RU2484331C2 - Vibroinsulated operator platform - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: vibroinsulated platform comprises a rigid frame, a deck, which is a support surface for an operator, and elastic damped elements, which connect the frame with the base. Each elastic damped element comprises a body resting against the base. On the platform frame there is a vibrodamping element made of an elastron "Agat" or a vibrodamping mastic of type VD-17. The body in the upper part is connected to the cover. On the end surface of the cover, which faces the vibrodamping element, there is an elastic limiter of platform frame travel fixed, made of elastomer. Elastic damped elements are made in the form of at least two flat elastic coaxially arranged rings, an outer and an inner ones, arranged in parallel horizontal planes, rigidly connected to each other by means of at least two elastic elements, radially arranged in the horizontal plane, and at the angle within the limits of 10°÷80° - in the vertical plane.

EFFECT: increased efficiency of vibroinsulation and simplified design.

2 cl, 4 dwg

Description

Vibro-insulated platform refers to the means of protecting the human operator from the harmful effects of vibration and can be used in various kinds of machines and mechanisms, in particular, in the textile and light industry, agriculture, and transport engineering.

Known vibration-proof platform containing a box-shaped base with elastic horizontal stops and a rigid base plate mounted on the base by means of ring-shaped rope elastic elements (French patent No. 1560072, CL F16F 15/02, 1969).

The closest technical solution to the claimed object is the technical solution according to the patent of the Russian Federation No. 2399809 (prototype), containing a rigid frame, flooring, which is the supporting surface for the operator, and elastically-damped elements connecting the frame with the base.

The disadvantages of the prototype are: the relatively low efficiency of vibration isolation in the vertical direction due to frictional friction in the cable elastic elements; the complexity of the design due to the cable suspension, made around the perimeter of the platform.

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

This is achieved by the fact that in the vibration-insulated platform of the operator containing the rigid frame, the flooring, which is the supporting surface for the operator, and the elastically-damped elements connecting the frame with the base, each of the elastically-damped elements contains a housing resting on the base, an elastic element consisting of a spring , the axis of which is perpendicular to the base, and the lower and upper damping spring travel stops made of elastomer, the spring interacting with the stops through the lower support the cup and the upper spring cover, which is rigidly connected to the threaded sleeve, connected by a screw to the scaffold frame, on which the vibration damping element is mounted, located between the threaded sleeve and the scaffold frame and made of Agate plastic or VD-17 type vibration damping mastic , the housing in the upper part is connected to the cover, on the end surface of which, facing the vibration-damping element, an elastic limiter of the platform frame is made of elastomer.

Figure 1 presents the frontal projection of a plate-shaped elastic element with a mesh damper, figure 2 is a top view of figure 1, figure 3 shows a General diagram of the proposed platform, figure 4 is a section aa of figure 3.

Vibro-insulated operator platform (Fig. 3 and Fig. 4) consists of a rigid frame 14 made, for example, of metal corners, flooring 11 (for example, made of wood or composite material), which is the supporting surface for the operator, and elastically damped elements 12, connected to the frame 14 and resting on the base 13.

The plate-shaped elastic element with a mesh damper (FIGS. 1 and 2) contains at least two flat elastic coaxially arranged rings, an outer 1 and an inner 2, with a central hole 5 located in parallel horizontal planes, rigidly connected to each other by at least , two elastic elements 3 and 4, radially located in the horizontal plane and at an angle within 10 ÷ 80 °, - in the vertical plane. Elements 3 and 4 can be made in the form of elastic rods of a round or square profile (not shown) or plate (rectangular profile). Coaxially arranged rings, outer 1 and inner 2, form an annular gap “S” between themselves. Elements 3 and 4, connecting the outer and inner rings, can also be fixed to them by welding, for example contact, or fastening threaded elements, or as an adhesive joint. Elements 3 and 4, connecting the outer and inner rings, can be made in the form of plates, convex or concave curved on a spherical surface.

The cavities formed by flat elastic coaxially arranged rings, external 1 and internal 2, with a central hole 5 located in parallel horizontal planes rigidly connected to each other by at least two elastic elements 3 and 4, are filled with an elastic-damping mesh element 10 made reinforced from a mesh frame, filled with an elastomer, for example polyurethane.

Vibro-insulated platform works as follows.

When applying a static load on the platform, i.e. when the operator is installed on the flooring 11, the elastic elements 12 give a static draft by the calculated value depending on the weight of the operator. In this case, the rigid frame 14 is lowered down, compressing the elastic element. A plate elastic element with a mesh damper operates as follows. When vibrations of a vibroinsulated object installed through the hole 5 on the inner ring 2, spatial vibration protection and shock protection are provided, and an elastic damping mesh element 10 is provided in the damping system.

When a dynamic load is applied from the base 13 from operating equipment, such as a warp knitting machine, the vibration is damped by elastically damped elements 12, the stiffness of which is calculated for the operation of the man-platform-elastic elements system in the resonance mode.

The proposed technical solution is an effective vibration protective means of the operator, as well as simple and reliable in operation.

Claims (2)

1. A vibro-insulated operator platform containing a rigid frame, a deck, which is a supporting surface for the operator and elastically-damped elements connecting the frame to the base, each of the elastically-damped elements contains a housing resting on the base, a vibro-damping element made of agate plastic compound is fixed on the platform frame "Or vibration damping mastic type VD-17, while the housing in the upper part is connected to the lid, on the end surface of which is facing the vibration damping element a, an elastic limiter of the platform frame stroke made of an elastomer is fixed, characterized in that the elastically damped elements are made in the form of at least two flat elastic coaxially arranged rings, external and internal, located in parallel horizontal planes, rigidly interconnected by means of at least at least two elastic elements radially located in the horizontal plane, and at an angle within 10 ÷ 80 °, in the vertical plane. 2. Vibro-insulated operator platform according to claim 1, characterized in that the cavities formed by flat elastic coaxially arranged rings, external and internal, with a central hole located in parallel horizontal planes, rigidly interconnected by at least two elastic elements, filled with an elastic damping mesh element made of a mesh frame filled with an elastomer, for example polyurethane.

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