RU2010703C1 - Resonance vibration platform for compacting concrete mixtures in forms - Google Patents

Abstract

FIELD: production of building materials. SUBSTANCE: resonance vibration platform for compacting concrete mixtures has a punch, suspended to a frame with use of power hydraulic cylinder. The punch is in the form of a working frame with an oscillation exciter and a balancing frame, connected with the working frame with use of frame mutual position controllers in the form of removable rests, connected with elastic members. The platform also has a die, arranged under the punch on a vibration table. The oscillation exciter is in the form of a hydraulic cylinder, whose body and rod are secured respectively to the above mentioned frames. EFFECT: enhanced efficiency. 1 cl, 1 dwg

Description

 The invention relates to the field of production of building materials, namely to vibration molding of concrete mixtures.

 Vibration plates are known that comprise a vibration platform mounted on elastic supports connected to a rod mounted on the base of a hydraulic cylinder, the cavities of which are connected to a vibration generator.

 The devices are characterized by relative simplicity of execution, however, they do not provide tuning to the resonance mode when changing the parameters of the vibrosystem, for example, when changing the mass of the molded concrete mixture. In addition, vibrations from the hydraulic cylinder body are transmitted to the base, and in the case of a device with an upper arrangement of vibration platforms in relation to the molded product, the bed, which with significant vibration power reduces durability.

 Vibration shock pads are also known containing a vibration platform mounted on the base by means of elastic supports, consisting of a working and balancing frame connected to each other through an exciter of vibrations and elastic supports.

 The devices allow you to unload the base, and in the case of the device with the upper arrangement of the vibration platform in relation to the molded product, the frame from vibration, but do not provide tuning to resonance when changing the parameters of the vibration system.

 Closest to the proposed technical solution is a resonant vibration pad containing a punch suspended from the bed by means of a power cylinder, made in the form of a working frame with an exciter of vibrations, and a matrix located beneath it on the vibrating table. The device allows you to configure the resonance mode when changing the parameters of the vibration system, as well as relieve the frame from vibration, but it is difficult in design.

 The purpose of the invention is to simplify the design.

 The goal is achieved by the fact that the punch is equipped with a balancing frame connected to the working frame by means of the position regulators of the frames relative to each other in the form of adjustable stops connected to the elastic elements, and the vibration exciter is made in the form of a hydraulic cylinder, the body and rod of which are mounted respectively on the balancing and working frames , while the cavity of the hydraulic cylinder through a throttle valve connected to a source of pressure and discharge.

 The drawing shows a schematic representation of a resonant vibration pad for compaction of concrete mixtures.

 The device comprises a bed 1, a moldable mixture 2, an upper vibration platform 3 with a punch 4 fixed on it and a lower vibration platform 5 with a matrix 6 mounted on it. The upper vibration platform 3 is a mechanism consisting of a working 7 and balancing 8 frames that can be moved vertically the guide frame 1 and connected to each other through the upper exciter of oscillations, made in the form of a cylinder 9, the rod of which is connected to the working frame 7, and the body with the balancing frame 8. The relative position of the frames 7 and 8 of the mouth avlivaetsya via vertically adjustable stops 10 disposed between the frames 7 and 8 sequentially c resilient supports 11. The counterbalance frame 8 is connected to the frame 1 via the cylinder 12 lifting and lowering. The lower vibration platform 5 is connected to the lower vibration exciter 13 and mounted on the frame 1 with the help of elastic supports 14, limiting its course within the maximum vibration amplitude. The cylinder 9 of the upper pathogen is supplied from the pumping unit 15 through an oscillator, which can be used as a throttling valve 16, the electromagnet of which receives a sinusoidal electric signal of a given frequency and amplitude. The cylinder 12 lifting and lowering the upper vibrating platform 3 is powered from the pump unit 15 through the distributor 17, made according to the scheme, providing in a neutral position the connection of the cavities of the hydraulic cylinder with a drain.

 The device operates as follows.

 Using adjustable stops 10, the relative position of the working 7 and balancing 8 frames is established and, consequently, the position of the piston of the cylinder 9 relative to its body so that the natural frequency of the circuit formed by the punch 4, frames 7 and 8, and cylinder 9 coincides with a given frequency of the electrical signal coming to the electromagnet of the throttling distributor 16. This ensures the resonance mode, and the average position of the piston of the cylinder 9 corresponds to the lowest natural frequency of the circuit, and the extreme m provisions - the highest. The moldable mixture 2 is poured into the matrix 6. The pump unit 15 and the distributor 17 are turned on. From the cylinder 12, the upper vibrating platform 3 is lowered until the punch 4 touches the moldable mixture 2. The distributor 17 is turned off, both cavities of the cylinder 12 are connected to the drain, which allows free vertical movement frames 7 and 8 relative to the frame 1. On the electromagnet of the throttle valve 16, a sinusoidal electrical signal is supplied. The working fluid alternately enters the cavity of the cylinder 9 of the upper pathogen. Working 7 and balancing 8 frames begin to oscillate relative to each other. The punch 4, acting on the moldable mixture 2, compacts it. At the same time, due to the action of gravity, the working 7 and balancing 8 frames jointly move downward as the moldable mixture 2 is densified. When the lower vibration exciter 13 is turned on, the moldable mixture 2 is subjected to vibration from two sides, which is necessary when molding large thickness products.

 The proposed device can significantly simplify the design of the installation for compaction of concrete mixtures and achieve high efficiency of the molding process.

 (56) Copyright certificate of the USSR N 1237436, cl. B 28 B 1/08, 1985.

 The application of Germany N 3224855, CL B 28 B 1/08, 1981.

Claims (1)

 RESONANT VIBRATION PLATFORM FOR SEALING CONCRETE MIXTURES IN THE FORM, containing a punch, suspended in the form of a working frame with a vibration exciter, and a matrix located under it on a vibrating table, characterized in that the punch is equipped with a balancing working frame by means of a connection frames one relative to the other in the form of interchangeable stops connected with the elastic elements, and the exciter of oscillations is made in the form of a hydraulic cylinder, a cat body and stock cerned fixed respectively to the balancing of the working and frames, wherein the cavity of the hydraulic cylinder through the throttle valve connected to a pressure source and drain.

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