PL67308Y1 - Expansion ring - Google Patents

Description

Description of the design The subject of the utility model is an expansion ring, which protects the essential elements of the hydraulic unit against their mutual, longitudinal displacement, especially for use in hydraulic props and supports of mining equipment and in the cylinders of heavy construction machines. A ring is known from the Russian patent specification Ru 2093717, which has at least three transverse, radial grooves on the circumference of unequal depth, spaced evenly and symmetrically with respect to the plane passing through the axis of symmetry of the broken continuity of the ring. Each transverse groove is connected at the bottom with an arcuate transverse groove, forming a shape close to the letter T. For this purpose, a ring is known, for example from the Polish description of the application no. P.382597, which has circumferential continuity interrupted in three places, to enable, after stretching the segments, its seating in the grooves of internal structural nodes of the components of the hydraulic stand. The Seeger ring is also known for this purpose, for example from the Encyclopedia of Techniques - Machine Building, WNT Warsaw 1969. The Seeger ring has a broken circumference in one place. The elasticity of the ring is achieved due to the uneven profile height. The essence of the solution according to the utility formula is that the arcuate grooves, which are part of the through grooves in the shape close to the letter T, are arranged coaxially, at the same radial distance from the center of the ring. According to the pattern, the expansion ring is characterized by high elasticity and very high resistance to longitudinal loads. The design of the expansion ring according to the pattern, by arranging the arched grooves at the same radial distance from the center of the ring, creating a cylindrical plane that allows the ring to maintain its optimal elastic abilities, which plane is clearly shifted coaxially with respect to the cylindrical plane of transfer through the ring, it is seated and supported in the groove of the base or core box. Consequently, this leads to a minimization of the level of weakening in the strength of the ring caused by the through-narrow radial grooves and the broken continuity of the ring, which is essential for carrying very high longitudinal shear loads. The expansion ring allows to carry axial loads in a hydraulic stand or in a support, many times exceeding 100,000 kg. This is essential in mining hydraulic equipment, especially in props, which are exposed during their operation to significant overloads occurring during the exploitation of deposits, especially during tapan. The above-mentioned design features of the ring allow it to be installed in the inner groove of the core box or base plate with a depth of at most half the height of the ring profile. The object of the utility model is shown in the drawing showing the elastic ring in the front view. The expansion ring is made of alloy steel. The ring is interrupted at one point 1 by cutting a segment from it. On the circumference of the ring there are transverse, radial grooves 2 of the same depth and width S, evenly spaced. All transverse through grooves 2 are connected at the bottom with arched grooves 3, transversely through, based on the same radius. The arcuate grooves 3 are coaxial to the center of the ring. PL PL

Claims (1)

2 PL 67 308 Υ1 Description of the model The subject of the utility model is an expanding ring protecting the essential elements of the hydraulic unit against their mutual, longitudinal displacement, especially for use in hydraulic props and supports of mining equipment and in cylinders of heavy construction machines. A ring is known from the Russian patent specification Ru 2093717, which has at least three transverse, radial grooves of unequal depth on its circumference, spaced uniformly and symmetrically with respect to the plane passing through the axis of symmetry of the broken continuity of the ring. Each transverse groove is connected at the bottom with a transverse arcuate groove, forming a shape similar to the letter T. A ring is known for this purpose, for example from the Polish patent application no. P.382597, which has circumferential continuity interrupted in three places, to allow after stretching the segments, its seating in the internal grooves of structural nodes of the hydraulic stand components. It is also known for this purpose, for example from the Encyclopedia of Technology - Building Machines, WNT Warsaw 1969, the Seeger ring having a broken peripheral continuity in one place. The elasticity of the ring is achieved due to the uneven height of the profile. The essence of the utility model solution is that the arcuate grooves, being part of the T-shaped through grooves, are arranged coaxially, at the same radial distance from the center of the ring. The expanding ring according to the pattern is characterized by high elasticity and very high resistance to longitudinal loads. The design of the expansion ring according to the pattern, by arranging the arcuate grooves at the same radial distance from the center of the ring, creating a cylindrical plane that allows the ring to maintain its optimal elastic capacity, which plane is clearly shifted coaxially in relation to the cylindrical plane of load transfer and maximum overloads by the expansion ring embedded and stretched in the groove of the rootstock or core box. Consequently, this leads to a minimization of the level of weakening of the strength of the ring caused by radial narrow grooves and broken ring continuity, which is essential for carrying very high longitudinal-shear loads. The expanding ring allows you to carry axial loads in a hydraulic stand or in a support many times exceeding 100,000 kg. This is important in mining hydraulic equipment, especially in props, which are exposed during their operation to significant overloads occurring during the exploitation of deposits, especially during rock bursts. The above design features of the ring allow it to be installed in the inner groove of the core box or base plate with a depth of at most half the height of the ring profile. The object of the utility model is shown in the drawing showing the spring ring in front view. The snap ring is made of alloy steel. The ring is broken in circumferential continuity at one point 1 by cutting a segment therefrom. On the circumference of the ring there are transverse, radial grooves 2 of the same depth and width S, evenly spaced. All the transverse through grooves 2 are connected at the bottom with arched transverse through grooves 3, based on the same radius. The arcuate grooves 3 are arranged coaxially to the center of the ring. Protective claim An expanding ring having through grooves in a shape similar to the letter T, composed of radial grooves and arcuate grooves, distributed thereon evenly and symmetrically with respect to a plane passing through the symmetry axis of the point of interrupted continuity of the ring and the center of the ring, characterized in that all arcuate grooves / 3 / are arranged coaxially, equidistant radially from the center of the ring.