SU542069A1 - Dosing device for lubrication - Google Patents

Description

one

The invention relates to dispensing devices for dispensing lubricant to mechanisms, for example, automatic machine tool assemblies.

Devices are known that use elastic materials, which play the role of a diaphragm, for transferring fluid pressure, consisting of a housing in which an insert housing is installed, separated from the outer main body by an elastic cylindrical surface acting as a diaphragm pump, the dual elastic valve alternately connecting and disconnects the main pipeline directly connected to the internal filling cavity and the external filling cavity 1, 2.

The known metering device has unregulated gaps formed when the fluid is supplied from the supply line to the filling cavity as a result of the deformation of the elastic valve. Clearances increase over time from the constant movement of the elastic valve inside the pipeline. The presence of rubbing surfaces leads to wear and tear, which increases fluid consumption and reduces the metering accuracy.

The purpose of the invention is to simplify the design of the metering device while increasing its service life and reliability.

For this, the proposed metering device is made in the form of a housing in which a differential piston is located, mounted in the housing on elastic diaphragms separating the inner and outer cavities of the filling, with the smaller surface of the differential piston facing the entrance of the supply pipe to the outer one and the larger one filling cavities.

The drawing shows the proposed metering device in section.

The metering device consists of a housing 1, in which the elastic diaphragms 2 and 3, fixed in it, have differential pressure 4 so that its smaller surface 5 faces the inlet 6 of the main pipe 7, forming a shut-off valve with it. The diaphragm 2, on which surface 5 is fixed, is the boundary between the external filling cavity 8 and the cavity 9, which through channel 10 connects to the atmosphere. The larger surface 11 of the differential piston 4 is fixed on the diaphragm 3, which is the boundary between the cavity 9 and the internal filling cavity 12 connected via the main line 13 to the main pipe 7. The diaphragm 14 fixed in the housing 1 serves as the boundary between the internal filling cavity 12 and an external filling cavity 15 connected by a line 16 to an external filling cavity 8, and through a check valve 17 to an output line 18.

The dosing device works as follows.

At the beginning of the cycle, the liquid medium under pressure enters the main line 7 through the inlet 6 into the cavity 8,

via highway 16 to cavity 15 and trunk 13 to internal cavity 12. Diaphragms 2, 3, and 14 bend.

Due to the difference in the area of the surfaces 5 and 11 of the piston 4, the diaphragms 2 and 3 have different effective areas.

As a result, when the same pressure is applied to chambers 8 and 12, due to the fact that the effective area of membrane 3 is larger than that of membrane 2, an operating force is created that moves the differential piston 4 up to the inlet b, which overlaps the surface 5 of piston 4. Fluid continues to flow only into the internal cavity 12, the deflection of the diaphragm 14. Due to the deflection of the diaphragm 14, the volume of the external filling cavity 15 is reduced, and the portion of the liquid from the cavity 15 is pushed into the main 18 through a check valve 17. The volume cavity 15 is enlarged. When the pressure in the main pipe of the diaphragm 2, 3 and 14 is relieved, due to elastic deformations, it regains its shape, and the liquid from the internal cavity 12 through lines 13 and 16 mixes into the external cavities 8 and 15 and refills them. At the next supply of pressure, the cycle is repeated.

Claims (2)

1. The patent of Germany number 1O92258kl. 47 E 27 1964 2. The author's certificate number 349805, cl. T 15 B 13 / O2, 1970 "7   N t 17 18