SU1577969A1 - Multiple moulds - Google Patents

Abstract

This invention relates to the manufacture of products from precast concrete and reinforced concrete. The purpose of the invention is to increase the productivity of the installation due to the intensification of compaction of the concrete mix. To do this, heat shields 8, hinged on base 1 and interconnected by levers 17, are connected to a swing device made in the form of a crank mechanism 15 and are in contact with buffer elements 27 fixed on the molding compartments 5. In the process of compacting concrete the mixture with simultaneous action of mounted vibrators 9 and the shaking of the thermal shields 8 to the concrete is reported to have a multi-frequency excitation with simultaneous pressing. 5 il.

Description

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This invention relates to the manufacture of products from precast concrete and reinforced concrete.

The purpose of the invention is to increase productivity due to the intensification of compaction of the concrete mix.

FIG. 1 shows a cassette installation, general view; in fig. 2 - the same, top view; in fig. 3 - the same cross section; in fig. 4 — node I in FIG. one; in fig. 5 is a section BB in FIG. 3

The cassette unit comprises a base 1 with a stand 2 and guides 3, on which the molding compartments 5 with forming walls 6 and steam jackets movably installed by means of rollers 4 are installed. Heat shields 8 with mounted vibrators 9 are mounted between the molding compartments 5. Heat shields are attached to the base 1 by means of the lugs 10 and the axes 11. For the passage of the lugs in the bottoms 12 of the molding compartments at the joints of the latter, windows 13 are made.

On the extreme molding compartment 14, a device for swinging heat shields 8 is installed, made in the form of a crank mechanism 15. The upper parts of the 16 heat shields protrude above the forming walls 6 of the molding compartments and are connected to each other by means of levers 17. threaded bushings 18 are screwed, which are connected to heat shields by means of elastic elements 19, which are pressed against the walls of the latter by means of disks 20 and nuts 21. There is a gap A between the disks 20 and the walls of heat shields, which can be adjusted The rotation of the nuts 21. The gap is made so that with the maximum possible deformation of the elastic elements 19 (before the closure of the disks 20 and the walls of the heat shields), the size h between the working surfaces of the heat shields and the molding compartments does not differ from nominal more than the value of the tolerance. One end of each lever is provided with a steering wheel 22, the other with an earring 23 and pin 24 connected to a connecting rod 25 of a crank mechanism 15. The thread of the sleeves 18 has a different pitch and increases with the removal of the heat shield associated with this sleeve connecting rod mechanism (extreme molding compartment 14). For example, the sleeve of the first heat shield has a pitch of 1 mm, the second - 2 mm, the third - 3 mm, etc.

On the formative walls 6 of the molding compartments on the brackets 26 are fixed buffer elements 27, and the gap e between them and the heat shields is made so that during rotation of the crank-connecting rod mechanism at the extreme points the thermal shield and the buffer element collide.

The stripping mechanism of the cassette installation consists of a rod 28 with a threaded shank, fixed with brackets 29 on the extreme molding bays 14 and 30, and a handwheel 31.

To fix the molding compartments to the base, the outermost compartment 14 is attached to the stand 2 by elastic members 32.

The parameters of the crank mechanism, namely, the rotation frequency and crank magnitude, which determines the swing amplitude of thermal shields, depend on the dimensions of the molded products (height and thickness) and are determined in each case by calculation or experimentally.

Cassette installation works as follows.

After cleaning and lubrication of the working surfaces of thermal shields 8 and molding

The 0 compartments 5, 14 and 30, the latter with the help of the handwheels 31, are compressed into a package and reinforcement cages are installed in them. Then, after filling the compartments or as they are filled with concrete, the

5 mounted vibrators 9 and a crank rolling mechanism 15. In this case, the heat shields 8 connected to the connecting rods 25 of the latter start to perform angular oscillations, turn about the axes 11, as a result of which pressing

0 concrete mix between the fixed working walls of the molding compartments and heat shields. At the same time, due to the impact of heat shields 8 with buffer elements 27 mounted on the shaping walls 6 of the molding compartments and the vibration of heat shields under the action of mounted vibrators 9, an additional polyfrequency vibration effect is caused by the concrete mix, as a result of which it is intensively diluted and compacted. So

P as thermal shields 8 are connected with levers 17, and through them the swing mechanism 15 is not rigid, but by means of elastic elements 19, the vibration of thermal shields under the action of mounted vibrators 9 occurs not due to the bending of the walls, but as a result of turning the heat shields relative to axes 11. This provides the necessary intensity of vibration with minimal energy consumption. Upon reaching the required degree of compaction of the concrete mix, the mounted vibrators 9 and the crank 15 mechanism are turned off (with large amplitudes of heat shields, the rolling mechanism 15 may turn off somewhat earlier than the superimposed vibrators to obtain a better surface).

The heat shields 8, which can stop at any position, are then output vertically, which is carried out either

by briefly turning on the rolling mechanism 15, either manually, using a flywheel (not shown) mounted on the shaft of the latter. After this, the products are subjected to heat and moisture treatment, for which steam is supplied to the steam jackets 7 of the molding compartments and heat shields 8. At the end of the heat and moisture treatment, the stripping of the cassette installation is performed. To do this, the wheels 31 are first unwound, after which the spinning of the molding compartments is carried out by turning the levers 17 using the wheels 22. Since the pitch of the sleeves 18 connecting the heat shields 8 with the levers 17 is not the same and increases from shield to shield as they move away from the extreme molding compartment 14, a gap is formed between the product and the working walls of any molding compartment with lifting mechanism. After all items have been removed, the molding compartments are cleaned and the cycle repeats.

Claims (1)

Invention Formula A cassette installation containing heat shields, hinged on the base and and interconnected by levers, molding compartments with forming walls, mounted movably on guide bases and placed between the heat shields, a stripping mechanism, characterized in that, in order to increase productivity due to the intensification of compaction of the concrete mix, it is equipped with a device for swinging thermal points, made in the form of a crank mechanism mounted on one of the molding sections, the connecting rods of which are hingedly connected with levers, forming compartments with buffer elements in contact with thermal shields. FIG 2 "Uh SP t rv C-4 SL -4 j Ј 0 CO FIG. five