DE1400545A1 - Mechanical seal for rotating shafts in centrifugal pumps - Google Patents

Description

Mechanical seal for rotating shafts in centrifugal pumps. The invention relates to a mechanical seal for rotating shafts of centrifugal pumps with an axially displaceable, stationary sealing sleeve which surrounds the shaft and which is pressed with a helical spring with one end face against one face of a ring rotating with the shaft .

There are already known mechanical seals with a spring lying outside the conveying medium, in which the protection against the conveying medium is formed by a special sleeve surrounding the helical spring , one end of which engages over a shoulder of the axially movable sliding ring. A special sealing ring is provided in the overlapped point. The same overlapping point is at the other end of the sleeve. It is also known to press on sliding rings by means of unprotected helical springs or helical springs lying in the coolant or flushing agent flow.

The invention is primarily based on the object of creating a safe acting mechanical seal of the type mentioned at the beginning with little space requirement , which, with the simplest design, utilizes the medium to be conveyed as a coolant without damaging the helical spring. The invention essentially solves this problem in that the sealing sleeve is sealed on its circumference by means of a sealing ring provided in the housing on the side facing away from the opposing sealing surfaces, with a correspondingly dimensioned helical spring holding the opposing surfaces in mutual contact within the sealing sleeve is arranged and that the sealing sleeve and the sliding ring rotating with the shaft are surrounded by a space with a throttle point through which the medium to be conveyed flows.

This ensures that there is an enlarged cooling surface as a result of the necessary increase in diameter of the sealing sleeve and tightness is guaranteed without the risk of adverse effects of the conveying means on the helical spring , in that the helical spring ensures the contact of the opposing surfaces even if to conveying medium acts on the face of the liner, which protrudes over the sliding ring rotating with the shaft.

The drawing illustrates an embodiment of the invention in longitudinal section.

The pump shaft is denoted by 1. 2 is the machine body through which the shaft is passed and against which the shaft is to be sealed . 3 is the sealing ring rotating with the shaft. With $ is pressed against the co-rotating sealing ring resting seal sleeve or jerk loading records whose the slip ring 3 facing front end forms the other sliding surface. In the machine body 2, a sealing ring 5 is provided on the side facing away from the sliding ring 3, through which the still- standing bush 4 in the axial direction slidably overall results is. In the sleeve 4 there is arranged the helical spring 6 which exerts the sealing pressure and which is protected against acid attack with a protective compound. 7 is a throttle gap, which allows the flow of the cooling liquid from the room 8 regulated. Move the feed channels 9 from the pump to room B. You can also leave it out be. In this case, coolant is passed through the Connection 10 supplied - "-Ie conveyor channels 11 are used Sucking off the coolant into the suction chamber of the Pump.

Claims (1)

Claim. Mechanical seal for rotating shafts of centrifugal pumps with an axially displaceable, stationary sealing sleeve surrounding the shaft, the one with a coil spring with one end face against one face of one with the shaft rotating ring is pressed, characterized in that the sealing sleeve (4) on its circumference via a sealing ring (5) provided in the housing (2) the side facing away from the sealing surfaces lying opposite one another, opposite the housing is sealed that one of the opposing surfaces in mutual contact holding and appropriately sized helical spring (6) within the sealing sleeve (4) is arranged, and that the sealing sleeve as well as that rotating with the shaft (1) Sliding ring (3) from a space (8) through which the medium to be conveyed flows a throttle point (7) are surrounded.