RU190060U1 - SINGLE MECHANICAL SEAL OF CARTRIDGE TYPE - Google Patents

Abstract

The invention relates to the sealing technique, in particular to single mechanical seals of the cartridge type, and can be used to fix the seal on a rotating shaft. The advantage of this seal is to improve the quality of fixing the cartridge seal on the shaft when using standard parts.

Description

The invention relates to the sealing technique, in particular to single mechanical seals of the cartridge type, and can be used to fix the seal on a rotating shaft.

Known mechanical seal containing non-rotating and rotating rings constituting a friction pair, each of which consists of a metal cage with a friction ring installed in it, secondary seals in the form of elastic rings, leashes, springs and a fastening element of the rotating ring of the end seal on a smooth shaft, whereby the fastening element of the face seal on a smooth shaft is, for example, a sleeve with a collar consisting of two halves mounted on the sleeve at an angle of 180 ° one relative to the other, while they are symmetrically made one slot to accommodate T-shaped protrusions made at the end of the sleeve, in addition, in each half of the clamp made smooth and threaded holes for coupling screws (patent RU 2249137, priority date 25.02.2003).

The disadvantage of this design is the complexity of the design of the clamp and sleeve seals mounted on the shaft.

A mechanical shaft seal is known, the sealing contact of which is formed by the interacting elements of the stationary and rotating assemblies, the last of which contains a sleeve fixed to the shaft with a clamp ring made of two halves fastened together with screws, characterized in that tangential spikes are made on the terminal ring formed by the intersection of grooves made on the inner diameter and transverse grooves on the end, the spikes engage with the flats, made on the sleeve shank, And what the terminal ring compresses the shaft (patent RU №41347, priority date 05/28/2004).

The disadvantage of this technical solution is the complexity of manufacturing the mechanical seal, namely, additional accurate processing of the terminal ring and sleeve.

Closest to the proposed technical solution and taken as a prototype is the mechanical seal, in which the sleeve is fixed to the shaft by means of a split ring and locking screws (GOST 32600-2013 (ISO 21049: 2004) "Pumps. Shaft sealing systems for centrifugal and rotary pumps. General technical requirements and control methods ”, clause 6.1.3.13).

The disadvantage of this design is that this type of fixation is carried out by placing the split ring in the shaft groove, which requires modification of the shaft. In addition, this type of fixation according to GOST is recommended only for inefficient pumps, which limits the use of seals with this method of fixation.

The task of the utility model is to improve the reliability of the mechanical seal, as well as to simplify the manufacture, installation, disassembly and maintenance of the mechanical seal.

The technical result is to increase the reliability of fixing a single mechanical seal of the cartridge type on a rotating shaft.

The achievement of this technical result is achieved by fixing the rotating seal assembly on the shaft using a split ring consisting of two half rings and connected with screws, on the inner side of the split ring there is a spike that fits into the counter groove on the sleeve, while in the split ring and sleeve symmetrically six through holes, in which the stop screws are located.

The number of fixing screws in the amount of six is chosen as the most ensuring uniformity and fixing force of the mechanical seal on the shaft, while reducing the risk of over-tightening the locking screws and damage to the integrity of the shaft surface compared to the standard 3 or 4 locking screws.

FIG. 1 shows a longitudinal section of the mechanical seal assembled.

FIG. 2 shows the split ring assembly

A single mechanical seal cartridge type contains a stationary 1 and 2 rotating nodes that make up a pair of friction. The movable unit contains a sleeve 3 fixed on the shaft 9 by means of a fixing element in the form of a split ring 4 made of two half rings fastened together with screws 5. The split ring has a spike 6 on the inner side, which enters the return groove 7 on the rotating sleeve 3 node 2 seals. In the split ring 4 and the sleeve 3 there are holes in which there are retaining screws 8, which fix the single mechanical seal of the cartridge type on the shaft 9, and the number of screws is equal to six to realize uniform fixation of the required force.

The device works as follows.

During operation of the pump, the torque from the shaft 9 is transmitted to the movable seal assembly 2 through the sleeve 3, the fixed position of which on the shaft 9 is provided with a split ring 4, the spike 6 of which is inserted into the response groove 7 of the sleeve 3, and locking screws 8.

Application of the proposed utility model will improve the quality of fixing the mechanical seal on the shaft, simplify installation, dismantle the mechanical seal, reduce the risk of damaging the integrity of the shaft surface due to over-tightening the locking screws.

Claims (1)

A single cartridge-type mechanical seal containing stationary and rotating assemblies, the last of which contains a sleeve fixed on the shaft with a split ring made of two half-rings and screwed together, characterized in that the fixing of the rotating seal assembly on the shaft is performed using a split ring, consisting of two half-rings and connected with screws, on the inner side of the split ring a spike is made, which fits into a matching groove on the sleeve, while symmetry is made in the split ring and sleeve. but six through holes, which are located in the retaining screws.

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