HU185467B - Slide-valve steam feeder - Google Patents

Abstract

The present invention is a vapor dispenser suitable for heating dense materials with steam. It is characteristic that one or more nozzle heads are attached to the wall of the vessel receiving the material to be heated. The nozzle head has at least two chambers, one further away from the material to be heated, the outer chamber that introduces the vapor, one closer to the material to be heated, and the compressed air into the inner chamber of the nozzle and through it into the vessel, and to the inner space of the vessel. . A nozzle ending in the nozzle head extends in the head. There are steam permeable grooves along the head surface of the head. The end of the slide head facing the interior of the vessel is provided with a valve plate. The bushing and the valve plate are connected to each other in the vicinity of the nozzle head to create an air cushion, thereby blocking the nozzle head. -1-

Description

BACKGROUND OF THE INVENTION The present invention relates to a sliding steam dispenser which comprises dense materials, liquids, bulk materials, e.g. steam heating of concrete mix.

It is known that one of the most commonly used methods of concrete consolidation is curing by steaming. In some processes, the steam is used to heat the template and propagate it to the concrete by means of hot heat conduction, while in other processes, the concrete is cured by steam under the blanket. In both processes the efficiency of heat utilization is very low. In case of steam to heat the template in addition to 1 m ³ of concrete accelerated solidification even the most modern technology prefabricated 200-250 kg is needed, while betonszilárdítás Steam demand in the open air, under the cover of 500-600 kg.

Due to the relatively high steam usage, direct pre-heating in the concrete mixer was introduced. Steam is used to preheat the concrete mixture in the concrete mixer and after 40 minutes of shaping, it can be stored at 40 to 50% steam savings. The large improvement in heat utilization between the steam and the concrete mix can be explained by the direct very intensive heat transfer when the steam is mixed and by the utilization of the thermal energy of cement bonding. Essential steam for steam pre-heating is available at almost all prefabricated and concrete mixing plants.

The functional element of the previously known steam dispensing equipment for steam preheating in concrete mixers is the rubber diaphragm and the nozzle.

In the rubber diaphragm steam dispenser, the steam is led to the sponge rubber. The internal overpressure causes the pores of the rubber to expand and release steam into the concrete mix. When the overpressure ceases, the pores shrink to prevent the concrete mixture from entering the vapor dispenser. In the best known solution, steam flows from the rotating mixing paddle to the rubber block. Connecting the rotating blades to the steam distributor is complicated.

Alternatively, the rubber stoppers are mounted on fixed parts on the side plates of the mixer. In a nozzle steam dispenser, the vapor particles flowing out of the nozzle collide with the concrete mixture. By exerting their kinetic energy, they produce a cracking effect that keeps the concrete mix away from the nozzle orifice. The outgoing steam warms the concrete mix. The nozzles are only able to operate with a relatively small outlet. Therefore, depending on the performance of the agitator, 50 to 60 low-power nozzles operate simultaneously. The nozzle assembly is formed of a circular steam distribution tube located below the mixing vanes. The flow of steam is continuous, and this is the only way to achieve a constant damping effect.

However, the procedure is not generally applicable since it can only be used in concrete factories which operate continuously for up to 10 minutes. In addition, the currently known steam dispensers are only suitable for certain types of concrete mixing machines.

In rubber vapor dispensers, the rubber diaphragm is rapidly worn out and / or. clogging, so the steam output gradually decreases. In the nozzle steam dispenser, many low-power nozzles operate simultaneously and the nozzles are often clogged.

It is an object of the present invention to provide a steam dispenser that is plug-free even in intermittent operation and can be used with any concrete mixer.

The inventive idea is based on the discovery that the steam used to heat the concrete mixture is mixed with compressed air and introduced into the concrete mixture by means of a notched vapor barrier slider to provide air-cushion support of the concrete mixture and prevent .

In accordance with the object of the present invention, the sliding vapor dispenser of the present invention is made of dense materials such as liquids or bulk materials, e.g. for heating a concrete mixture with steam having a steam generating and / or storage unit, a vessel receiving the material to be heated and vapor delivery from the steam generating and / or storage unit to the interior of the vessel, characterized in that one or more nozzle heads are is mounted with the nozzle head having at least two, preferably annular, chambers, one for venting steam, an outer chamber remote from the material to be heated, and an internal chamber for introducing compressed air into and through the nozzle head. having a chamber and a sleeve inserted into the nozzle head at the end of the opening towards the interior of the vessel, a slide valve extending inside the nozzle head, steam passages forming a direction along the peripheral surface of the head, its end facing the space is provided with a valve plate and there is a gap between the bushing and the valve plate.

A further feature of the process according to the invention may be that the gap between the valve plate and the lower edge of the bushing when open is at least 1 mm.

An air inlet hole is connected to the inner chamber of the nozzle head.

The slide is sealed, preferably by means of a threaded sleeve, into the nozzle head.

Between the bushing and the nozzle head a sealing ring is provided which serves as a sealing and positioning function.

The slider cylinder is operatively connected to the plunger, and the cylinder is provided with a locking device which disables the negative pressure of the compressed air, e.g. equipped with a compression spring.

The sliding steam dispenser of the present invention has a significant advantage over previous steam dispensers. These include, in particular, the fact that, with the aid of a groove-shaped vapor barrier, the slider can be operated intermittently without the risk of clogging. When using a sliding steam dispenser, the concrete mix receives air cushion support by introducing a constant compressed air. It is widely applicable to all concrete mixers. The risk of accidents with installation and repair is reduced.

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BRIEF DESCRIPTION OF THE DRAWINGS The invention will now be described in more detail with reference to the drawing. In the enclosed drawing, the left part of the figure represents the upper "closed" position and the right part the lower "open" position.

The slider 6 and the head 7 are shown in the upper, closed position on the left side of the figure. Compressed air, preferably 3 bar, is introduced into the inner chamber la through the air inlet 16 and a portion thereof forms an air cushion 11 above the gap 9 through the gap 9 between the valve plate 15 and the sleeve 3. The steam is introduced into the lower chamber lb.

The figure on the right shows the slide steam dispenser in the lower "open" position. The slider 6 and head 7 are lowered, and through the grooves 2 on the head 7, steam of preferably 1 bar from the lower chamber lb is mixed with the compressed air introduced through the air duct bore in the inner chamber la, and Through a gap 9 between the bushes 3, preferably 1 mm, it explosively flows into the material 10 to be heated, cleaning the gap 9. Meanwhile, the pressure of the compressed air is reduced. At the moment of opening, compressed air flows into the material to be heated, and then a mixture of steam and compressed air, which heats the material to be heated. Compressed air, even in the event of a loss of steam, is sufficient in the "open" position to keep the material to be heated away and prevent it from entering the steam dispenser. The slider 6 is actuated by the piston 17 of the cylinder 12. Loss of compressed air supply or pressure drops below 3 bar, and the compression spring 13 closes the steam i · r

At closing, the valve plate 15 cleans the inner surfaces. The minimum amount of compressed air flowing continuously between the valve plate 15 and the bush 3 continuously rinses or releases a layer of concrete possibly deposited on the outer surface of the steam dispenser.

Depending on the configuration of the concrete mixing vessel 14, the steam dispenser delivers steam to the concrete mixture from below, sideways or immersed. The steam dispenser control can be integrated into the concrete mixing system.

In addition to heating the sliding steam dispenser according to the invention, it is useful for heating or softening bulk materials and dense liquids with steam and compressed air.

Claims (6)

Patent claims 1. Pellet steam dispensers for dense materials such as liquids or bulk materials, e.g. for heating a concrete mixture with steam, comprising a steam generating and / or storage unit, a vessel receiving the material to be heated and vapor delivery from the steam generating and / or storage unit to the interior of the vessel, characterized in that the container wall (14a) ) one or more nozzle heads (5) being provided, the nozzle head (5) having at least two preferably annular chambers (1a, lb), an external chamber (lb) for steam injection, which is remote from the material to be heated (10), and with an inner chamber (1a) closer to the material to be heated (10) and capable of supplying compressed air to and from the nozzle head (5) and to the nozzle head (5) at its end extending towards the inner space of the vessel (14). they have an implanted bushing (3), a slider (6) extending inside the nozzle head (5) ending in a head (7), the peripheral surface of the head (7) the downwardly extending grooves (2) for the self-direction are provided, the end (7) of the slide valve (6) facing the inner space of the vessel 914 is provided with a valve base (15) and between the bushing (3) and the valve plate (15). there is a gap (9). The device according to claim 1, characterized in that, in the open position, the gap (9) between the valve plate (15) and the lower edge of the bushing (3) is at least 1 mm. Embodiment according to claim 1 or 2, characterized in that an air inlet hole (16) is connected to the inner chamber (1a) of the nozzle head (5). 4. An embodiment of the apparatus according to any one of claims 1 to 3, characterized in that the slide (6) is sealed, preferably by means of a threaded sleeve (8), in the nozzle head (5). An embodiment of the device according to any one of claims 1 to 4, characterized in that a gap ring (4) is provided between the sleeve (3) and the nozzle head (5), which serves as a sealing and positioning function. An embodiment of the device according to any one of claims 1 to 5, characterized in that the slide cylinder (6) is operatively connected to the piston (17) of the cylinder (12) and the cylinder (12) is provided with a shut-off device for negatively reducing compressed air pressure; e.g. equipped with a compression spring (13).