SU1215942A1 - Cutting fluid feed apparatus - Google Patents

Description

The invention relates to mechanical engineering and can be used in the design of tools for supplying coolant to machine tools.

The aim of the invention is to expand the technological capabilities by using a compressed air supply system to ensure reliable and consistent tank operation.

The drawing shows a diagram of the device for supplying coolant.

; The device consists of pipeline 1 of the compressed air supply system, pipelines 2 of the coolant inlet to tanks 3 and 4 and pipe 5 of the coolant from tanks 3 and 4. Pipe 2 of the coolant inlet is connected to tanks 3 and 4 by means of a spool 6 and coolant pipes 7 and 8, and the pipe 5 of the output of the coolant is connected to the tanks 3 and 4 through pipelines 9 and 10 and the spool 11.

The switching of the spool 6, serving for supplying coolant to the tanks 3 and 4, is carried out by the spools 12 and 13 of compressed air integrated into the pipeline 1 of the compressed air system into the device, which are controlled by additional spools 14 and 15 connected by linkage systems 16 and 17 tanks 3 and 4. Floats 18 and 19 of tanks 3 and 4 serve to interact with the lever system 16 and 17 when coolant leaves the tanks.

The switching of the spool 11, which serves to control the output of coolant from tanks 3 and 4, is carried out by spools 20 and 21, by means of spools 14 and 15, control (additional), the pistons of which have axial (arranged parallel to the axis of the piston) holes 22. To return to the original the position of the pistons of the spools 14 and 15 serve as springs 23 and 24 of the lever systems 16 and 17.

The cavities 25 and 26 of the spools 12 and 13 are respectively connected with the cavities 27 and 28 of the spools 20 and 21 by pipelines through the spools 14 and 15. The pistons of the spools 12 and 13 have holes 29 and 30.

The device works as follows.

When the reservoir 3 is released from the coolant 3, the float 18 presses the lever system 16. Overcoming the force of the spring 23, the lever system 16 raises the piston of the spool 14, thus opening the holes for supplying compressed air to the cavity 25 of the spool 12 and the cavity 27 of the spool 20.

When compressed air enters the cavity 25 of the spool 12, its piston moves to the extreme left position and closes the compressed air supply to the tank 3, while being coaxially and in tight communication with the pistons of spools 6 and 13, moves them to the leftmost position. In this case, the piston of the spool 6 closes the opening for supplying coolant to the reservoir 4 and opens the opening for supplying C. OJ to the reservoir 3, and the piston of the spool 13 opens the opening for feeding

compressed air into the tank 4, which displaces the coolant under pressure through the pipeline 10 through the valve 11 to the pipeline 5 outlet.

At the same time compressed air enters

into the cavity 27 of the spool 20, moves its piston to the extreme right position, thus moving to the extreme right position and the pistons of the spools 11 and 21, which are coaxially arranged and rigidly connected with it. Spool piston 1 1 opens hole

to exit the coolant from the tank 4 through the pipeline 10 and closes the opening for the coolant from the tank 3 through the pipeline 9, and the piston of the spool 21 is set to its original operating position.

Coolant, gradually filling the tank 3, begins to raise the float 18, which displaces the air from the tank through the opening 29 of the spool 12. At the same time, the float 18 releases the spring 23 in the lever system 16, which, uncoupling, moves the piston of the spool 14 down to its original position and it closes the compressed air holes in the cavities 25 and 27 of the spools 12 and 20, the pistons of which are respectively

left and rightmost positions under compressed air pressure in cavities 26 and 28 spools 13 and 21.

To avoid overfilling, the tanks are equipped with non-return valves (not shown in the diagram).

When the reservoir 4 is released from coolant 4, the float 19 presses the lever system 17, with which the piston spool 15 will take the upper position, opening the holes for supplying compressed air to the cavity 26 of the spool 13 and the cavity 28 of the spool 21. The piston of the spool 13 moves compressed air to the extreme right position, which closes the inlet of the pipeline 7 for supplying coolant to the tank 3, and opens the opening for supplying coolant through the pipeline 8 to the tank 4. In the spool 12 the piston will also move to the extreme right a new position, thus opening an opening for supplying compressed air to the tank 3.

Simultaneously, the piston of the spool 21, moving to the extreme left position, moves the pistons of the spool 11 to the extreme left position, which open the hole for the coolant to exit from the tank 3 through the pipeline 9 and block the hole for the coolant from the tank 4 through the pipeline 10, and the piston spool 20 feather

21215942

Placed in the extreme right of the initial risk of work when using liquid. When the reservoir emitting gaseous combustible gases from the coolant is completely released, the cycle repeats as well as when operating in an explosive device. The proposed device allows a safe environment, since the reliable operation of the equipment of the device uses compressed energy to work. returning coolant, ensuring no-5 spirit.

Claims (1)

DEVICE FOR SUBMITTING A LUBRICANT-COOLANT LIQUID (SOZH), containing two sealed reservoirs, interconnected by a piping system with spools for supplying and exiting the coolant, as well as compressed air, characterized in that, in order to expand technological capabilities, the device is equipped with an installed coaxially with a coolant outlet spool with an additional spool, the working cavities of which are connected through pipelines and spools introduced into the device, in the pistons of which axial holes are made, with the working cavities of the spool compressed air supply, while the coolant and compressed air spools are aligned, and their pistons and pistons of the additional spool and coolant outlet spool are rigidly interconnected.