DE3933251A1 - Shock bearing for small weighted sensitive instruments - has spring elements of different thicknesses, stop plate and counter step - Google Patents

Abstract

An elastic bearing element for sprung support of sensitive loads has base and load side connecting parts mutually supported via spring elements. The spring elements (13,14) have different stiffnesses and are connected in series with an intermediate rigid bearing yoke (15). The load side spring element (13) is less stiff than the base side one (14) and is rigidly connected to a stop plate (16). The stop plate is mounted opposite a counterstop (17) rigidly attached to the bearing yoke at a distance bounding at least one degree of vibrational freedom of the load (22). USE/ADVANTAGE - For elastic suspension of sensitive instruments with elastic stop effect.

Description

The invention relates to an elastic bearing element for ge resilient support of sensitive loads such as instruments, Aggregates or the like, with base-side and load egg term connecting parts that have at least two spring elements te are supported against each other.

Such bearings, as known from DE-OS 35 40 670 serve the soft, elastic suspension of klei NEN masses, e.g. B. sensitive devices and units. These bearings are very soft and can with larger bela impact or shock loads. From the US-PS 26 83 015 a bearing element is known in which for a vibration isolator two steel springs in series arranges and are provided with a friction damper which only achieves a certain level of progressiveness. Next is a shock isolator from US-PS 29 17 265 known an elastomer spring, but not a soft cushion is for small masses and a hard hit of the Spring element and thus the soft-bearing unit not avoid.

The object of the present invention is a bearing element to create the kind described above with the sens instruments softly and elastically suspended and hard Stops can be intercepted elastically.

This problem is solved in that the two spring elements have different spring stiffness and under Interposition of a rigid bearing bracket in the manner of a Series connection are arranged, the load-side Federele element has less spring stiffness than the base egg term spring element and with the load-side connecting part a stop washer is rigidly connected to the one Bearing bracket rigidly connected counterstop in one mind at least limit the vibration free movement of the load stood opposite.

This measure creates a bearing element soft suspension on the load side even small vibrations records and keeps away from the suspended instrument. At Exceed the vibration amplitude of this spring element It will have a second, higher spring stiffness Send Lagerlelement switched on and hard striking there avoided by.

Further advantageous measures are in the subclaims described. The invention is in the accompanying drawing shown and will be described in more detail below.  

The bearing element 10 shown in the single figure has as a first connection part a base ring 11 for connection to a connection location, not shown, and as a second connection part a load-side bearing core 12 for receiving the load 22 to be stored. The bearing core 12 is connected to a first spring element 13 on the load side. The first spring element 13 is ver on its side facing away from the bearing core 12 with a U-shaped bracket 15 connected, preferably vulcanized.

The bracket 15 is connected via connecting means 23 with a counter stop 17 bent in a U-shape in side view. The counter-stop 17 is provided on the inside with an elastomer coating 24 . Between the underside of the counter-stop 17 and the base ring 11 , a second, base-side spring element 14 is arranged. The base-side spring element 14 has a greater spring stiffness than the load-side spring element 13 .

A horizontally oriented stop disk 16, which is rigidly connected to the bearing core 12, extends into the counter-stop 17 . In the installed position, the stop disk 16 is exposed at the bottom with a lower vibration free path 18 , in the installed position at the top with an upper vibration free path 19 and radially on the outside with a horizontal vibration free path 20 . The U-shaped cranked counter-stop 17 is thus provided with a damping surface free travel limit for the stop disc 16 and thus for the first load-side spring element 13 , which it is at a limited distance from.

The elastic bearing element 10 is rotationally symmetrical with respect to its central axis 21 and is provided with the base ring 11 axially below in the installed position. On the opposite side of the base ring 11 , the load 22 shown in the form of an arrow is supported and is supported in a soft-elastic manner.

The load 22 is supported by the load-side, a low spring stiffness spring element 13 within the vibration clearances 18 and 19 soft. In the event of a shock load or greater loads, the stop disc 16 strikes in the U-shaped counter-stop 17 . These stops are transferred to the second, base-side spring element 14 provided with a higher spring stiffness. By connecting the second spring element 14 , larger loads are absorbed and kept away from the soft, first bearing element 13 . At the same time, progressive damping of the vibrations introduced is achieved.

Reference symbol list

10 elastic bearing element
11 base ring
12 bearing core
13 load-side spring element
14 base-side spring element
15 bearing bracket
16 stop disc
17 counterstop
18 lower vertical vibration free path
19 upper vertical vibration free path
20 horizontal vibration free travel
21 central axis
22 load
23 lanyards
24 elastomer coating

Claims (4)

1. Elastic bearing element for spring-loaded support of sensitive loads such as instruments, units or the like, with base-side and load-side connecting parts which are supported against one another by at least two spring elements, characterized in that the two spring elements ( 13 , 14 ) have different spring stiffnesses and with the interposition of a rigid bearing bracket ( 15 ) arranged in the manner of a series connection, the load-side spring element ( 13 ) has a lower spring stiffness than the base-side spring element ( 14 ) and a stop washer ( 16 ) is rigidly connected to the load-side connecting part ( 12 ), which is opposite a counter stop ( 17 ) rigidly connected to the bearing bracket ( 15 ) in a distance ( 18 ) delimiting the load ( 22 ) in at least one vibration free path. 2. Elastic bearing element according to claim 1, characterized in that the deflectability of the stop disc ( 16 ) both in the deflection and rebound direction and transversely thereto by the counter-stop ( 17 ) on vertical and hori zontal vibration free paths ( 18 , 19 , 20 ) limited is. 3. Elastic bearing element according to claim 1 or 2, characterized in that both spring elements ( 13 , 14 ) consist of a rubber-elastic material with high damping. 4. Elastic bearing element according to one of claims 1 to 3, characterized in that it is essentially rotationally symmetrical around a ver in the effective direction of the load ( 22 ) ver running center axis ( 21 ).