DE7310294U - Vibration dampers, in particular for securing pipelines against earthquakes - Google Patents

Description

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International nuclear reactor construction GmbH '506 Bensberg

Vibration dampers, in particular for securing pipelines against earthquakes

The present invention relates to a device for damping shock-like movements. Of objects that are in this external vibrations corresponding to the natural frequency of the objects are excited, with movements such. B. due to thermal expansion the objects are not obstructed by means of a damping means which is filled with a damping means which can be displaced by a piston Cylinder. For systems and system parts, for example pipelines, which are exposed to greater temperature fluctuations, one strives to have as few fixed points as possible get by to allow unhindered thermal expansion. As a result, these structures have very low natural frequencies have and that considerable accelerations acting from the outside Vibrations and, as a result, overstressing of the system components occur. These accelerations can occur with "land-based systems for example, caused by earthquakes, in the case of those on ships, also by the swell.

In order to protect pipeline systems against such intermittent occurrences To protect accelerations, a hydraulic shock absorber is proposed in DT-OS 1 650 086, for example Devices that work with a piston movable in a cylinder, however, have the disadvantage that the implementation the latter can easily leak through the stuffing box. Is it about parts of a nuclear power plant against earthquakes to secure, further difficulties arise which completely exclude the use of hydraulic damping, namely the lack of it Radiation resistance of suitable hydraulic fluids and the difficulty arising from radiation exposure in such a way

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hydraulic damping uni /,:; vorricli ment in the et-f ordorlicln-n umf lingo to wait.

The use of visco-elastic j nchem material, as in the DT-OS 1 937 619 proposed, separates because of the lack of temperature resistance such materials for the present purpose also off. Purely mechanically operating devices, as described, for example, in DT-OS 1 959 878, suffer from the susceptibility and friction of these mechanisms. Furthermore It is also known to detune the system parts to be protected by additionally attached masses in such a way that these additional masses are no longer excited by vibrations above approx. 0.5 Hz and thus practically form additional fixed points. this However, it requires an increased effort, which is not always realized with regard to the given space and weight conditions can be.

The object of the present invention is a vibration damper, in particular for pipelines in nuclear power plants, which counteract sudden accelerations acting on the plant from outside, in particular Earthquake protects and allows unhindered thermal expansion of the system components. In addition, the device As simple as possible in construction, independent of temperature and maintenance-free be.

To solve this problem it is proposed according to the invention that a large number of free-flowing bodies serve as damping means. Such free-flowing bodies, contained in a cylinder, the one has movable piston therein, which is connected to the plant part to be protected connected, have the advantage that they slow movements of the piston, such as those caused by thermal expansion will, without further ado, cowardly, at sudden, jerky ones In contrast, wedge movements of the piston into one another in such a way that the movement comes to a standstill. The requirements for the The tightness of the piston with respect to the cylinder and the piston rod with respect to the cylinder gland can be significantly reduced will.

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In a special execution of the invention it is proposed that the damping bodies are spherical, so that their Pieselfuhigkeit is guaranteed in any case.

To make it easier for the damping bodies to wedge one another

suggest that the cross section of the cylinder over part of its length, outside of the swept by the piston movement Area is reduced.

In a special embodiment of this inventive concept, it is proposed that that the reduction of the cross-section takes place continuously, that the cylinder so inside about the shape of an hourglass having. By suitable dimensioning »· οη piston stroke, diameter the damping body, constriction of the cylinder and the angle of this constriction to the longitudinal axis of the cylinder can be the point at which the damping bodies wedge together and the movement of the piston to a standstill at every piston speed j and thus at every oscillation frequency of the one to be protected Part of the system to be adapted.

In a further embodiment of the invention it is proposed that the damping body be entirely or partially self-lubricating from a material cdt Properties exist, so that the friction and thus the wear and tear of the damping bodies with one another and with respect to the Cylinder wall can be reduced to a minimum.

In a particular embodiment of the invention it is proposed that this substance be graphite.

Alternatively, it is proposed that this material be metal with molybdenum disulfide dispersed therein. Draw both fabrics are characterized by a high temperature and radiation resistance, so that they are particularly suitable for use in nuclear power plants are.

Ir. Another embodiment of the invention is for a system with A variety of the devices described proposed that the devices are distributed over the system that their

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Parts when • pj.iiityi'ung become effective; jc; dj5r for a.ich natural frequencies have, which are significantly above the frequency of the excitation oscillation. This gives you a number of vibration systems with higher natural frequencies in which the system parts to be protected are exposed to less stress.

An embodiment of the invention is shown in the drawing, namely shows

1 shows the damping device in axial longitudinal section and FIG. 2 shows the use of the device using the example of a pipeline.

The device according to the invention consists of a cylinder 1, which is closed at the top and bottom with covers 2 and 3, the latter having a passage for a piston rod 5, which is connected to a piston U movable in the cylinder 1. At its other end, the piston rod 5 is connected to a lever 6, for example by a lever guided in an elongated hole Pen. The lever 6 can be rotated about a fixed point 7, and at its other end has a connecting element 9, for example a wire rope with which the vv. direction with the to be protected Plant part is connected. The cylinder 1 is divided into lower and upper chambers 9 and 10 by a constriction and is partially filled with spherical damping bodies 11. By means of a console 12, the device can be mounted on a wall or the like are attached.

If the force acting via the transmission element 8 is denoted by P, and the possible deflection of the lever 6 with H, so can in a known manner, taking into account the length of the Lever arms A and B, the pressure exerted by the piston 4 on the damping body 11 can be calculated. By appropriate dimensioning of the piston diameter D ^ and the diameter D "of the cylinder 1 as well as the angle et is the with a corresponding diameter Damping body 11 ensures that these slow movements of the piston 4 follow by, for example, at a Upward movement of the same <shown in dashed lines) from the

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lower chamber 9 into the over K'ilmncV 10 '. In the event of a jerky movement of the piston 4, on the other hand, the damping bodies 11 jam under one another and against the wall of the cylinder 1 and thereby prevent further movement of the piston 4. Since the angle (j * is selected such that the damping body 11 slide with certainty on the wall of the cylinder 1, f is ensured. RiG that trickle during a downward movement dea piston from the upper chamber 10 back into the lower chamber 9.

FIG. 2 shows how the devices according to the invention be connected to fastenings 11 via tension members 8, for example wire ropes, either directly or via pulleys 13. These are rotatably attached to clamps IS, which are prevented from slipping on a pipeline 17 by retaining cams 16. The pipeline 17, which are used for thermal and / or radiation protection with a jacket 18 is provided, can, for example due to heat, expand unhindered in all directions and is at the same time kept safe. If the pipeline is caused to vibrate, for example by an earthquake, the clamps 15 open. grurtd the operation of the damping device according to the invention Fixed points so that the pipeline system is divided into individual vibration systems with higher natural frequencies. As a result of the presence two damping devices acting in opposite directions result in an almost instantaneous suppression of Vibrations guaranteed.

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Claims (7)

-D- 16.3.1973. Wc / Tues: 24,218.9 PROTECTION CLAIMS 1.Device for dampening jerky movements of objects, those in these by external, the natural frequency of the objects corresponding vibrations are excited, movements due to thermal expansion of the objects not hindered by means of a cylinder filled with a damping means that can be displaced by a piston, characterized in that a large number of free-flowing bodies are used as damping means (Jl) serves. 2. Apparatus according to claim 1, characterized in that the damping bodies (11) are spherical. 3. Device according to claim 1, characterized in that that the cross section of the cylinder (1) is reduced over part of its length. 4. Apparatus according to claim 3, characterized in that the reduction in cross section takes place continuously. 5. Apparatus according to claim 1, characterized in that the damping body (11) wholly or partially made of a material with self-lubricating properties. 6. damping body according to claim 5, characterized in that this substance is Grcphit. 7. Damping body according to claim 5, characterized in that this substance is metal with molybdenum disulfide dispersed therein is. -7- 731O2S42 ».11.74