SU918067A1 - Device for feeding cutting fluid into cutting zone - Google Patents

Description

(54) DEVICE FOR FILLING LUBRICATING COOLING LIQUID (COOLANT) INTO CUTTING ZONE

one

The invention relates to the field of engineering, in particular to devices for the supply of coolant to the cutting zone, for example, during grinding.

A device for supplying a cutting fluid (coolant) to a cutting zone, for example, during grinding, contains several, for example two, nozzles combined in one housing, the first nozzle intended for cooling the working surface of the circle and is simultaneously a hydraulic barrier by air flow. and the second nozzle is intended to direct the flow of coolant to the cutting zone, as well as the valve installed in the second nozzle 1.

The main disadvantages of the known device are the relatively low rate of coolant outflow from nozzles when using low pressure pumps, the effectiveness of the hydraulic valve is low due to the low kinetic energy of the coolant flow.

The aim of the invention is to increase the effectiveness of the hydraulic barrier by creating a hydraulic shock.

The goal is achieved by the fact that the device is equipped with a drive for reciprocating movement of the valve during the grinding process.

Almost instantaneous overlap in the flow leads to the formation of a direct hydraulic shock at the entrance to the valve and a sharp increase in pressure in the pipeline volume. With periodic overlap of the flow, a pulsating mode of supplying coolant under pressure greater than at a constant flow rate of the fluid is created.

FIG. 1 shows the device, a general view; in fig. 2 is a view A of FIG. one; in fig. Section 3B in FIG. one.

The proposed device for supplying coolant (coolant) to the cutting zone consists of two nozzles 1 and 2 combined in one housing 3. The flow is blocked by a valve 4 moving along the guides 5. At 20, the guides 5 are fixed, for example, with using screws on the nozzle 2. Drive the reciprocating movement of the valve. consists of an electric motor 6 mounted on the cheek 7, a disk 8 mounted on the output shaft of the electric motor 6, and a connecting rod 9 pivotally connected to the disk 8 and the flap 4.

The device works as follows.

The coolant is supplied simultaneously to the nozzles 1 and 2. From the nozzle 1, coolant is supplied to the periphery of the circle above the cutting zone, cleans, cools it and at the same time serves as a hydraulic barrier for the air flows generated by the circle. From the nozzle 2, the coolant is fed to the cutting zone. When the disk 8, driven by the electric motor 6, rotates, the damper 4 reciprocally moves along the guide rails 5. the pressure rises sharply, while the coolant flow rate and its outflow rate through the nozzle 1 increase dramatically.

The use of the proposed device for supplying coolant to the cutting zone ensures that the rate of coolant outflow from the nozzle outlet when using low pressure pumps is increased. This also increases the efficiency of the hydraulic barrier protecting the contact zone from the harmful effects of the air flow generated by the rotating grinding wheel;

The cooling, washing and, partly, lubricating properties of coolant and, therefore, the quality of the parts to be grinded are improved. The grinding process becomes more productive.

Claims (1)

Invention Formula A device for supplying coolant (coolant) to the cutting zone, for example, when grinding, contains two nozzles combined in one housing, the first nozzle designed to cool the working surface of the circle and is simultaneously a hydraulic barrier to air flow, and the second nozzle is designed for directing the flow of coolant to the cutting zone, as well as the valve installed in the second nozzle, characterized in that, in order to increase the efficiency of the hydraulic valve by creating a hydraulic shock, The device is driven by a reciprocating movement of the flap during the grinding process.  Sources of information taken into account in the examination 1. L. Khudobin, et al. Technique for the use of lubricants and coolants in metalworking. M., Mechanical Engineering 1977, p. 156, p. 111. / Coolant Type A Coolant FIG. g