DE3215129A1 - Vibration insulation for gyroscopic machines - Google Patents

Description

TIOiEL OF THE INVENTION

Vibration isolation for gyro work machines

AN7 / END AREA OF THE INVENTION

The invention relates to vibration isolation for gyroscopic work s machines, especially for fans of axial and radial design, where the drive motor and impeller are preferred are arranged with a vertical axis

CHARACTERISTICS OF THE KNOWN TECHNICAL SOLUTIONS

There are roof fans of axial and radial design known, where the motor is attached to a mounting plate. This mounting plate is rigidly connected to the support structure; which also serves as a mounting element for the roof mounting · Such roof fans are usually also rigidly attached to the roof

The disadvantage of these known roof fans is that the motor and the impeller are covered with residual dirt and contamination caused periodic excitation forces are transmitted to the entire fan and the roof »These excitation forces must be removed from the fan components, especially the mounting plate and the support structure, for larger fans be recorded safely · To ensure the

I operational safety, it is therefore essential that the fan

] ren so train) that vibrations dear fan components

j should be avoided as far as possible * This task is becoming more common »

j wisely solved by a construction, its dimensioning

! not from a static, but from a dynamic point of view

f takes place, whereby the natural frequency of the fan components is essential are above or below the excitation sequence of the drive

I must "A fan construction with a high natural frequency"

> However, it requires an extremely stable and thus material-intensive

ι dige construction, while fan constructions with deep

i Natural frequencies due to the limited strength of the materials

I only use high-quality and expensive special materials

I would be realizable and are therefore uncommon «

; Regardless of the design of the fan, the

[vibrations occur on the roof structure and thus on The structure will transfer and, depending on the vent hat or size, cause damage to the structure resulting from the destruction of the

■ roof to the cracking of structural elements lead \ könnent

j It is also already known to use larger fans with erheblij For this purpose, depending on the size of the fans, either between the t Vibration dampers suitable for the fan and the roof structure or the fan is placed on a vibration foundation mounted «Such vibration foundations exist preferably made of sturdy reinforced concrete frames on vibration dampers »

This well-known vibration isolation for fans prevents Although the transmission of vibrations to the structure, it has the disadvantage that the vibrations in the fan continue to occur and all airborne noise is canceled! radiated and the vibration-isolated installation

A little bit of additional technical and economic effort is required on the building complicated construction-like conditions of use of these fans considerably limited

It is also known according to DD-IP 147 564, the engine with to be attached to the mounting plate with an intermediate molded part made of elastic

The Uaohteil this known engine mount consists in the Limitation of their effect on the damping of the engine noise and the prevention of the propagation of structure-borne noise Small and medium-sized fans «With larger fans, however, a single motor mounting is not suitable, the transmission of the vibrations in the rotational frequency range to the To effectively prevent fan components and the structure "

OBJECTIVE OF THE INVENTION

The aim of the invention is, while avoiding the disadvantages mentioned, with little technical and economic effort primary measures of vibration isolation the utility properties of centrifugal machines, especially of larger roof fans, to increase the use of materials Their manufacture and assembly reduce the inconvenience of construction Simplify conditions of use and environmental protection and thus the working and living conditions of the working people to improve·

EXPRESSION OF THE NATURE OF THE INVENTION

The invention is based on the object of a constructive solution for gyroscopic machines, in particular for larger ones To develop roof fans of axial and radial design, with the guarantee of a tight and thus energy-ecological « Nomic gap between the impeller and the fixed lower part, the transmission of vibrations from the motor and the impeller on the fan components and suppressed by them on the building and at the same time the application of a material economy Lightweight construction is made possible for these fan components without the use of high-strength special materials *

According to the invention, this object is achieved as follows:

The lower part of the gyroscopic work machine has, in a known V / eise, supporting pillars, to the pillar bolts of which the hood is attached is »The mounting plate with the motor and the impeller is within the support structure of the fan on spring elements stored · The mounting plate has recesses for the pillar bolts and is guided on these pillar bolts. The spring elements enclose the column bolts without contact and are in spring plates on the mounting plate and the support column stored"

In a preferred variant of the invention, there is the mounting plate no longer from a closed plate, but from a support grid made of four pairs of double crosses on top of each other Single beams that are rigidly connected to each other at the crossing points »The motor is only on one pair of beams attached. This motor-supporting pair of carriers preferably has a moment of inertia of 1.5 times the moment of inertia of the other pair of carriers to *

The pitch circle diameter of the support columns is at least that 1.35 times the diameter of the impeller. Compliance with this Condition is the requirement for an integer ratio of the number of support columns and the number of blades des Laufradee "

A Sohraubendruok spring is preferably provided as the spring element This spring element can have an abruptly increasing spring constant; alternatively, the pillar pin can also be used be provided with a stop to limit the spring travel.

Between the motor and the mounting plate, the mounting plate and the spring plate, the spring plate and the support column and / or intermediate layers made of elastic are arranged on the spring element and the spring plates «

According to the invention is within the rigid connection of the lower part with the support columns and the hood the drive unit of the motor, impeller and mounting plate elastisoh on spring elements stored. These spring elements form together with the mounting plate, the impeller and the motor are a system that can vibrate in several degrees of freedom, the individual Components can have a natural frequency close to the excitation frequency and therefore also without special materials in lightweight construction can be produced * by the intermediate spring element the system is detuned in such a way that the natural frequency of this system is far below the excitation frequency.

The stiffness of the spring elements is determined by the excitation frequency, the vibratory mass and the inherent elasticity of the mounting plate and the support pillars * They are to be dimensioned in such a way that that all natural frequencies of the drive with motor, impeller and mounting plate and the spring system with spring elements and inherent elasticity of the components existing vibration

• »·

capable system so far below the excitation frequency, that the vibration amplitudes of the mounting plate and the support columns are significantly reduced * As natural frequencies vertical «and horizontal * as well as tumbling vibrations take into account · The solution according to the invention thus enables the achievement of natural frequencies in the range of 0.3 to 0.5 times the excitation frequency.

For proper absorption of the lifting and starting torque are to arrange the spring elements with a large distance to the drive axle · The ratio of the pitch circle diameter of the Support columns with at least 1.35 times the diameter of the impeller diameter fulfills this condition and at the same time enables the use of a structurally and technologically advantageous integer ratio of the number of support columns to the number of blades of the impeller, which so far because of this The accumulation of the compression, which increases the vibration level, does not occur during the simultaneous passage of the spoil on the support pillars was permissible »

When the engine starts and stops, a resonance cycle occurs with large oscillation amplitudes »Um also in this operating phase To ensure that the impeller runs properly, the pedal travel is mechanically limited a stop or the use of spring elements with an abruptly variable spring constant "

The advantage of the vibration isolation according to the invention arises both during manufacture and during use the roof fans

In the manufacture of such vibration-isolated fans, the vibration isolation makes a lightweight construction possible all fan components are possible that were previously unattainable

war · This material-economical construction results in considerable savings in material and costs «

When using the fans, their lower mass and the possible waiver of further additional measures a structural vibration isolation again material- and cost-saving «The integrated vibration isolation increases In addition, the service life of the fan and the affected structural parts · In addition, is due to the almost complete Suppression of the vibrations in the fan itself the environmental nuisance significantly reduced and thus made a significant contribution to improving working and living conditions «

EXAMPLE *

The invention is to be explained in more detail below using an exemplary embodiment »In the accompanying drawing, the Cross section of a vibration isolation shown

The roof fan support structure consists of one Lower part 4 with a circular plan and eight arranged on the circumference of this circle at the same distance from each other Support pillars 5 »are embedded in the pillar bolts 9. These Support structure is made of a steel-plastic composite structure in lightweight construction

The roof fan motor 1 is on top of the mounting plate 3 arranged. The mounting plate 3 "also in lightweight construction, consists of a support grid made of four lightweight profiles" which are placed one on top of the other in pairs in such a way that the support axes form the circle of the support columns in its eighth points, corresponding to the position of the pillar bolts 9, the cross

^: Τ ^: .. ^: .:!. 3215125

AO *

points of the four girders are rigidly connected to each other » The motor 1 let, however, only attached to one of the two pairs of supports » This pair of motor-carrying brackets has a moment of inertia of about 1.5 times the moment of inertia of the other Carrier pair on. The impeller 2 with eight Sohaufeln is below the support grate directly on the vertical shaft of the Motor 1 attached between the pitch circle diameter of the There is a ratio of at least 1.35 to 1 for the support columns 5 and the Durohmesser of the impeller 2.

The also ends of the four supports of the mounting plate 3 have recesses on · At the bottom of these girder ends, corresponding with the recesses, upper spring plates 8 are attached. The support columns 5 are with the corresponding lower Spring plates 8 provided · On these lower spring plates 8, 7 screw pressure springs are placed as a spring element have a significantly larger diameter than the pillar bolts 9 and thus enclose them without contact. The mounting plate 3 is guided through the recesses on the beam ends on the pillar bolts 9 and sits on the spring elements 7, which are locked by the spring plate 8 »

On the upper, protruding beyond the mounting plate 3 part of the pillar bolts 9, the hood β is attached, which at the same time serves as a transport lock for the entire drive and as an amplitude limit for the resonance cycle »

LIST OF WASTE REFERENCES

1 - engine

2 - impeller

3 - Moatage plate

4 - lower part

5 - support column

6 - hood

7 - Peder element δ - spring plate 3 - pillar bolts

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Claims (1)

EXPERIENCE PRTJCH Vibration isolation for centrifugal machines, especially for Daoh fans of axial and radial design, with a motor attached to a mounting plate within the support structure of a fan with a preferably vertically arranged axis,
characterized by that the lower part (4) of the rotary work machine has support columns (5) in a known manner, on their column bolts (9) the hood (6) is attached and the mounting plate (3) with the motor (1) and the impeller (2) within the support structure of the fan is mounted on spring elements (7), wherein the mounting plate (3) has recesses for the pillar bolts (9) and is guided on these pillar bolts (9) and the spring elements (7) the pillar bolts (9) without contact and are stored in spring plates (8) on the mounting plate (3) and the support column (5) 2 »Vibration isolation according to point 1,
characterized by that the mounting plate (3) preferably consists of a support grid consists of four girders that are superimposed in pairs as a double cross and rigidly connected to one another, with the motor (1) is only attached to one pair of supports and this motor-bearing pair of carriers a moment of inertia of the preferred 1.5 times the moment of inertia of the other pair of girders having". 3 Vibration isolation according to point 1 and 2, marked daduroh, that the pitch circle diameter of the support columns (5) at least 1.35 times the diameter of the impeller (2) and the ratio of the number of support columns (5) and the number the blades of the impeller (2) is an integer » 4 »Vibration isolation according to point 1,
marked daduroh, that the spring element (7) is preferably a screw pressure spring is provided" 5 »Vibration isolation according to points 1 and 4» marked daduroh, that the spring element (7) preferably increases by leaps and bounds Has spring constant and / or the pillar bolt (9) is provided with a socket to limit the spring travel is" 6. Vibration isolation according to point 1 and one of points 4 or 5, marked daduroh, that between the motor (1) and the mounting plate (3), between the mounting plate (3) and spring plate (8)> between spring plate (8) and support column (5) and / or between spring element (7) and Spring plate (8) intermediate layers made of elastic are arranged »