SU1211071A1 - Device for sputtering foam polyurethane - Google Patents

Description

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The invention relates to devices for applying polymer coatings, and coatings from polypropylene urethane, and can be used in the construction, chemical, petrochemical, and other industries.

The aim of the invention is to improve the quality of the sprayed polyurethane foam and increase the reliability of the squeezing gun.

Fig. 1 shows a device for spraying polyurethane foam, a general view; in fig. 2 is a squeezing gun, in FIG. 3, the same, with an additional manifold for supplying a foaming agent.,

The device contains containers 1 and 2 for storing the components of the foam-polyurethane composition, which are connected to the spray gun 7 by means of the dispensers 5 and 6 by means of the respective pipes 3 and 4. The air is supplied to the spray gun through a separate pipeline 8.

The spray gun has component inlets in the form of successive annular collectors for feeding polyisocyanate and polyester mixture formed by the housing 9 of the spray gun and the spray nozzle 10. The central air channel 11 has the profile of the Lawal nozzle. The ring headers of the polyester polyisocyanate are connected to the supersonic part of the nozzle by channels 12 and 13 extending inside the wall of the drawing nozzle. All the channels of all the components come out in one section of the nozzle at its height: one end and are arranged in alternating order.

Dp for providing heating to viscous components, there is an additional manifold for supplying a frothing agent, which is also connected by channel 14 to the supersonic part of the nozzle.

The device works as follows.

The composition of GSHU-ZOB, consisting of lapramol 294, silicon-organic foam regulator CEP-1, trichloroethyl phosphate, fluorotrichlorme

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Tana 1 xLaJDon-1 1) technical grade and polyisocyanate grade B.

The first four components, which are not chemically reactive with each other, are mixed and placed in a container. In the container 2 is placed polyisocyanate. Through the appropriate metering devices 5 and 6, components from both tanks in a certain ratio flow through pipelines 3 and 4 to the spray gun 7.

More viscous polyisocyanate composition enters the spray gun manifold, located closer to the nozzle section. The polyester mixture enters the second collector. Compressed air is fed through a separate pipe 8 to the air channel 1 1 of the spray gun. The passage through the Laval nozzle, it flows out of it in the form of a super, sound jet. The polyester mixture and the polyisocyanate from the annular manifolds flow through channels 12 and 13 into the supersonic air flow flowing through the nozzle. The air flow causes the layer-by-layer cutting of the liquid, its fragmentation into small drops, and ensures that the drops are mixed in flight to the surface being sprayed. In the case of the use of the third (additional) collector, the polyisocyanate enters the first collector, the polyester mixture - into the second,:; palm-G1, having the 1st lowest viscosity, - in the third collector most distant from the nozzle exit.

This achieves a high dispersion of the droplets and their delivery to the printed surface in the form of a well-mixed mist. The mutual reaction of the components takes place completely behind the nozzle of the spray gun. The arrangement of the outlet openings of the channels of the component supply system in one section of the Laval nozzle ensures the same degree of dispersion of the components due to the equality of the flow rate on the injected fluid. The uniform distribution of the outlet openings of the channels over the cross section of the nozzle is guaranteed. Good mixing of the droplets of the components behind the nozzle section.

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Claims (2)

1. DEVICE FOR SPRAYING FOAM POLYURETHANE, containing containers for components of the polyurethane foam composition and dispensers of components connected by pipelines through the inlets of the components and compressed air with a spray gun, which differs in that Phi .1 Air is used to increase the quality of the sprayed polyurethane foam and increase the reliability of the spray gun, the inputs of the spray gun components are made in the form of successive ring collectors by the number of components connected by channels with the air channel having a Laval nozzle profile located on the central axis of the spray gun, and the channel outlet openings are uniformly are distributed alternately in one cross section of the air channel in § supersonic Asti nozzle at its outlet end. 2. The device according to π. 1, characterized in that, in order to ensure heating of the components. the spray gun is equipped with an additional ring collector for supplying a blowing agent such as low boiling liquid. SU „1211071> ! 211071