SU781060A1 - Method of shaping articles and apparatus for realizing it - Google Patents

Description

The invention relates to construction and is intended for molding products mainly from concrete mix with a complex textured surface.

• A known method of forming products by exposure to shock power pulses, which is carried out using a device for forming products containing a cylindrical chamber of shock pulses supported on a mold by means of membranes [1]. This method and device for its implementation is characterized by a long duration of the molding cycle of the products 15 and their insufficient and heterogeneous density.

The purpose of the invention is to reduce the molding time and increase the density of the product. 20

This goal is achieved by the fact that according to the method of forming products by impact shock power pulses, the latter is carried out cyclically by a series of shock pulses, and the duration of each subsequent series is 2-8 times the duration of the previous series, the amplitude of shock pulses-30 is 3-10 times, and their frequency is 1.2-1.8 times less.

In the device for implementing the indicated method, comprising a cylindrical shock pulse chamber supported on the form by means of a membrane, the shock pulse chamber is provided with additional membranes dividing its cavity into isolated compartments, each of which is connected to a pressure source. In addition, the shock chamber is equipped with a device for the destruction of additional membranes in the form of cross-shaped knives.

In FIG. 1 schematically shows a device for implementing the method of forming products, a General view in section; in FIG. 2 - node I in FIG. 1 on an enlarged scale; on * ig. 3 - cyclogram of the molding process.

A device for implementing the proposed method of forming products consists of a cylindrical chamber 1 of shock pulses supported on Form 2 by means of a membrane 3, additional membranes 4, 5, b, dividing the chamber cavity into isolated compartments 7, 8, 9, 10, each of which is connected to pressure source 11 through parallel connected valves 12, 13,

14, 15 and pressure reducing valves 16, 17, 18 and 19.

The cavities 7, 8, 9, and 10 are connected by pipelines through the backward valves 20. 21 and 22 and are equipped with sensors connected to the force and the recorder (not shown conditionally in the drawing). In addition, the device contains a membrane damaging device made in the form of a cross-shaped knife 23.

The method of forming products is as follows.

The dosed concrete mixture 24 is laid in mold 2, a membrane 3 and a cylindrical chamber with a diameter of 80 mm with insulated compartments are installed

7, 8, 9 and 10. The compartments are isolated to

...... with additional membranes 4, 5, b, with a thickness of 0.08 mm and 0.20 mm, respectively. - from aluminum and 0.20 mm - from stainless steel, and are equipped with destructive devices.

Open valve 15 and compartments 7,

8, 9 and 10 are filled with gas, gradually increasing the pressure to 0.014 mN / m ² , to which the pressure reducing valve 19 is adjusted, thereby exerting an effect on concrete, loading the membrane 3. Then the valve 15 of the device is closed, and the valve 14 is opened and the pressure is increased in compartments 8, 9, 10 to 0.13 mN / m ² to rupture the membrane 4. In this case, the amplitude of the first shock. waves of the first series of pulses is 0.12 mN / m ² · with a maximum swing of 0.05 mN / m ² · and a frequency of 226 Hz.

The oscillation frequency is determined by the length of the compartments (in this case 750 mm) and the sound velocity of the working gas. After rupture, the membrane in the compartment is set to a static pressure of 0.07 mI / m ² , while holding for 2-3 minutes, depending on the type of cement and concrete composition. 'The valve 14 is closed and the valve 13 is opened, increasing the pressure in the compartments 9 * and 10 to 0.26-1.60 mN / m ² until the membrane 5 ruptures, while the amplitude of the second shock wave of the second series of pulses is 0.24-0, 96 mN / m ² with a maximum range of fluctuations of 0.140.5 mN / m ² · and an oscillation frequency of 160 Hz, and then produce a shutter speed of 2-3 minutes, valve 13 is closed. After rupture of the membrane 5, a static pressure of 0, ΙΟ, 4 mN / m is established in the compartment. After the attenuation of the pressure waves, the valve 12 is opened and the process is carried out similarly, the pressure in the cavity 10 is increased to 0.7-5 mN / m ² until the membrane 6 is destroyed, while the amplitude of the third shock wave of the third series of pulses is 0.6 mN / m ² - 3 , 5 mN / m ² with a maximum range of fluctuations of 0.43-2.1 mN / m ² and an oscillation frequency of 112 Hz, after which an exposure time of 10-60 minutes is performed depending on the type of cement and concrete composition.

Application of the method and device for its implementation ensures acceleration of concrete hardening by periodically raising the local temperature of the mixture resulting from exposure to the series of shock waves, the concrete strength increases by 18-20% and reduces its porous _t occupancy of 1-2%.

Claims (3)

The invention relates to construction and is intended to form articles primarily from a concrete mix with a complex textured surface. A known method of forming articles by applying shock pulses, which is carried out with a device for shaping products containing a cylindrical chamber of shock pulses, opted for by means of membranes 1 This method and device for its implementation has a large forming cycle. products and their insufficient. and heterogeneous density. The purpose of the invention is to reduce the molding time and increase the density of the product. This goal is achieved by the fact that according to the method of forming articles by applying impact force impulses, the latter are cyclically series of shock impulses, the duration of each subsequent series exceeds the duration of the previous series by 2-8 times, the amplitude of shock impulses 3-10 times and their frequency is 1.2-1.8 times less. In the device for the implementation of this method, which contains a cylindrical shock pulse chamber, supported on the form by means of a membrane, the shock pulse chamber is equipped with additional membranes dividing its cavity into isolated compartments, each of which is connected to a pressure source. In addition, the shock chamber is equipped with a device for the destruction of additional membranes in the form of cross-shaped knives. FIG. 1 schematically shows an apparatus for carrying out a method for forming articles, a general sectional view; in fig. 2 - node J on Lig. 1 on an enlarged scale; in FIG. 3 is a cyclogram of the molding process. A device for carrying out the proposed method of forming articles consists of a cylindrical chamber 1 of shock pulses supported on form 2 by means of a membrane 3, additional membranes 4, 5, 6, which divide the cavity of the chamber into isolated compartments 7, 8, 9, 10, each of which connected to pressure source 11 through parallel-connected valves 12, 13, 14, 15 and reducing valves 16, And 18, and 19. Cavities 7, 8, 9, and 10 are connected by pipes through non-return valves 2 21 and 22 to which are equipped with sensors connected to the force and the registrar (in the drawing it is conditionally not rendered). In addition, the device contains a membrane-destroying device made in the form of a cross: a knife. 23. The method of forming the articles is as follows. The dosed concrete mix 24 is pressed into the form 2, the membrane 3 and the cylindrical chamber with a diameter of 80 mm with isolated compartments of 7.8, 9 and 10 are installed. The compartments are insulated with up to 4, 5, 6 membranes, respectively, O, O8mm and 0.20 mm are made of aluminum and 0.20 mm are made of stainless steel and are equipped with destructive devices. The valve 15 is opened and the compartments 7, 8.9 and 10 are filled with gas, smoothly increasing the pressure to 0.014 mN / m, to which the reducing valve 19 is adjusted, thus effecting the concrete, loading the diaphragm 3. Then the valve 15 of the device is closed, and the valve 14 is opened and the pressure in the compartments 8, 9, 10 is increased to 0.13 mN / m until the membrane 4 is broken. At the same time, the amplitude of the first shock. The waves of the first series of pulses are equal to 0.12 mN / m with a maximum swing of 0.05 mN / m and a oscillation frequency of 226 Hz. The oscillation frequency is determined by the length of the compartments (750 mm in this case) and the sound velocity of the working gas. After the rupture of the membrane in the compartment, a static pressure of 0.07 mN / m is established, and the shutter speed is produced for 2-3 minutes, depending on the type of cement and the composition of the concrete. The valve 14 closes and opens the valve 13, increasing the pressure in the compartments 10 to 0.26-1.60 mN / m to the rupture of the membrane 5, while the amplitude of the second shock wave of the second series of pulses is 0.24-0.96 with the maximum the range of oscillations is 0.140, 5 mN / m and the frequency of the coils of 160 Hz, and then the proEs; go EDDe15Gku 2-3 minutes, the valve 13 is closed. In the compartment after rupture of the membrane 5, a static pressure of 0.10, 4 mN / m is established. After the damping of the pressure waves, the valve 12 is opened and the process is performed in the same way, the pressure in the cavity 10 is increased to 0.7-5 mN / m until the membrane 6 is destroyed, while the amplitude of the third shock wave of the third series of pulses is 0.6 mN / m - 3, 5 mN / m with a maximum swing of 0.43-2.1 mN / m and an oscillation frequency of 112 Hz, after which it is aged for 10-60 minutes depending on the type of cement and the composition of concrete. The application of the proposed method and device for its implementation accelerates the process of hardening of concrete due to periodic local increase in the temperature of the mixture as a result of exposure to a series of shock waves, increases the strength of concrete by 18-20% and reduces its porosity to 1-2%. Claim 1. The method of forming products by impact of shock power pulses, characterized in that, in order to reduce the molding time and increase the density of products, the shock effects are performed cyclically by a series of shock pulses, the duration of each subsequent series exceeds the duration of the previous series in 28 times, the amplitude of shock pulses is 3-10 times, and their frequency is 1.2-1.8 times less. 2. A device for carrying out the method according to claim 1, comprising a cylindrical shock pulse chamber supported on a form by means of a membrane, so that the shock pulse chamber is provided with additional membranes dividing its cavity into insulated compartments, each of which is connected to a pressure source. 3. The device according to claim 2, characterized in that the shock chamber is equipped with a device for the destruction of additional membranes in the form of cross-shaped knives. . Sources of information taken into consideration during the examination 1. USSR author's certificate No. 491322, cl. B 21 B 26/06, 1974. Yu -.JW: JVjW