SU1191132A1 - Support of rolling stand roll - Google Patents

Description

The invention relates to rolling production, in particular to the structures of the supports of rolling rolls.

The aim of the invention is to increase the support resource by reducing the impact of loads from the moment of rolling.

FIG. 1 shows the work roll support, longitudinal section; in fig. 2 and 3 are embodiments of threaded rings consisting of three and five disk elements.

The support of the work roll of the rolling stand contains a pillow 1 with a rolling bearing 2, which is pressed onto the tapered washer 3 of the roll 4, a four-row bearing with a tapered roller 5 containing an inner and outer ring 6 and 7.

The inner ring consists of three parts, the outer ring has two parts, and there is a distance ring between the latter (not shown). The position of the bearing on the tapered neck of the roll and the corresponding tension is determined by the width of the control calibrated ring, made and adjusted individually so that the diameter of the neck of the roll at the end of the control ring is almost the same for all rolls of this installation. This ensures the interchangeability of bearings.

The gaps between the rollers and the raceway are set at the factory and not reconfigured during operation.

Fixing parts of the outer ring of bearings is carried out using a cover 8, rigidly connected to the pillow, and fixing parts of the inner ring through a spacer sleeve 9 with a threaded ring 10.

Threaded ring 10 covers two half-rings 11, installed in the recesses 12 on the neck 3 of the roll 4.

The spacing sleeve 9, threaded half rings 11 and the roll neck are secured against rotation with key 13.

To maintain the constancy of the gap between the rollers and the raceway for each row, it is necessary to ensure uniform tension from tension in each row. To this end, the tightness of each of the inner rings is selected differentially.

Between the cover 8, the spacer sleeve 9 and the neck 3 of the roll are placed metal rings 14 and 15, laid in the grooves 16 and 17 pierced in the top of the sleeve, and elastic rubber rings 18 and 19, laid in the bottom of the sleeve .

In addition, in the cover 8 and the sleeve 9 is made of coaxial grooves 22, 23 and 24 and the protrusions 25, 26 and 27, forming between themselves a labyrinth seal.

To increase the efficiency of the labyrinth seal, its gap is filled with grease. The rotating protrusions of the maze are used simultaneously as reflective flanges, which discard oil, moisture, small particles of solid substances or dirt.

On the cover 8, a channel 28 is provided for supplying lubricant to the metal rings. Rings can be made of cast iron, bekelite, graphite or textolite.

The threaded ring 10 is made of composite alternating alternately disk elements 29 and 30, made respectively of hard and soft and / or elastic materials.

This creates a reliable, durable and at the same time detachable connection, eliminating the self-unscrewing of the threaded ring 10, due to the sharp increase in the friction force between its disk elements and threaded half rings 11, as well as the formation of rigid connections between them.

Artificial creation in a threaded connection of the stress state ensures the presence of the required magnitude of the torque required to prevent self-unscrewing.

In addition, the proposed solution provides a stepless change in the position of the threaded ring and a smooth adjustment of the amount of tightening created in the threaded connection.

Reliable fixation of the position of the threaded ring 10 and the mounting sleeve 9 relative to the bearing and other support elements eliminates the formation of a gap in the bearing fastening elements when alternating loads occur, which causes a stable tension of the elements, sharply reduces their wear and turning relative to each other, which in turn increases the uniformity of load distribution between the rows of bearing rollers, eliminates non-parallelism of the rolls, increases the reliability of the sealing elements, as well as reduces AET axial forces, eventually leading to a decrease in flatness and grow-rolled sheet, reducing the number of transshipments and setting of stands, and consequently to improve the quality of the finished product and the productivity of the mill.

Threaded ring 10 must be made of an odd number of disk elements and contain 3.5 or 7 pieces.

The specific number of disk elements depends on the amount of torque required to prevent self-unscrewing, the type of thread and the width of the threaded ring.

The greater the magnitude of the moment, the thread pitch, the height of the profile of the turns and the width of the ring, the greater the number of disk elements must be chosen, and vice versa.

Odd number of elements allows to reduce the number of intermediate elements of soft and elastic material,

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place them more optimally as well

increase the uniformity of the load on them,

what increases reliability of fixing of elements of fastening of the bearing

each other.

A decrease or increase in the number of elements per unit will lead to the formation of an even number of elements and the impossibility of optimal placement of intermediate soft and / or elastic elements between the solid and the location of one of the soft elements not between the solid elements, but at the ring face. In this case, the specified ring does not bear any load and, being single, increases only the number of intermediate elements.

Reducing the number of elements to a unit turns the ring into a whole as in the well-known solutions, which excludes the achievement of this goal.

Increasing the number of elements to 9, 11, etc. complicates the assembly and fixation of fasteners. In this case, the uniformity of the load on the intermediate elements of the soft and / or elastic elements is reduced. So on the central elements the load will be lower than on the extreme ones, the latter remains the same as before, which excludes a further increase in the magnitude of the torque necessary to avoid self-unscrewing of the threaded ring. Therefore, reducing or increasing the number of elements is not rational.

In the stressed state of the threaded connection of the ring and the half-rings, the violation of the circuit (fixation) of the latter begins with the loosening of the tightening, which mainly comes from the deformation of the asperities on the contacting surfaces. Therefore, it is very important that in order to increase the magnitude of the moment necessary to prevent the ring from self-unscrewing, the contacting surfaces should be processed to a high grade of purity and have as small asperities as possible.

Steel is used as a hard material for disk elements, aluminum, silumin, or red copper is used as soft material, and hard rubber is used as elastic material.

Selected materials provide the necessary stiffness of some disk elements (solid) and the flexibility of others (soft) located between the first ones.

This provides compression (reduction of thickness) by the required amount of intermediate soft steel elements and reduction of the distance between the latter, which leads to reliable closure of the threads of the ring and half-rings relative to each other.

The deformation of the intermediate disk elements made of soft or elastic material during assembly and the resulting rigid mechanical connections that close on the threads of the ring 10 and half rings 11 dramatically increase the reliability of the bearing attachment elements, which improves the quality of the product and the productivity of the mill.

The width in the disk element 29 of a hard material is 1.5–3 pitch threads, and the width in the disk elements 30 of soft or elastic material is 0.25–1.5 thread pitch.

Smaller values of the width of disk elements are selected with a larger number of elements, and larger values - with a smaller number of the latter. These ratios are chosen experimentally, are optimal and necessary for reliable operation of the fastening elements of the site.

Reducing the thickness of the disk element of a solid material less than the specified weakens the strength properties of the ring as a whole, making it less rigid, which violates the reliability of fixation.

Increasing the thickness of the same disk more than the specified value is not rational, since, on the contrary, it excessively increases the rigidity, dimensions, and metal intensity of the threaded ring.

Reducing the thickness of the disk element of a soft material of less than 0.25 thread pitch weakens the element, causes its distortion, leads to irregularities on the contacting surfaces. Such an element has a small amount of deformation, which reduces the reliability of fixing the ring and half-rings relative to each other.

Increasing the thickness of the элементаι element more than 1.5 thread pitch does not lead to any additional benefits, but at the same time increases the size of the threaded ring, the consumption of materials, reduces the size of the contact area along the threads during short circuits and weakens the mechanical rigid connections between the threads of the rasort rings and half-rings, which also reduces the reliability of the bearing attachment elements and the associated benefits.

The diameter b _{1 of the} hole of the disk elements 30 of soft and / or elastic materials is made large with the outer diameter b of the thread of the half rings 11.

Making holes in the disk elements of soft or elastic materials, diameter b! which is larger than the outer diameter b of the thread of the half-rings, eliminates the thread in them and fixing these elements during assembly relative to the thread of the half-rings, which increases their elastic properties and the degree of deformation in the specified location,

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which in turn provide when

assembly tighter contiguity of coils

threads of semirings to turns of a thread of a ring.

The possibility of free expansion of the material of soft disk elements during its deformation during assembly in the direction of the thread provides greater movement of the elements of solid material to each other, which ensures tight closure of the threads of the ring and semirings and increases the amount of torque needed to unscrew the ring.

All this also increases the reliability of the bearing attachment elements and the associated benefits.

The face parts of the threaded ring are formed by disk elements of solid material.

Placing disk elements made of solid material on the end parts of the ring increases the strength properties of the ring, eliminates local deformation of intermediate soft elements with fasteners, reduces the number of soft disk elements, reduces the consumption of this material, and most importantly ensures the optimum location of the soft material and its protection from external influences, which increases the reliability of fixation and reliability of the fastening elements of the unit as a whole.

In addition, the location of the elements of soft material on the ends instead of solid will lead to the inoperability of the end soft elements, since the soft element must be crimped and deformed with solid materials on both sides.

The disk elements 29 and 30 of the threaded ring 10 are rigidly connected 1–16 coupling bolts placed concentrically around the central threaded hole of the ring, and the threaded holes for them are made in the disk element 30 adjacent to the spacer ring, and in the remaining disk elements there are made coaxial holes, diameter which is larger than the outer diameter of the thread coupling bolts.

This ensures the closure of the thread turns not only due to the screwing of the disk elements relative to each other, but also due to their axial movement, resulting in close contact between the thread turns of the fastening elements and more rigid mechanical connections, which increases the moment required for self-unscrewing of the thread rings.

The specified number of bolts and their concentric placement increases the uniformity of the circuit (fixation) of the threads of the ring 10 and the half-rings 11 among themselves.

The threading in the rightmost disk element of the ring adjacent to the spacer ring facilitates the assembly of the assembly, since access to the heads of the fastening elements remains outside. In addition, the formation of gaps between the contacting surfaces of the spacer and threaded rings is prevented and longitudinal movement (tightening) of the rings of soft and hard material to the spacer ring is ensured.

All this increases the reliability of mounting elements of the bearing.

Screw bolts 31 are offset to threaded half-rings.

The displacement of the clamping bolts to the threaded half-rings 11 reduces the influence of microroughness on the contact density between the surfaces of the elements in the areas adjacent to the thread, and contributes to the creation of large axial forces that compress the specified disk elements, which in turn also increases the fixation and reliability of the bearing attachment elements .

Support work roll rolling stands works as follows. The rolling bearing 2 is installed in the pillow 1 and fixed with the help of the cover 8. Then assembled. the subassembly is placed on the neck 3 of the roll 4, the spacer ring 9 is fitted with sealing rings 14, 15, 18 and 19, the key 13 is inserted, and two threaded half rings 11 are inserted into the groove 12.

Using an additional device, such as a hydro-nut, dressed on a half-ring 11 through a spacer sleeve 9, the inner ring of the bearing 6 is pressed in until it stops. After that, the threaded ring 10, pre-assembled without tightening from individual disk elements 29 and 30, is removed with bolts 31 , until the stop is firmly fixed to the spacer ring 9. The clamping bolts 31 tighten smoothly until the tight closure of the coils of the ring 10 and the half-rings 11 are relative to each other.

The disk elements 30 of the threaded ring 10 made of soft material, when tightening, deform, form rigid mechanical connections and create a stress state in the thread windings, which eliminates the displacement of the bearing fastening elements relative to each other and ensures reliable operation of the bearing.

Occurs when these deformations of elements 30 normal efforts cause the formation of the moment, eliminating the possibility of weakening the connection in the future when the support.

This increases the vibration resistance of the fastening elements and sharply reduces the effect of alternating and pulsating loads on their fixation.

Along with reliable fixation of parts in a predetermined position, reliable sealing of the threaded connection is also ensured, which positively affects the reliability of the support.

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The friction forces between the threads of the half-rings and the threaded ring exceed the ring unscrewing forces resulting from alternating shock and temperature loads, vibrations and heat generation, which eliminates the weakening of the connection elements and the formation of gaps in them, which, in turn, eliminates the displacement of bearings, they turning, intense wear during operation and increases the durability and service life of the support as a whole.

Increased durability of the necks of the rolls, elimination of displacement, distortions of parts and violation of parallelism of the rolls increases the uniformity of load distribution

between the rows of bearing rollers and reduces the thickness variation and flatness of the sheet metal.

The exclusion of an eccentric displacement of 5 rotating parts relative to stationary increases the efficiency of the sealing elements, which also increases the reliability of the support.

Increasing the reliability of the bearing mounting elements increases bone support stand ⁰ in general, reduces the number of mill stands and transshipment configuration improves mill productivity and accuracy of rolling and ensures stability of the resulting finished rolled sizes.

FIG. g

Claims (5)

G. SUPPORT OF THE WORKING ROLLER OF THE ROLLING CLEAN, containing a pillow with a rolling bearing placed on the tapered neck of the roll, a spacer sleeve, two threaded half-rings installed in the grooves on the neck of the roll, threaded ring and seal, characterized in that, in order to increase the service life of the bearing reducing the impact of loads from the moment of rolling, the threaded ring is made of composite with sequential alternation of disk elements made respectively of hard and soft and / or elastic materials. 2. Bearing on π. 1, characterized in that the threaded ring contains an odd number of disk elements. 3. Bearing on PP. 1 and 2, characterized in that steel is used as a solid material for disk elements, aluminum, silumin or red copper is used as a soft material, and hard rubber as an elastic material. 4. Bearing on PP. 1-3, characterized in that the width of the disk element made of solid material is 1.5-3 thread pitch, and the width of the disk elements of a soft or elastic material is 0.25-1.5 thread pitch of the threaded ring. 5. Bearing on PP. 1 and 2, characterized in that the diameter of the holes of the disk elements of soft and / or elastic materials made large outer thread diameter of the semirings. 6. Bearing on PP. 1-5, characterized in that the end part of the threaded ring is formed by disk elements of solid material. £ / 71 yr g5 gz gegag? G s 7 / 5? 2 FIG. ί 1191132 > 1191132