RU2281998C1 - Vibroinsulated foundation - Google Patents

Abstract

FIELD: vibration protection means for building industry, particularly vibroinulated foundations for machines, engines, or ordnance.

SUBSTANCE: vibroinsulated foundation comprises bath and foundation block arranged in the bath so that the foundation block is spaced from bath walls and bottom. The foundation block is higedly connected with bumpers, which in turn are attached to foundation block by means of hinged lever. The lever connects foundation block with support member of bumper. The bumper has pendulum suspension means and comprises compression spring cooperating with the base and with the pendulum suspension means. The pendulum suspension means is made as threaded rod connected to spherical washer formed on one end thereof and with threaded bush also attached to spherical washer end not connected with threaded rod. The spherical washers cooperate with not less than 3 balls located on conical surfaces of support members and cooperating with upper spring end and object to be protected against vibration correspondingly. Buffer limiting elastomeric members are installed in base.

EFFECT: increased efficiency of vibration protection and simplified foundation structure.

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Description

The invention relates to means of protection from the harmful effects of vibration and can be used in construction, in particular in devices of vibration-insulated foundations for machines and equipment with dynamic loads.

The closest technical solution to the claimed object is a vibration-insulated foundation containing a bath placed in it with a gap relative to the walls and the bottom of the foundation block, pivotally connected to vibration isolators installed in the bottom of the bath, according to A. with. USSR No. 1434037, E 02 D 27/44, 1986 (prototype).

The disadvantages of the prototype are: the relatively low efficiency of spatial vibration isolation and design complexity due to the use of roller bearings.

The technical result is an increase in the efficiency of spatial vibration isolation and simplification of the design.

This is achieved by the fact that in the vibration-insulated foundation containing the bath, the foundation block placed in it with a gap relative to the walls and the bottom, pivotally connected to the vibration isolators, the vibration isolators are connected to the foundation block by an articulated lever and contain a compression spring interacting with the base and the pendulum suspension, moreover the latter is made in the form of a threaded rod with a spherical washer on one of its ends and a threaded sleeve with a spherical washer on one of its ends, not connected with the threaded rod it, while the spherical washers interact with at least three balls located on the conical surface of the supporting elements, interacting respectively with the upper end of the spring and with the articulated lever, and buffer limiting elements are placed at the base.

Figure 1 shows a General diagram of the proposed foundation, figure 2 is a frontal section of a vibration isolator.

The vibration-insulated foundation contains a bath 1, a foundation block 2 is placed therein with a gap relative to the walls 4 and 5 of the bath and the bottom 1, pivotally connected to the vibration isolators 3 installed in the bottom of the bath 1. The vibration isolators 3 are connected to the foundation block 2 by means of an articulated lever 6 connecting the foundation block 2 with the supporting element of the vibration isolator 3 (figure 1). Vibration isolators 3 are located between the walls 4 and 5 of the bath and are installed on its bottom 1. Vibration isolators 3 are made with a pendulum suspension (figure 2) and contain a compression spring 13 that interacts with the base 7 and the pendulum suspension. The base is made in the form of lower 8 and upper 11 washers, interconnected by cylindrical struts 9. A buffer element 10 is attached to the lower washer 8, and a buffer element 12 in the form of a ring is attached to the upper washer 11. Buffer restriction elements 10 and 12 are made of elastomer. The pendulum suspension is made in the form of a threaded rod 20 connected to a spherical washer 23 at one of its ends and a threaded sleeve 19, also connected to a spherical washer 15 at one of its ends not connected to the threaded rod, and the spherical washers 15 and 23 interact with no less than three balls 16 and 22 located on the conical surface of the supporting elements 17 and 24, respectively interacting with the upper end of the spring 13 and with the hinge lever 5. The casing 14 protects the spring 13 from contamination and prevents the entry of the post sided items, including work clothes, thus increasing the safety of production processes. The spring is fixed by pins 18 and 21, respectively installed in the supporting elements 17 and 24.

Vibration-insulated foundation works as follows. When a static load is applied to the foundation block 2, i.e. when installing the equipment, vibration isolators 3 give a static draft to the calculated value depending on the weight of the machine. In this case, the foundation block 2 lowers down, compressing the spring 13. When vibrating the vibration-insulated object, the spring 13 perceives vertical loads, thereby weakening the dynamic effect, and horizontal loads are perceived by the pendulum suspension. To prevent shocks at large amplitudes of oscillations, buffer elements 10 and 12 of elastomer are used.

Due to the implementation of the pendulum suspension with spherical washers, additional spatial vibration isolation of the foundation is provided in all six directions of vibration (along the three coordinate axes x, y, z and rotary around these axes).

The proposed technical solution is an effective vibration-protective tool for both equipment and the operator, as well as simple and reliable in operation.

Claims (1)

A vibration-insulated foundation containing a bath, a foundation block placed in it with a gap relative to the walls and the bottom, pivotally connected to vibration isolators, characterized in that the vibration isolators are connected to the foundation block by an articulated lever and contain a compression spring interacting with the base and the swingarm, the latter being made in the form of a threaded rod with a spherical washer on one of its ends and a threaded sleeve with a spherical washer on one of its ends not connected with the threaded rod, p In this case, the spherical washers interact with at least three balls located on the conical surface of the support elements interacting with the upper end of the spring and with the hinge lever, and buffer restrictive elements are placed at the base.

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