RU2198754C2 - Roll fitting of rolling mill - Google Patents

Abstract

FIELD: rolled stock production. SUBSTANCE: roll fitting includes inlet and outlet liners mounted on beam and guides arranged between them. Novelty is additional connection of inlet and outlet liners one with another through cover strip placed in hook-like protrusions with wedge-shaped slits provided in upper portion of liners. Contour of cross section of said cover strip is similar to that of slits of above mentioned protrusions of liners. EFFECT: enhanced rigidity of fitting unit, prevention of liner falling down by action of rolled piece and elimination of breakage of fastening tongues of liners. 2 dwg

Description

 The present invention relates to rolling production and is intended for use on long and strip mills.

 To direct the rolled strip into the stand and remove it from the rolls when leaving the stand, roll reinforcement is used.

 A typical design of roll reinforcement used for rolling varietal profiles and strips in vertical and horizontal stands represents a pair of input and output rulers installed on reinforcing bars on both sides of the stand, and one or two wires can be located between the latter [1]. Due to the simplicity of manufacture and adjustment on the mill, this type of roll reinforcement is widely used at present.

 The disadvantage of this design is its low stiffness and the strength of the mounting studs of the rulers, which, when rolling the strips curved along the length, typical in the production of a number of profiles, can cause breakage of these parts.

 The closest in technical essence is the design (Japan, (11) application 2-61852, (44) publ. 90,12.21 2-1547), where hydraulic cylinders installed between each ruler and the bed are used to prevent these undesirable phenomena.

 The disadvantages of this design are its complexity and high cost, as well as the need for additional maintenance.

 The technical task is to simplify the design of the rolling reinforcement and its operation while maintaining high strength and rigidity of the reinforcing assembly, eliminating the breakage of the mounting studs of the rulers.

 In the proposed technical solution, the roll reinforcement of horizontal and vertical stands, including the input or output rulers installed on the reinforcing bar and the wiring installed between them, is characterized in that the input or output rulers are made with hook-shaped protrusions located in the upper part of the rulers and connected by means of a bar, placed in wedge-shaped slots made in hook-shaped protrusions of the rulers, the cross-sectional shape of the strap is similar to the shape of the slots in the protrusions of the rulers.

 Figure 1 presents a sketch of the new design of the input and output roll reinforcement.

 In FIG. 2 shows a sketch of the wedge connection of the hook-shaped protrusion of the ruler and strap.

 Roller reinforcement consists of installed and fixed on reinforcing beam 1 by means of crackers 2, bolts 3 and nuts 4 inlet or outlet rulers 5, having hook-shaped protrusions with wedge slots 6 located on their upper ends, located above the reinforcing bar, in contact with the working surfaces of the bar 7, the cross section of which has a shape similar to the slot of the protrusion 6 (see figure 1).

 The device operates as follows.

A curved roll when passing through the inlet or outlet reinforcement acts on it with a force P (see Fig. 1) and causes a bending moment in one of the lines 5, acting relative to the front edge of the reinforcing bar O-O in two planes: a plane parallel to the axes rolls, and in the plane of the reinforcing bars of the stand. Due to the interference in the connection of the wedge surfaces of the hook-shaped protrusion of the ruler 6 and the strap 7, the strap experiences tension and transfers part of the force from the loaded ruler to the unloaded, thereby increasing the rigidity of the entire structure and the strength of its fastening to the reinforcing bars 1. The slope of the working surfaces of the hook-shaped protrusions of the line 6 and strap 7 in the plane of the sheet should be 8 ÷ 10 ^o (see Fig. 2), based on the experience of operation of joints of this type on rolling mills.

Техническим результатом является сохранение высокой прочности и жесткости арматурного узла, исключающее поломку крепежных шипов линеек, с упрощением конструкции валковой арматуры и ее эксплуатации по сравнению с прототипом.Since the shoulder of the force P that rolls the ruler 7 in the plane of the upper faces of the reinforcing bars l ₁ due to the design features of this type of roll reinforcement is usually 2-4 times larger than the shoulder l ₂ in the plane parallel to the axis of the rolls, for more reliable operation of the wedge joint in the first In this case, the strip 7 should be curved in the direction of its smaller face at an angle of 135 ÷ 165 ^o , which allows increasing the bend in the wedge joint when the bending of the loaded ruler increases. Moreover, to ensure surface contact of the mating wedge sections of the hook-shaped protrusions and the curved strip, the wedge surfaces of the hook-shaped protrusions of each ruler should be inclined towards its working surface (see figure 2). The magnitude of this slope α can be defined as

The technical result is the preservation of high strength and rigidity of the reinforcing unit, eliminating the breakage of the mounting studs of the rulers, with a simplification of the design of the rolling reinforcement and its operation compared to the prototype.

Sources of information
1. Modern designs of rolling reinforcement of rolling mills / Album edited by N.F. Gritsuka, Moscow: NIIINFORMTYAZHMASH, 1968, 295 p.

Claims (1)

 Roller reinforcement of the rolling mill, including input or output rulers installed on the reinforcing bar and wiring installed between them, characterized in that the input or output rulers are made with hook-shaped protrusions located in the upper part of the rulers and are connected by means of a bar placed in wedge-shaped slots made in the hook-shaped protrusions of the rulers, the cross-sectional shape of the strap being similar to the shape of the slots in the protrusions of the rulers.

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