SU1191310A1 - Device for protecting crank press from overload - Google Patents

Abstract

1. A DEVICE FOR PROTECTION OF A CRANKSHAFT FROM OVERLOADING, containing external and internal wedges placed between the crank arm and the slider, as well as elastic elements, characterized in that. in order to increase reliability and reduce overall dimensions, the outer wedge is in the form of rings, the inner wedge is in the form of ring sectors with double-sided bevels with a groove in each sector, and the elastic elements are made in the form of a package of round plates clamped in the grooves of the ring sectors, while the latter are placed between the said rings with the possibility of their wedge surfaces interacting with the corresponding wedge surfaces of the rings. 2. A device according to claim 1, characterized in that it is provided with a cylindrical stand installed under the package of round plates. i (L; about with

Description

FIELD OF THE INVENTION The invention relates to mechanical engineering, in particular to the construction of safety devices for presses.

The purpose of the invention is to increase reliability and reduce overall dimensions.

FIG. 1 shows the device, a general view; in fig. 2 shows section A-A in FIG. one.

The device is installed in the case of the slide 1 under the movable support 2 and consists of two continuous annular outer wedges 3 and 4 and an internal wedge 5. The internal wedge is composed of circular sectors with bilateral bevels and is provided with an annular groove 6 on the inner surface, into which an elastic element 7. The elastic element in the central part rests on a cylindrical stand 8 and is made in the form of a pack of round plates arranged parallel to the base of the binder 2.

The magnitude of the squeezing forces of round plates depends on the force acting on the bolster of the force developed by the press and the angle of inclination of the wedges. In order to create a symmetrical loading scheme for round plates, two continuous annular outer wedges are used in the device. This makes it possible to transmit the compressive force along the neutral planes of the circular plates, which makes it possible to avoid the off-center compression of the circular plates and thereby increase the value of the perceived compressive critical force acting on the plates before losing their stability. In addition, the use of a lower outer wedge reduces the amount of friction forces, which increases the stability of the actuation force over time.

Making the inner wedge of the ring sectors in combination with the ring wedges allows the transfer of the compressive radial load to the contour of the circular plates.

Hard clamping of the elastic element in the annular groove eliminates friction between the circular plates and the ring sectors when the elastic element is triggered.

Supporting the round plates on the stand, located on the vertical axis of the subgun, makes it possible to eliminate the initial deflections of the round plates under the action of its own weight and thereby increase the load capacity of the device. In addition, a round pedestal allows the movement of an elastic element of one direction to be formed.

The arrangement of the annular sectors of the inner wedge relative to each other at a distance equal to the value of L allows the necessary safety circuit to be provided. The value of D can be obtained from the following considerations.

The relationship between the vertical displacement h and the horizontal displacement Y is determined from the expression

h

(i;

5 Y - Ytd atgot.

where oc.- the angle of the wedges.

Reducing the sweep length of the inner surface of the inner wedge, taking into account the fact that R-g Y ° 2r (R-g) 2fY,

where R is the initial internal radius of the internal wedge;

g is the internal radius of the internal wedge after the safety of the 5 body is triggered by the value of A;

5G is the ratio of the circumference to diameter.

The value of D can be determined from the expression

20 D A | ll-,

(2)

where n is the number of ring sectors in

internal wedge. Using expressions (1) and (2) we get

d.

n-tgo

The workload through the movable pad 2 is perceived by the wedge 3 and transmitted to the ring sectors of the wedge 5 and the elastic element 7.

In the event of an overload, the compressive radial load acting on the elastic element exceeds the value of the critical compressive force and causes a loss

 stability of round plates. In this case, there is a plane-parallel movement inside the annular sectors of the wedge 5 and the lowering of the wedge 3 with the sub 2.

As a result of the loss of stability of the elastic element 7, the rigidity of the device decreases, and the load on the support 2 decreases. This makes it possible for Krivoshchip with the connecting rod to go through the dead center. Thus, the overload of the press is prevented and it does not jam.

 After eliminating the causes of the overload, all the links of the safety device return to their original position under the action of the elastic forces of the elastic element 7.

0

Due to the fact that the load to the elastic

the element is transferred along surfaces, the bearing elements — a wedge may have minimal dimensions. In addition, the elastic element in the device is located in the horizontal plane. This makes it possible to significantly reduce the longitudinal dimensions of the device and the press.

Claims (2)

1. A DEVICE FOR PROTECTING THE CRANK PRESSURE FROM OVERLOAD, containing external and internal wedges placed between the connecting rod and the slider, as well as elastic elements, characterized in that, in order to increase reliability and reduce overall dimensions, the outer wedges are made in the form of rings, an internal wedge - in the form of annular sectors with bilateral bevels with a groove in each sector, and the elastic elements are made in the form of a package of round plates pinched in the grooves of the annular sectors, the latter being placed between the mentioned inner rings with the ability to interact with their wedge surfaces with the corresponding wedge surfaces of the rings. 2. The device according to π. 1, characterized in that it is provided with a cylindrical stand mounted under the package of round plates. SU „„ 1191310