UA139397U - Vibration platform - Google Patents

Abstract

The vibrating platform contains a movable frame mounted on the foundation by means of elastic supports, with an unbalanced exciter. The lower base of the elastic support contains a longitudinal rib.

Description

The utility model belongs to the construction industry, namely devices for forming products from concrete and reinforced concrete.

A vibrating platform |1| is known, which contains a movable frame installed on the foundation with the help of elastic supports. The disadvantage of such a vibrating platform is the impossibility of transferring tensile longitudinal technological loads to elastic supports.

The closest in terms of characteristics to the proposed useful model is a vibrating platform (2, in which the movable frame and base are made with stops, the gap between which is greater than the amplitude of the vibrations of the movable frame. The disadvantage of such a vibrating platform is its increased metal capacity due to the presence of massive external stops and the possibility of damage rubber elements of supports due to the unreliability of their protection.

The useful model is based on the task of reducing the metal capacity of the vibrating platform while simultaneously increasing the strength and reliability of its elastic supports when longitudinal technological loads are applied to them.

The task is solved by the fact that in the vibration platform, which contains a movable frame installed on the foundation with the help of elastic supports, with an unbalanced exciter, according to a useful model, the lower base of each of the elastic supports contains a longitudinal rib made with a protrusion that forms a gap 7 with a transverse edge of the upper base. The metal capacity of the vibrating machine is reduced due to the design of elastic supports, because the traditional complex and massive external supports, which fix the frames of the vibrating platforms in relation to the foundations, are excluded.

The essence of the useful model consists in the use of a longitudinal rib of the support made with a protrusion that forms a gap with the transverse rib of the upper base, also consists in the use of an air gap for the entire free height between the rubber elements of the elastic support.

All this will increase the service life of the elastic support. In fig. 1 shows a vibrating platform; in fig. 2 - elastic support (view A).

The movable frame 1 of the vibrating platform, which has a box shape and is welded from sheet and profiled metal, is installed on elastic supports 2, which are located in pairs symmetrically to the longitudinal and transverse axes of symmetry of the vibrating platform frame and provide spatial oscillations of the mobile vibrating platform frame. Spring supports are mounted symmetrically relative to each other

From the transverse axis of the frame and due to this, they can perceive longitudinal technological loads in both directions, which arise in the process of forming reinforced concrete products. The moving frame of the vibrating platform has inclined stops 3, between which the form 4 is set. The oscillations of the moving frame of the vibrating platform are ensured by the unbalanced vibration exciter of circular vibrations 5.

The voids in the molded multi-void ceiling panels are formed by void formers 6.

The elastic support (Fig. 2) consists of the lower 7 and upper 8 bases, connected by elastic rubber elements 9. The lower base 7 contains a longitudinal rib 10, which has a length greater than the length of the elastic elements, and is made with a protrusion that forms a gap 7 with a transverse rib 11 of the upper base. The elastic elements 9 are attached to the upper 8 and lower 7 bases with the help of bolts 12 passed through the holes in their longitudinal ribs 10 and nuts 13. The lower base 7 of the support is attached to the foundation with the help of four foundation bolts 14.

The cylindrical protrusion 15, which turns into a cone 16, enters a special landing hole on the movable frame 1. The cone 16 of the cylindrical protrusion 15 facilitates the installation of the movable frame 1 of the vibrating platform. A damping gasket 17 is placed between the movable frame 1 of the vibrating platform and the upper base 8 of the support.

The vibrating platform contains a movable frame 1 with an unbalanced exciter of circular oscillations 5, for compacting products from concrete mixtures in the form 4, installed on the foundation with the help of elastic supports, which contains the upper 8 and lower 7 bases connected by elastic elements 9. The bases are made in the form of plates with ribs perpendicular to their support surfaces, attached to the movable frame 1 of the vibrating platform and the foundation, and the elastic elements 9 in the form of replaceable rubber plates attached to the ribs with bolts 12. The lower base 7 of the elastic support contains a longitudinal rib 10, which has a length greater than the length of the elastic elements 9, and is made with a protrusion that forms a gap with the transverse edge of the upper base 8, and is greater than the amplitude of oscillations of the upper base 8; the gap between the rubber elements 9 is equal to 0.1...0.6 of the thickness of the rubber element 9, the height of the free unfastened part of the rubber elements 9 is equal to 0.3...0.6 of their total thickness, between the movable frame 1 of the vibrating platform and the upper the base 8 of the support has a damping gasket 17, and the cylindrical protrusion 15 of the upper base, which turns into a cone 16, fits into a special landing hole on the movable frame 1. The relative displacement of the elastic elements 9 of the supports when the vibration platform of longitudinal technological loads is applied to the movable frame 1 is limited by clearances 7 and longitudinal forces are transmitted to the foundation through the protrusions of the longitudinal ribs 10 of the lower bases of 7 supports.

The air gap for the entire free height between the rubber elements 9 of the elastic support, the volume of which changes during each oscillation period, solves the problem of heat removal from the rubber due to the forced movement of air. Such a gap is equal to 6-0.1...0.6 of the thickness of the rubber element 9.

During the operation of the vibrating platform, the gap 2 of the elastic support does not interfere with the oscillations of the moving frame 1 and excludes the collision of the lower 7 and upper 8 bases during the calculated vibration mode, since its size is greater than the amplitude of possible longitudinal vibration movements of the frame.

The maximum value of the gap 7 should not exceed the elastic limit of the rubber elements 9.

Form 4 is installed on the vibrating platform, which is fixed between inclined stops 3. Reinforcing mesh is placed in form 4 and void-forming inserts are inserted. At the same time, longitudinal technological loads are transmitted to the movable frame 1 of the vibrating platform from the inclined stops of form 4 installed on it and fixed in the horizontal plane in the direction indicated in fig. 1 with arrow B. Next, the concrete mixture is placed in the form 4 and its compaction is carried out with an unbalanced vibration exciter of circular oscillations 5. After the vibration of the movable frame 1 of the vibrating platform has stopped, the formwork of the molded product is carried out. When removing the void-forming liners from the mold 4 to the movable frame 1 of the vibrating platform, longitudinal forces are transmitted in the direction indicated in fig. 1 by arrow D. The relative displacement of the elastic elements 9 of the supports when longitudinal technological loads are applied to the moving frame 1 of the vibrating platform is limited by the gaps 7, and the longitudinal forces are transmitted to the foundation through the protrusions of the longitudinal ribs 10 of the lower bases 7 of the supports.

The stiffness of such an elastic support in shear along the longitudinal and transverse axes is almost the same and depends on the shear modulus of the rubber, the shear area and the free height of the elastic elements 9. The stiffness of the elastic support, in turn, depends on the modulus of elasticity of the rubber elements 9 in compression and the same geometric sizes Since the modulus of elasticity of rubber for compression is several times higher than the modulus of elasticity for shear, such a support has good bearing capacity, is quite susceptible to shear in the direction of horizontal movements and does not transmit vibration to the foundation.

From the sources of information: 1. A. p. 795947 USSR, MKY B2881/08. Vibrating platform for forming products from concrete mixtures / A.A. Isupov, V.M. Nazin, K.A. Olekhnovich, A.A. Zabyako, B.A. Osipov (USSR). - MO 2744627-33; declared on 03/29/79; published 15.01.81, Bull. Mo 2. -2 b. 2. A. Sat. 443761 USSR, MKY 82881/08. Vibroploschadka / KA. Olekhnovich (USSR). - MO 187822829-33; declared on 01.29.73; published 25.09.74, Bull. Mo 35. -2 p.

Claims (1)

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