SU1292925A1 - Damping abutment - Google Patents

Abstract

The invention relates to the field of machining materials by cutting and can be used in metal-cutting machines with mechanized feeding of workpieces. The aim of the invention is to increase the reliability and speed of the damping devices while at the same time simplifying the structure, excluding the external system of make-up of the working fluid and providing the traveling control of the braking force. The device comprises a housing 2, in the cavity of which a stop bearing 16 is located, dividing it into chambers of high 8 and low 7 pressure, the piston with valves 10 installed in it. In the housing there is an additional filling fluid with an annular container 3 connected to the chamber 7, and the portion of the housing limiting the high pressure chamber 8 is deaf. In this case, the pistol is provided with a groove dividing it into two stages 5 and 6, in one of which (5) the indicated valves 10 are installed on the side of the groove and which has pockets connected by channels with openings in the direction of the high pressure chamber 8, A throttle needle 19 is placed in the opening of the pressure chamber connected to the low-pressure chamber 7 and fixed to the support sub-holder 16 and provided with a system of longitudinal grooves 20 of different lengths. 1 hp f-ly. 3 il. & (L g A A Is5 Yu SO S d sd 19 Fi. 2

Description

The invention relates to the processing of materials by cutting and can be used in metal-cutting machines with mechanized feeding of workpieces.

The aim of the invention is to improve the reliability and speed of the device while at the same time simplifying its design by eliminating the external system of make-up of the working fluid and providing a traveling control of the braking force.

FIG. 1 shows the device, a general view; in fig. 2 is a section A-A in FIG. one; in fig. 3 is a section BB in FIG. 2

A damping stop is a body 2 fixed in a threaded hole in lever 1 with an annular tank 3 and a cylindrical cavity 4 in it, in which a piston is placed, which is divided by two grooves rigidly connected with each other by steps 5 and 6 that form the chamber cylindrical cavity 7 low and 8 high pressure.

In the piston stage 5 there are two groups of holes, in one of which (9) overflow valves 10 are installed, spring-loaded with elastic elements 11 with the ability to adjust the axial position with screws 12 installed in the holes of the piston stage 6, and the holes of the other group 13 are connected by channels 14 Pockets 15, which are formed on the piston generator, face the cylindrical surface of cavity 4 and open toward the high-pressure chamber 8.

The chamber 8 also houses a cup 17 mounted on the thrust bearing 16 with a screw 18 fixed on it with a throttle needle 19, which passes in the central bore of the piston connected to the low pressure chamber 7. On the generatrix of the throttle needle 19, a group of longitudinal grooves 20 of different lengths is made and a spring 21 is installed.

The annular container 3 and the cylindrical cavity 4 are filled with a working fluid and sealed with seals 22, 23.

A buffer 24 rigidly connected to the piston is provided for the force interaction of the stop.

The device works as follows.

When a force is applied to the buffer 24, it moves together with the piston towards the thrust bearing 16. The pressure in chamber 8 increases and the working fluid flows into the low pressure chamber 7 through the longitudinal grooves 20 in the needle 19, and from chamber 7 partially into the annular container 3. With a further increase in pressure in the chamber 8, the elastic elements 11 are compressed and the valves 10 open. As the piston moves, the total area of the grooves 20 decreases, which determines the regulation of the braking force on the movement of the buffer 24. When the force on the buffer 24 decreases (due to the loss of part of the kinetic energy of the body acting on the buffer), the slump velocity decreases until it stops in the cup 17.

To ensure high performance of the device, groups of holes 13 are connected, connected by channels 14 to pockets 15, along which the working fluid from chamber 8 when the piston is moved

flows into the indicated pockets, providing liquid friction conditions between the mating surfaces.

The use of the proposed stop provides increased performance and speed of automatic devices.

feed blanks in the processing area of machine tools.

Claims (2)

1. A damping shock, containing a lever and a housing mounted on it, in a cylindrical cavity of which there is a thrust bearing and dividing it into two chambers — high and low pressure — a piston, with The Q holes in the valves, characterized in that, in order to increase reliability, speed and simplify the design, an additional ring-shaped capacity filled with the working fluid is made in the case, with a diameter larger than 5 porches connected to the low pressure chamber, and the part of the body limiting the high pressure chamber is made deaf, while in the corpus body there is an annular groove dividing it into two stages, in one of which there are 0 on the side of the groove, these valves and which are provided with pockets facing the cylindrical surface of the cavity and open towards the high pressure chamber, and in the hole of the piston connected with the low pressure chamber there is a throttle needle inserted into the device fixed on the thrust bearing and equipped with a system of longitudinal grooves. 2. The stop under item 1, characterized in that the valves are provided with cylindrical elastic elements and are connected to adjusting screws installed in a piston stage located in a low pressure chamber. Srig. / 7 75 Compiled by V. Golden Editor I. RybchenkoTehred I. VeresKorrektor A. Ilyin Order 321/13 Circulation 976 Subscription VNIIPI USSR State Committee for Inventions and Discoveries 113035, Moscow, Zh-35, Raushsk nab. 4/5 Production and printing company, Uzhgorod, ul. Project, 4 . J