous claims, characterized in that it has at least the molded lower part. Sole according to claim 15, characterized in that the sole is made of an oil-resistant material having non-slip properties. Sole according to claim 15 or 16, characterized in that the material has a hardness of about 65 Shore. Sole according to one of claims 15 to 17, characterized in that it has an inner layer joined in a blind face, to an upper layer of blown or expanded material. Solely according to claim 18, characterized in that the top layer has a front portion transversely to the cup shape to support the weight of the metayseus, with the minimum of flattening disorder of the underside of the sole. An anti-skid boot or shoe, characterized in that it has a sole as claimed in any one of claims 1 to 19. Li sboa, -9. Ffi / fQQfl By BURLINGTON INTERNATIONAL GROUP PLC THE OFFICIAL AGENT