RU2378447C1 - Vibration device for depositing of concrete mixes, mostly rigid ones - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: device includes hopper, compaction platform coupled to front wall of hopper, smoothening platform, rigid frame and vibration exciter installed on compaction platform, which is fixed in elastic suspensions. The first of them is fixed to rigid frame, and the second one is arranged and fixed to internal surface of front wall of hopper so that vibration action causes stress-strain deformations in it, which provide for violation of adhesion between concrete mix and the second suspension and moving along front wall of hopper.

EFFECT: elimination of bending strains concentration that occur in case of cantilever connection of compaction platform to hopper.

3 cl, 1 dwg

Description

The technical solution relates to the construction industry, namely, devices for laying concrete mixtures, and can be used for laying and compacting hard concrete mixtures, for example, in the production of highly saturated reinforcement products.

A device for laying and compacting pavements according to ed. testimonial. USSR No. 912812, class E01C 19/48, publ. in BI No. 10, 1982, containing a feed hopper mounted on the chassis of the base machine, distribution augers mounted on a swinging frame and a working body in the form of a tamper plate hinged at one of the ends on the struts of the spring-loaded intermediate frame and connected by connecting rods with elastic elements with cranked vibration exciter shaft. The device is equipped with a drive for changing the angle of inclination of the working body in the form of power cylinders, and the ramming plate, the intermediate frame and the crankshaft are made of sections articulated and located symmetrically to the longitudinal axis. The free ends of the sections of the intermediate frame are pivotally connected to the rods of the power cylinders that are mounted on the swinging frame of the base machine. The complexity of the design, the relatively large dimensions and the need for a basic machine make it difficult to use the above device when forming highly saturated reinforcement products.

A device for laying concrete mix during the construction of cement concrete pavement according to ed. testimonial. USSR No. 327287, cl. E01C 19/48, publ. in BI No. 5, 1972, including a hopper, a running gear, a compacting vibratory beam and a smoothing beam. An additional sealing element (for example, a pipe), the lower surface of which is located at the same level with the trailing edge of the smoothing beam, is rigidly attached to the vibrating screed using brackets parallel to it.

In this device, the vibrations from the source are transmitted to the upper layers of the concrete mixture located in the hopper, only through the concrete mixture itself. Due to attenuation, the amplitude of these oscillations is much smaller than in the lower layers. Since hard concrete mixtures have a large coefficient of adhesion, when they are discharged by the device under consideration, the concrete mixture may hang in the upper part of the hopper, where the fluctuations are small, and the effective coefficient of friction (coefficient of friction during vibration) of the concrete mixture on the walls of the hopper is much higher than in bottom of the hopper.

The closest analogue in terms of technical nature and the totality of essential features is a vibration device for laying concrete mixtures, mainly hard, according to the utility model patent No. 57293, class. E01C 19/48, publ. in BI No. 28, 2006, including a hopper, compacting and smoothing platforms and vibration exciter. A sealing pad with a receiving window, connected by a flexible connection with a smoothing pad, is rigidly connected to a hopper having an apron for directing the movement of concrete mix under the sealing pad.

Since there is a rigid connection between the sealing pad and the hopper, during operation, vibration is also transmitted to the hopper. At the same time, on the one hand, the fluctuations of the concrete mixture in the upper part of the hopper increase, which helps to improve the conditions of production, and on the other hand, the fluctuations of the hopper lead to additional significant energy costs, reducing the economic efficiency of using this device. In addition, the sealing pad, rigidly attached to the wall of the hopper, is a cantilever design, which reduces the reliability of the device.

The technical objective of the proposed solution is to increase the economic efficiency of using the device in the manufacture of articles highly saturated with reinforcement, due to the message of vibrations of the directly produced concrete mixture while increasing the reliability of the structure by eliminating the concentration of bending stresses arising from the cantilever attachment of the sealing pad to the hopper.

The problem is solved as follows. A vibrating device for laying concrete mixtures, mainly rigid, is proposed, including a hopper, a sealing and smoothing pad, a rigid frame and a vibration exciter mounted on the compacting pad. According to the technical solution, the sealing pad is mounted on elastic suspensions, the first of which is attached to a rigid frame, and the second is made and attached to the inner surface of the front wall of the hopper so that vibration exposure causes tensile-compression deformations in it, which disrupt adhesion between the concrete mixture and the second suspension and promotion of concrete along the front wall of the hopper. In this case, vibrations from the sealing platform, which cause tensile deformations in it, are transmitted to the second suspension attached to the inner surface of the front wall of the hopper, and its compression is carried out under the action of an elastic restoring force. During periodic stretching and compression of this suspension, the adhesion between it and the “concrete mix” adhering to it is broken, resulting in part of the concrete mixture being “dragged” together with the elastic suspension when it is stretched, and the other part is moving along it along the front wall of the hopper under the influence of overlying layers of concrete mixture. This ensures the movement of concrete mixture towards the outlet window. In addition, tensile-compression strains of the second elastic suspension prevent the formation of freezing concrete mixture on the walls of the hopper, ensuring its stable release, which increases the efficiency of use of the device. The effect of tensile and compressive strains of the second elastic suspension can be significant only if it is considerable along the length of the front wall of the hopper. and make such a width that the second elastic suspension lined the entire front wall of the hopper along its length and width, while the concrete mixture contacts it throughout surface. Since the suspension with which the sealing pad is attached to the rigid frame is made elastic, the vibrations from the sealing pad are not transmitted to the frame, that is, the magnitude of the oscillating mass decreases. This allows for the same energy consumption as the prototype, to increase the amplitude of oscillation of the sealing pad and, as a result, to increase the economic efficiency of using the device in the manufacture of articles highly saturated with reinforcement. Fastening the sealing pad to the elastic suspensions instead of the rigid cantilever fastening used in the prototype makes it possible to increase the reliability of the device by eliminating the concentration of bending stresses arising at the fastening point.

It is advisable to install the sealing pad at an angle to the horizontal plane with the possibility of changing this angle, in this case, the compacted concrete mix is sent directly under the reinforcement and penetrates into all free cavities in the best way, which leads to an increase in the quality of the seal. The ability to change the installation angle of the compacting pad relative to the horizontal plane allows you to change the direction of the vibrations transmitted to the concrete mixture from the compacting pad and choose a rational value for this angle, which depends on the characteristics of the concrete mix.

The essence of the technical solution is illustrated by a specific embodiment and a drawing, which shows a General view of the proposed device in longitudinal section (arrow shows the direction of movement of the device).

A vibrating device for laying concrete mixtures, mainly rigid (hereinafter referred to as the device), includes a hopper 1 mounted on a rigid frame formed of transverse 2 and longitudinal 3 blocks interconnected. A rigid frame with a mechanism 4 for controlling the thickness of the coating is supported on the running frame 5 with wheels for moving along rails (not shown). The sealing pad 6 is mounted on elastic suspensions 7 and 8, the first 7 of which is attached to a rigid frame, and the second 8 to the upper edge of the inner surface of the front wall of the hopper 1 in such a way that vibration exposure causes tensile-compression deformations in it, which disrupt adhesion between concrete mixture and the second suspension and the promotion of concrete mixture along the front wall of the hopper, which allows using one vibration exciter 9 installed on the sealing platform 6, to release concrete mixture (hereinafter - the mixture) from the hopper 1 and carry out its sealing and filling the space under the reinforcement 10. The sealing pad 6, which is a steel sheet, is installed at an angle to the horizontal plane with the possibility of changing the magnitude of this angle. A smoothing pad 12 is attached to the rear wall of the hopper 1 by means of a swivel joint 11. The reinforcement 10 is placed in the mold 13 in accordance with the requirements of the technological process.

The device operates as follows.

Before installing the device in the working position, reinforcement 10 is placed in the mold 13 filled with the mixture. After that, the running frame 5 is mounted on the guides, and the thickness of the molded product required by the technology is set using the coating thickness adjustment mechanism 4. After filling the hopper 1 with the mixture, the vibration exciter 9 is turned on, which excites the vibrations of the sealing pad 6, as a result, the mixture is discharged from the hopper 1. As a result, deformations of the elastic suspensions 7 and 8 occur, on which the sealing pad 6 is fixed, and the mixture is released without hovering , since periodic tensile and compression strains of the elastic suspension 8 disrupt the adhesion between it and the mixture, which contributes to its advancement along the front wall of the hopper 1 and prevents the formation of freezes. Due to the elastic suspension 7, the vibrations of the sealing pad 6 are not transmitted to the rigid frame. To better fill the space under the reinforcement 10 with the mixture, the sealing pad 6 is installed at an angle to the horizontal plane. The angle of inclination of the sealing pad 6 can be changed. This is done by changing the place of attachment of the elastic suspension 8 to the inner surface of the front wall of the hopper 1. When changing the installation angle of the sealing pad 6, the direction of vibrations transmitted from the sealing pad 6 to the stacked mixture changes, which allows you to choose a rational value of this angle, which depends on the characteristics of the mixture.

The sealing pad 6 exerts a dynamic effect on the mixture discharged from the hopper 1, directing it to the inaccessible cavities - under the reinforcement 10. In this case, the mixture fills the entire volume of the mold 13 with the reinforcement 10 placed in it.

Simultaneously with the beginning of the release and compaction of the mixture, the drive motor of the mechanism of translational movement of the device (not shown) is turned on, it moves along the guides along the mold. In this case, the smoothing pad 12 moves in a horizontal plane along the direction of movement of the device, forming a smooth surface of the product.

During the operation of the claimed device, the zone of dilution of the concrete mixture is formed not only at the mouth of the hopper 1. It extends along the sealing platform 6 into the layers of concrete mixture laid in the reinforcement. Then it acts on the underlying layers of the concrete mixture, displacing air from it. After displacement of air, these layers also become part of a single liquefaction zone, which continues to act on the underlying layers, forcing air out of the space saturated with reinforcement. Since the sealing platform 6 by means of an elastic suspension 8 is attached to the inner surface of the front wall of the hopper 1, air is removed in the direction from the front wall through the loose (unconsolidated) concrete mixture in the direction of movement of the device. This has a positive effect on the quality of the molded products.

Claims (3)

1. A vibration device for laying concrete mixtures, mainly rigid, comprising a hopper, a sealing pad connected to the front wall of the hopper, a smoothing pad, a rigid frame and a vibration exciter mounted on the sealing pad, characterized in that the sealing pad is mounted on elastic suspensions, the first of which is attached to a rigid frame, and the second to the inner surface of the front wall of the hopper, the length and width of the second elastic suspension covering the front wall of the hopper, and its place captivity chosen to ensure the possibility of moving the concrete mix during vibrational excitation along the front wall of the hopper. 2. The device according to claim 1, characterized in that the second elastic suspension is attached at the upper edge of the hopper. 3. The device according to claim 1 or 2, characterized in that the sealing pad is installed at an angle to the horizontal plane with the possibility of changing the magnitude of this angle.