RU2227229C2 - Construction and method for connecting plurality of steel elements with use of ring-shaped bushing key - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: construction for connecting plurality of steel elements 110 with use of ring-shaped bushing keys 10 has at least combined overlapping one first and one second elements with apertures 121 for bolt 30 and ring grooves 112, said elements being interconnected by said bolt 30, which is inserted into respective aperture and tightened by nut 31. Aperture for bolt is made with first space. At least one ring-shaped bushing key is inserted into ring groove of both elements for preventing shear between elements. Ring groove of one element has second space, which is less than first space. According to connection method, after inserting bushing keys into grooves and bolts into apertures, during tightening by nut, second space on inner wall and outer wall of ring bushing key become equal, when ring grooves of first and second steel elements have the same central line. EFFECT: increased durability. 4 cl, 21 dwg

Description

Description text in facsimile form (see graphic part).

Claims (5)

1. Design for connecting multiple steel elements using ring keys, containing at least one first steel element and at least one second steel element, lap folded; the first steel element and the second steel element respectively have at least a bolt hole and at least an annular groove, a bolt hole is made in every first steel element and in every second steel element; an annular groove is made on each contact surface of the first steel element and the second steel element; the first steel element and the second steel element are connected together with at least one bolt inserted through the bolt hole and tightened with a nut, while the bolt hole is made with a first clearance; at least one ring key is inserted into the annular groove of both elements, the first steel element and the second steel element to prevent shear between the first steel element and the second steel element together with the bolt and nut; the annular groove of one of the elements, the first steel element and the second steel element has a second gap smaller than the first gap, the second gap allowing deformation or displacement of the first steel element and the second steel element against the tensile force created by the bolt and nut, until until they reach a predetermined limit, and the second gap allows the transverse force due to deformation or displacement after they reach the specified limit to act on the ring key, at ohm the bolt comes into contact with the side wall of the bolt hole when the specified limit is reached, and deformation or displacement occurs due to temperature changes, the presence of static load, vibration, earthquake, dynamic load, and the central surface of the side wall comes into contact with at least , with a part of the side wall of each of the elements, the first steel element and the second steel element above and below the contact surfaces of the first steel element and the second steel element so that the real lateral force exerted on the ring key when contact occurs in the second gap due to deformation or displacement. 2. The construction according to claim 1, in which the second gap is formed by making the annular groove of the first steel element wider than the annular groove of the second steel element, where the first steel element is the main element on which the second steel element is superimposed, and to prevent separation the ring key during application and assembly, one of the following actions is performed: inserting with force the part of the ring key into the ring groove of the second steel element; the implementation of the protrusion, preventing separation, on the surface of the outer wall of the annular key; gluing the ring key into the ring groove of the second steel element with glue; magnetization of a key ring; threading on the surface of one side wall of the ring key and the annular groove of the second steel element. 3. The construction according to claim 1, in which at least one of the following surfaces is made on the ring key from the central surface of the side wall: an arc curved surface, an inclined surface and a chamfer, so that the rest of the ring key can be gripped and with effort is inserted into the annular groove of the first steel element with ease when the first steel element and the second steel element are offset from each other and approaching the position in which the first steel element and the second steel element is laid enes at each other. 4. The design according to claim 1, in which the annular groove of the first steel element and the second steel element is made concentric with a bolt hole, wherein the bolt hole and the concentric annular groove are made using a simultaneous tool having one cutting edge for making holes for a bolt and another cutting edge for making the annular groove concentric with each other, the annular groove and the ring key, respectively, have one of the following shapes on the periphery - a polygon and a circle, about the periphery of the key ring can be an open type or the closed type, the annular tongue because of its resistance to shear increases the effective sectional area by reducing the number of assembly bolts. 5. A method for joining a plurality of steel elements using ring keys, comprising (1) making holes for bolts, respectively, in a plurality of first steel elements and a plurality of second steel elements that lap joint and assemble together; (2) the implementation of at least one annular groove on each of the contact surfaces of the first steel elements and the second steel elements superimposed on each other, and the annular groove of the second steel elements has a size that provides a snug fit part of the ring key, and the annular groove of the first the steel element has a size that allows the fit of the ring key with a second clearance; (3) inserting with force and fixing a portion of the ring key in the ring groove of the second steel member; (4) inserting and then holding the rest of the ring key in the annular groove of the first steel element by relative moving and bringing the first steel element and the second steel element to a position in which the first steel element and the second steel element are overlapped, thereby aligning the first steel element and a second steel element; (5) inserting each bolt into each hole under the bolt of the first steel element and the second steel element; (6) the tightening of each bolt inserted into each hole under the bolt of the first steel element and the second steel element with a nut, so that the ring key is fully inserted and is in the annular grooves of the first steel element and the second steel element under force, thereby completing the connection of the first steel element and the second steel element with a bolt, nut and ring key, and before each nut is fully tightened, the method further includes tap to precisely align the bolt holes of the first steel element and the second steel element by lateral displacement of one of the elements, the first steel element and the second steel element so that the second clearance on the inner wall and on the outer wall of the ring key can become equal to each other when the ring grooves the first steel element and the second steel element have the same center line.

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