CS273496B1 - Rotor for centrifugal pump - Google Patents

Abstract

The solution enables use of all-plastic impeller wheels (3) without danger of their loosening, where the dismountable pull-down element (4) arranged on shaft (2) gets in contact with shaft (2) shoulder (6) face.<IMAGE>

Description

The invention relates to a rotor of a centrifugal pump with impellers made of plastics.

In the current phase of the technical revolution, when new media are emerging that are aggressive in their chemical composition to metallic materials, and when the lack of metallic materials becomes a serious problem, the designers endeavor to design machines or their components in functional and economic terms. In order to require a minimum of machining operations while maintaining precise shape and perfect surface treatment, the focus is increasingly on the possibility of manufacturing machine parts from plastics, especially where their properties are favorable, such as for use in corrosive environments. The pumping technology uses plastics especially in the production of impellers for centrifugal pumps used for food and chemical purposes, where the plastic material perfectly meets hygienic requirements because the surface of all-plastic impellers is perfectly smooth, easy to wash, does not disturb individual particles of transported substance and - the production of all-plastic impellers is highly economical at low production costs. The disadvantage of impellers made of plastics is that they cannot be firmly clamped on the rotor shaft. The impellers are clamped on the rotor shaft by a nut and a collar or two nuts to ensure their axial position on the shaft. However, the creep effect of the plastics releases the grip of the impellers, resulting in pump failure. Due to the elasticity and deformation of the all-plastic impellers, the pulling force must not exceed a certain size. This problem is usually solved in that the impellers made of plastics are provided with metal hubs in the form of inserts. the impellers are not released in the case of such tightly drawn rotors, but their disadvantage is their difficult and expensive production.

These disadvantages and drawbacks of the known solutions are essentially eliminated by the invention which is a centrifugal pump rotor consisting of a shaft and at least one all-plastic impeller and a set of tightening elements, at least one of which is removable, supported on the shaft and . The essence of the invention is that the removable clamping element abuts the shoulder.

A higher effect of the invention is that it allows the use of all-plastic impellers without any squeezing, where the release of the impellers is prevented by metal abutment of the removable clamping element. This leads to metal savings and simplifies production. impellers, which results in a significant increase in labor productivity and the associated reduction in production costs.

An example of a particular embodiment of the invention is shown schematically in the accompanying drawing, in which Fig. 1 is an axial section of an overhung rotor of a centrifugal pump with impeller tightening elements; Fig. 2 shows an alternative embodiment of tightening elements for a rotor supported on both sides; 3 is a view of a rotor with two sets of impellers mounted and retracted from both sides of the shaft.

According to the invention, the rotor 6 of the centrifugal pump (not shown) consists of a shaft 2 on which at least one all-plastic impeller 2 'is mounted on the tongue ^{and the} entire rotor 1 is provided with a system of tightening elements 4. According to the embodiment shown in Fig. 1, which is a free-standing rotor 1, the shaft 2 'on which the three all-plastic impellers 3 are supported, is provided with a set of metal abutment elements 4, one of the elements 4 disposed on the the conical coupling of the rotor shaft 2 to the drive unit (not shown) is formed by a fixed support collar 5, which serves as a stop of the impeller assembly 3, while the opposite end of the overhung shaft 2 is provided with a second clamping element 4 T1, ^on which the adjustable clamping nut 2 is screwed so that either directly or over the washer 9 it bears on the shoulder 2 of the shaft 2. » ^and thus ensures the metal contact of the clamping elements 4 and the shaft 2 of the rotor 1. impellers 3 on the rotor shaft 2 of the rotor. FIG. 2 shows an embodiment of a rotor 11 where a set of all-plastic impellers 2 is supported on a shaft 2 supported at both ends, so that the clamping elements 4 are formed at both ends by adjusting nuts 2 ^{and a} metal bearing on the shoulder 2 of the shaft 2.

If necessary, a washer 2 can be inserted between the shoulder 2 and the adjusting nut 2.

EN 273 496 Bl shows an example of the rotor £, which consists of two sets of rotors in which ^the individual sets of impellers 2 are deposited on the shaft 2 from both sides. For this purpose, the shaft 2 is provided with a central collar 5, which as one of the set of clamping elements 6 forms a solid support of the plastic impellers 3, whereby at both ends of the shaft 2 a clamping element 6 is used. 9, the metal-on-metal abutment on the shoulder 5 of the shaft 2, as in the embodiment of FIG. 2.

The proposed construction of the rotor 4 of the centrifugal pump will ensure a firm withdrawal by having the pulling elements 6 have a rigid and solid metal contact with the shoulder 6 of the shaft 2 and that any overlap of hubs 10 of the plastic impellers 3 will be pulled by If the plastic material of the impeller 5 is subjected to the creep effect of the tension caused by the withdrawal of the rotor 6, this will not affect the tightening of the adjusting nuts 8 so that the rotor 8 cannot be released.

Claims (1)

SUBJECT OF THE INVENTION Centrifugal pump rotor, consisting of a shaft and at least one all-plastic impeller and a set of tightening elements, at least one of which is removable, supported on a shaft, and wherein a shoulder is provided on the shaft, characterized in that the removable retractor (4) abuts against the shoulder of the shoulder (6).