SU494229A1 - Test bench for the hydraulic system of an ejector drill - Google Patents

Description

one

The invention relates to a machine tool industry, and can be used in the study of the hydraulic system of an ejector drill.

When developing an ejector drill and choosing the optimal dimensions and ratios of its main elements, it is necessary to conduct studies of its hydraulic system.

Known devices that mimic the system of the drill and the processed unit together with auxiliary systems, with a system for supplying coolant, having an axial channel and branch channels located in the head and adjacent to the feed part of the mandrel.

A disadvantage of the known devices is that during their testing it is not always possible to measure the distribution of the flow rate of the total flow of coolant supplied to the drill.

The purpose of the present invention is to determine the optimal ratio of the cross-sectional areas of the channels of the hydraulic system of an ejector drill.

This goal is achieved by the fact that the chamber is equipped with a drainage pipe connected to the flow meter and a tube installed tightly at the front end of the head and connected at the other end to the device filling up the flow diverted through

drain pipe, as well as the fact that the head is equipped with a replaceable diaphragm.

FIG. 1 schematically shows the proposed stand, a general view; in fig. 2 - replaceable

diaphragm.

The head 1, simulating an ejector drill, fixed at the end of the outer stem 2, has openings 3 for supplying a coolant to its front end. The inner stem 4 with its front cone part together with the cone of the bush 5 forms an ejector nozzle. The head is placed in the chamber 6, imitating the drilled hole. The camera has a pipe 7

to remove through the instrument of measuring the flow rate of the injected part of the total flow to the drain, as well as the drainage hole 8 to the atmosphere. The tube 9, installed in the chip-discharging windows of the head 1, is led out of the chamber and connected to a special fluid supply system on the way of which the interchangeable diaphragm 10 is installed.

When operating the stand, the total flow of coolant from the pumping station

The ejector drill is fed into the annular cavity between the 2} -zhnom and inner stalks. Part of the flow (working) goes into the nozzle, and the other part passes through the hole 3 to the front end of the head 1 and into the chamber, from where it goes through the nozzle 7 to the device for measuring the flow rate and then to the drain.

The drainage hole 8 communicates a chamber with the atmosphere, thereby maintaining the conditions of operation of the jet apparatus of an ejector drill. The working part of the flow, the passage through the nozzle, creates an ejector effect by sucking through a tube 9 and a replaceable diaphragm 10 installed in the head, a metered amount of fluid equal to the flow from the chamber, thus preserving the working conditions of the jet apparatus of the ejector drill in real conditions.

Separating the total flow of coolant to the bench allows determining the quantitative value of each of them, tracing its redistribution when the ratio of the dimensions of the ejector drill changes, revealing the mutual influence of two times

currents and their effect on the performance of the jet apparatus of an ejector drill.

Subject invention

Claims (2)

1. A stand for examining the hydraulic system of an ejector drill, made in the form of a chamber — a simulator of a part and an ejector drill simulator installed in it — characterized in that, in order to determine the optimum ratio of the cross-sectional areas of the channels of the hydraulic system of an ejector drill, the chamber is provided with a drain a pipe connected to the flow meter, and a pipe installed tightly in the front end of the head and connected to the apparatus at the other end to fill the flow diverted through drain pipe. 2. A step according to claim 1, characterized in that the head is provided with an interchangeable diaphragm. I fla snib