RU187632U1 - DEMO MODEL OF COMPOSITE ROLLING ROLLER - Google Patents

Abstract

Demonstration model of a composite rolling roll, including a profiled bearing axis with a restrictive shoulder and a reciprocal band. The bearing axis of the demonstration model is made of two split axisymmetric parts connected in the plane of the mutual junction. The profiled bandage can be made of a transparent material, such as plexiglass. The connection of the bearing axis with the bandage is made without interference. The detachable connection of the axisymmetric parts of the bearing axis is made, for example, using pins. 2 s.p. f-ly, 1 il.

Description

The invention relates to the construction of composite rolling rolls and can be used to demonstrate their advantages and basic consumer characteristics, such as reliability of the connection, the absence of circular and longitudinal displacement of the mating parts of the roll.

A known design of a composite rolling roll adopted as a prototype, including a profiled bearing axis with a restrictive shoulder and a reciprocal band (Composite rolling roll. Russian Patent No. 2310530. IPC V21V 27/03).

The disadvantages of this device include the inability to clearly demonstrate the effect of the performance and evaluate the reliability of the connection of the mating parts of the composite roll. In addition, the components of the roll assembled by landing do not allow excluding the influence of interference.

The problem solved by the proposed utility model is to create a simple and effective in demonstrating the connection, ensuring the reliability of the coupling of the mating parts - the bearing axis and the brace, eliminating their mutual displacement even in the absence of interference.

This problem is solved in that in the demonstration model of a composite rolling roll, including a profiled bearing axis with a restrictive collar and a reciprocal band, the bearing axis is made of two detachable axisymmetric parts connected in the plane of the joint, for example, using pins, while the shaped band made of a transparent material, for example, of plexiglass, and the connection of the bearing axis with the bandage is made without interference.

The connection of the bearing axis with the bandage without interference will completely eliminate the influence of this factor on the reliability of the connection and clearly, due to the transparency of the bandage, demonstrate the effect achieved solely through mechanical coupling of various options for the design of the composite roll model.

Possible options for the design of split axisymmetric parts of the bearing axis:

- detachable parts are made cylindrical of the same diameter;

- detachable parts are made cylindrical of different diameters;

- detachable parts are made conical.

In this case, a combination of cylindrical and conical parts is possible. Possible options for the position of adjacent axisymmetric parts of the bearing axis:

- detachable axisymmetric parts are installed with eccentricity (their contours overlap), while the longitudinal axis of one of them coincides with the axis of the roll;

the longitudinal axis of the split axisymmetric parts are offset in opposite directions relative to the axis of rotation of the roll;

- detachable axisymmetric parts are installed at an angle to each other, while their longitudinal axes intersect in the joint plane, and the longitudinal axis of one of them coincides with the axis of the roll;

- detachable axisymmetric parts are installed at the same angle to the axis of rotation of the roll, while their longitudinal axes intersect in the plane of the joint, and the bearing axis is offset in the opposite direction to the bend.

The drawing shows a General view of the demonstration model, made according to one of the possible options for the design of the composite roll.

The proposed version of the composite roll model consists of a profile bearing axis 1 with a restrictive shoulder 2 and a retaining band 3. The bearing axis 1 is made of two detachable cylindrical parts 4 and 5 of the same diameter, mounted at an angle to each other a, while their longitudinal axes intersect in the plane of the joint. For their fastening among themselves in a single whole (bearing axis), for example, a pin connection can be used. To do this, pins 6 are installed on the cylindrical part 5, and holes are drilled on the cylindrical part 4.

The mating seating surface of the brace 3 is made reciprocal form, i.e. the corresponding cylindrical parts of the inner space of the bandage are located in a similar way.

As a result of the installation of the cylindrical parts 4 and 5 at an angle to each other in cross section, a geometric figure is formed, obtained by the displacement of the circles relative to each other. The mechanical coupling due to the shape of the crescent-shaped portion protruding beyond the circumference of the rotation circle eliminates the twisting of the bandage relative to the bearing axis, while ensuring that the mating elements of the composite roll are fixed, with the possibility of transmitting large torques even with little or no tightness.

To ensure clarity, the profiled bandage 3 is made of a transparent material, for example, plexiglass.

The diameters of the mating cylindrical parts of the bearing axis 1 and the brace 3 provide their free movement relative to each other, since there is no interference.

Assembling a demonstration model of a composite roll is as follows. The cylindrical part 4 of the bearing axis 1 with holes for the pins is led from one edge into the inner space of the brace 3 until it stops in the restrictive collar 2. Moreover, the cylindrical part 4 can freely rotate around its longitudinal axis. From the other edge of the brace 3, a cylindrical part 5 is inserted into its inner space with pins 6 installed and, by turning it around the longitudinal axis, pins 6 are aligned with the holes. After that, the cylindrical parts 4 and 5 of the bearing axis are completely closed. The resulting pin connection allows you to simulate the components of the bearing axis as a whole. In a fully assembled form, the circular and longitudinal displacement of the bandage relative to the bearing axis becomes impossible.

Thus, as a result of the indicated execution of the model’s construction, it becomes possible to demonstrate the main advantages, efficiency and practical value of composite rolls, namely: the absence of longitudinal and circular displacement of the bandage relative to the bearing axis of the composite rolls even in the absence of interference, which contributes to the expansion of geography and their volumes use not only in rolling production, but also in other industries.

Claims (3)

1. A demonstration model of a composite rolling roll containing a profiled bearing axis with a restrictive collar, connected to the band of the reciprocal shape, characterized in that the bearing axis is made of two split axisymmetric parts connected in the plane of the mutual joint, while the band is made of transparent material, and the connection of the bearing axis with the bandage is made without interference. 2. The demonstration model according to claim 1, characterized in that the bandage is made of plexiglass. 3. The demonstration model according to claim 1, characterized in that the detachable connection of the axisymmetric parts of the bearing axis is made by means of pins.

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