SU1270005A1 - Arrangement for continuous electric heating of concrete mix - Google Patents

Abstract

1. A DEVICE FOR CONTINUOUS ELECTRIC HEATING OF A CONCRETE MIXTURE, containing a chamber with a discharge hopper and a chute installed on it, transporting devices arranged stepwise in its cavity, a supply and exhaust system characterized by that. that, in order to improve the quality of the concrete mixture by providing it with uniform electrical heating, increasing the activation, the device is equipped with a mechanism for adjusting the angle of inclination of the transporting devices, each of which is made in the form of a tray with angled electrodes, vertices facing. in the direction of the feed bin, with spring-loaded plate vibrorests installed on its free end. 2. The device according to claim 1, wherein the length of the electrode is 0.5-0.8 lengths (L tray.

Description

ND The invention relates to construction and can be used in the construction of monolithic buildings and structures, as well as in the production of precast concrete. The aim of the invention is to improve the quality of the concrete mix by ensuring its uniform electric heating, increasing the activation. Fig. 1 schematically shows a device for continuous electric heating of a concrete mix; in fig. 2 shows section A-A in FIG. one; in fig. 3 section bb in fig. 2. The device consists of a chamber 1 having a rectangular shape in cross section. Chamber 1 is connected to the feed bin 2 (Fig. 1.2) and the chute 3. The inside surface of the chamber 1 of the feed bin 2 and the leak 3 is covered with electrically insulating material, such as textolite, or can be completely made of it. Kerber 2 is equipped with a vibrator 4. In the cavity of chamber 1 on its smaller sides transport devices are arranged in steps, made in the form of trays 5 hinged to the axis of the device of the trays 5 of electrically insulating material in order to isolate the electrodes from one another. Inside each chute 5, electrodes 7 are fixed parallel to its side walls 6. They are made in the form of metal angles with vertices 8 facing the flow bin 2. Such a shape of the electrons 7 creates a uniform electric field, as a result the concrete mixture is heated to: , and this leads to an improvement in the quality of concrete. The electrodes 7 are fixed on the tray 5 in increments that can be structurally changed depending on the ohmic resistance of the concrete mix or its type. Electrodes 7 have a length of 0.5-0, .8 for tray 5. 5. A vibrating comb 9, consisting of a vibrator 10 located on a spring-loaded shaft 11, is installed above the cantilever part of tray 5 free from electrodes 7. Shaft 1 1 is pivotally connected to the lugs 12. On the shaft 11, metal plates 13 are rigidly fixed, forming a ridge. Each tray 5 is attached to the support axis of the device and has a rubber: an apron 15, one end of which is rigidly fixed to the chamber 1, and the other rests firmly on the tray 5. The device is equipped with a mechanism 16 for adjusting the angle of inclination of the trays. The latter is located on the outside of the side of the chamber 1 in the center of one of its large sides and consists of a screw rod 17 fixed to the camera 1 by means of support bearings 18. On the side of the estuary 3, the rod 17 is connected to reversing drives 19, nuts 20 are screwed onto the rod 17 in increments equal to the distance between, and trays 5. The number of nuts 20 is equal to the number of trays 5. Lever 21 is rigidly attached to each nut 20. Levers 21 are turned relative to the screw rod 17 in opposite directions, respectively, by stepped trays 5. Each 21 is rigidly mounted on the shaft 22. The shafts 22 through the holes made in the chamber 1, are passed inside the latter. Each shaft 22 is passed under the bottom of the tray 5 and through the holes, the extension (slanted in the opposite side of chamber 1 is brought out last. On the outside, each shaft 22 is secured with a nut (not shown) with an external thread) in order to prevent the latter from unscrewing but the operation time of the device. An eccentric 23 is rigidly mounted on the shaft 22 located inside the chamber 1, on which the tray 5 is supported. In the chamber 1 on the mounting side of the chute angle adjusting mechanism 16, supply holes are made to allow atmospheric air to enter the device. On the opposite side of the chamber 1, exhaust holes are made coaxially with the inlet openings, which are combined into manifolds and connected to a fan (not shown). This entire exhaust system is necessary for. to remove from the device the excess vapor phase, which is formed during the electric heating of the concrete mix. In the upper part of the feed hopper 2, a gripping device 24 is made, which consists of a U-shaped bar 25, threaded through the lugs 26 of the receiving hopper 2.

A spring 27 is installed between each eyelet 26 and the end part of the rod 25. An earring 26 is rigidly attached to the middle part of the U-shaped rod 25. The teeter 3 is connected to the vibratory probe 28 or to any known organ for laying concrete, for example a tray (not shown).

The device works as follows.

With the help of a boton pump or any other device (not shown), a concrete mix is continuously supplied to the feed bin 2 and at the same time a three-phase voltage is applied to the electrodes 7. The concrete mix, falling on the top tray 3, is heated by the electrodes 7 and moves down the tray. The speed of movement of the concrete mix in the tray, and consequently, its warming up time, is regulated by changing the angle of inclination of the trays 5 within 0-47 using the mechanism 16 for adjusting the angle of the trays, which allows the use of concrete with varying degrees of rigidity and workability. At the signal of the operator or a software regulating device (not shown), the reversible electric actuator 19 causes the screw rod 17 to rotate. Nuts 20 move up or down the rod 17, respectively, raise or lower the levers 21 with the eccentrics 23 fixed on them, which in turn raise or lower trays 5.

As it progresses along tray 5, the concrete mix reaches its cantilever part, where the vibrator 10 mounted on the spring-loaded shaft 11 transmits high-frequency vibrations to the plates 13, which are immersed in the concrete mix. As a result, the concrete is heated and subjected to vibroactivation. Vibroactivation of a hot concrete mixture contributes to an increase in its strength characteristics / for example, the final strength of concrete increases from 35 to 505–60 MPa, and also improves its quality. After vibroactivation, the concrete mixture is moved to the underlying tray 5. While moving from one level to another hot concrete0 to the mixture is additionally mixed and again, moving down along the trays 5, it is also heated and vibrated.

When electric concrete is heated 5, the water evaporates from the gate, resulting in a vapor-air medium. The degree of saturation of the vapor-air medium, the rate of evaporation of the sputter water from the hot concrete mix, and consequently, the regulation of the water-cement ratio, are controlled by exhaust fans, which eject an excess of the vapor phase of the air phase through the exhaust holes -5 in order to it was not created; atmospheric air enters chamber 1 through the inlet openings.

0 Thus, the hot concrete mixture, gradually moving downward along the inclined chutes 5, reaches the heat 3. The high-temperature, vibrated concrete mixture from the heat 3

j vibrohobot 28 enters the place of installation.

The installation is moved along the work front and maintained in working condition by mounting

0 on the hook of the crane of the shackle 26 of the gripping device 24, which does not dampen the vibrational vibrations of the device and does not transfer them to the hook, since the U-shaped bar 25 of the gripping method 24 is spring-loaded.

Claims (2)

1. DEVICE FOR CONTINUOUS ELECTRIC HEATING OF CONCRETE MIXTURE, containing a chamber with a feed hopper and estrus installed on it, conveying devices stepwise located in its cavity, a supply and exhaust system, characterized in that, in order to improve the quality of the concrete mixture by ensuring its uniform electrical heating, increase activation, the device is equipped with a mechanism for adjusting the angle of inclination of the conveying devices, each of which is made in the form of a device pivotally mounted to the reference axis ARISING tray with angled electrodes facing peaks. to the side of the feed hopper, with spring-loaded plate-type vibratory combs mounted on its free end. 2. The device according to claim 1, wherein the length of the electrode is 0.5-0.8 of the length of the tray. >