SU1370314A1 - Shaft end face seal - Google Patents

Abstract

This invention relates to devices for lubricating and cooling shaft seals. The purpose of the invention is to simplify the design and increase the efficiency of the device by using a cylindrical sleeve (CB) as a pumping device. Between the housing 1 and the Central Bank 4, mounted on the shaft 3, there is a spiral diffuser (D) 7 and a tangential outlet channel. The latter communicates with the D 7 and cooling system (CO) 5. The seal can be equipped with additional D 7 turned one relative to the other, which reduces the radial forces resulting from the uneven distribution of pressure around the central bank 4. Using the CB 4 as a pumping device allows It does not exclude additional energy costs to create the necessary pressure drop and flow rate in CO 5. In this case, the pumping of fluid occurs due to the work of the disk friction forces. 1 hp f-ly, 2 ill. (L SO about 7 10 g

Description

The invention relates to hydraulic engineering, and in particular to devices for lubricating and cooling mechanical shaft seals. ₍

The purpose of the invention is to simplify the design and increase efficiency by using a cylindrical sleeve as a pumping device. 1

Figure 1 presents the seal, a longitudinal section; figure 2 is a section aa in figure 1.

The mechanical shaft seal contains a sealing ring 2 located in the housing 1, a cylindrical sleeve 4 mounted on the shaft 3 and a cooling system 5 with a transfer device 6. A spiral diffuser 2 and a tangential outlet channel 8 are made between the housing 1 and the sleeve 4 (Fig. 2 ) communicated with the diffuser 7 and the cooling system 5. The seal may be provided with additional diffusers 7, rotated 25 mi relative to each other. The diffuser 7 is formed by a ring 9 installed in the groove 10 of the housing 1.

The seal works as follows 30.

When rotating the shaft 3, the liquid due to operation of the disk friction forces on the rotating surface of the cylindrical sleeve ₃₅ Coy 4 acquires kinetic energy, which, when the liquid passes through the diffuser 7, and a tangential discharge channel 8 is converted into pressure energy, 1 / exceed dd melting pressure P ₅ in the area of the sealing ring 2 mechanical seal. Yes

Under the action of a differential pressure, the heated liquid from the seal area enters the cooling system 5, and the cooled liquid enters the seal area, thereby ensuring circulation in the circuit, and consequently, lubrication and cooling of the seal.

The use of a cylindrical sleeve 4 as a pumping device 6 eliminates the additional energy costs to create the necessary pressure and flow differential in the cooling system 5. In this case, fluid pumping occurs due to the work of disk friction forces.

Additional diffusers 7, rotated relative to one another, reduce the radial forces arising from the uneven distribution of pressure around the sleeve 4.

Claims (2)

Claim 1. A mechanical shaft seal comprising a sealing ring located in the housing, a cylindrical sleeve mounted on the shaft and a cooling system with a transfer device, characterized in that, in order to simplify the design and increase efficiency by using a cylindrical sleeve as a transfer device, between the case and the sleeve is made of a spiral diffuser and a tangential bypass channel in communication with the diffuser and the cooling system. 2; The seal according to claim 1, characterized in that it is equipped with additional diffusers rotated one relative to the other. Fig 2 VNIIIPI Order 388, / 32__ Circulation 574 ________ Signed Custom polygr. ave, city of Uzhhorod, st. Project, 4