RU205706U1 - BELTING - Google Patents

Abstract

Object of the utility model: belt drive. Field of application: power mechanical drives for general purpose. The essence of the utility model: in a belt drive containing a belt and pulleys, the cross-section of the belt is a semicircle, the radius of which R is determined from the condition of equality of the cross-sectional areas of the belt of the claimed belt drive and a belt of a known belt drive. Technical result: increasing the load capacity of the belt drive, reducing its dimensions.

Description

The utility model relates to the field of mechanical engineering and can be used in general-purpose power mechanical drives.

Known belt transmission, containing pulleys and a V-belt, the lateral sides of which are outlined by straight lines, forming with the axis of symmetry of the cross-section of the belt an angle cell, where α = 40 ° (see GOST 1284.1-89. Drive V-belts of normal sections. Basic dimensions and methods control) - prototype.

The disadvantage of the known belt transmission is the insufficient load capacity of the belt, limited by the strength of the belt material, and, as a consequence, the large dimensions of the transmission.

The utility model is based on the task of improving the belt transmission by constructive modification of the belt, which will lead to the possibility of increasing the friction forces between the belt and pulleys due to the greater magnitude of the belt pretensioning forces without reducing its strength capabilities. In this case, the cross-sectional areas of the belt of the claimed belt drive and the belt of the known belt drive must be the same.

The task is achieved by the fact that in a belt drive containing pulleys and a belt, according to the utility model, the cross-section of the belt is a semicircle, the radius of which R is determined from the condition that the cross-sectional areas of the belt of the claimed belt drive and the belt of the known belt drive are equal:

where A ₁ (mm ² ) is the cross-sectional area of the V-belt of a known belt drive; the value of A ₁ is found according to the current method for determining the section of standard V-belts.

The bearing layer of the belt of the claimed belt drive - the cord, is located on a line with the width W _OP , parallel to the larger side of the belt with the size W _O = 2 · R and dividing its cross-sectional area in half. In this case, the value of W _OP is determined from the equations:

Dimension t defines the distance between the side of the belt section with the maximum width - dimension W _O and the cord - dimension W _OP :

t = Rcos (δ / 2).

The essence of the utility model is illustrated by a drawing, where in FIG. 1 shows a fragment of the claimed belt drive with a driving pulley 1 and a belt 2, the cross-section of which is outlined by a semicircle of radius R and width W _O = 2 · R.

FIG. 2 shows a cross-section of the belt 2 with the main overall and design parameters: R, W _O , W _OP , δ, t.

The claimed belt drive operates as follows.

Rotation is supplied to the drive pulley 1. Due to the pre-tensioning of the belt 2, frictional forces are created between the belt and the pulleys, which transfer rotation from the drive pulley 1 to the belt 2 and from the belt 2 to the driven pulley (not shown). A comparative analysis of the corresponding cross-sectional dimensions of the belts of the claimed (W _O , W _OP , T _O = R) and the known (W, W _P , T) belt drives shows the following. The size of W _O is 9 ÷ 18% larger than W, which will slightly increase the width of the pulley of the claimed belt drive in comparison with the pulley of the known belt drive. However, the size W _OP increased by 16-22% in comparison with W _P and the size T _O reduced by 9-15% in comparison with T will create the advantages of the claimed belt drive for the following reasons:

1) increasing the traction capacity of the belt (W _OP > W _P );

2) reduction of bending stresses in the belt (T _O <T).

As a result, there will be a significant increase in the load capacity of the belt drive and a decrease in its dimensions.

Claims (3)

Belt transmission containing a belt and pulleys, characterized in that the cross-section of the belt is a semicircle, the radius of which R is determined from the condition:

where А ₁ , (mm ² ) is the cross-sectional area of the V-belt of the belt drive according to GOST 1284.1-89.

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