SU887027A1 - Apparatus for applying polymeric coatings - Google Patents

Description

one

The invention relates to devices for applying polymeric coatings on metallic and non-metallic articles of arbitrary shape and can be applied in the engineering, light and chemical industries.

A device for coating is known, which contains a spray gun connected to a screw extruder equipped with a drive and a heating device connected to the spray gun, which is made in the form of a gas burner mounted on the housing of a screw extruder in front of a nozzle that surrounds it 1. The screw is made with a cavity and channels for the supply of flammable gas and oxidant. The drive screw extruder is made in the form of a gas turbine located in the output part of the nozzle nozzle.

The disadvantage of this device is the presence of additional heaters using heat carriers in the form of a flame and others with which the products are heated and the polymer is melted, while the products can change their shape, and items made of fusible materials with a melting point of up to 300 ° C are coated with polymers and not at all possible.

The closest in technical essence and the achieved effect to the described invention is a device for applying polymer coatings, a co5 chamber, a feeder of a polymeric material and a device for heating a polymeric material 2.

The disadvantage of this device is the impossibility of coating the product with an elephant configuration.

The purpose of the invention is the expansion of technological capabilities. The goal is achieved by the fact that

15 in a device for applying polymeric coatings containing a chamber, a feeder of a polymeric material and a device for heating a polymeric material, the latter is made in the form of a generator

20 ultra-high frequencies connected to the chamber by means of a waveguide through a radiotransparent insert fixed on the wall of the chamber, to the other wall of which a polymer feeder is attached.

In addition, in the wall of the chamber opposite to the wall connected to the feeder, a hole is made with a nozzle attachment having an integrated valve, and

30 the camera is made with a coating that absorbs electromagnetic waves of ultra-high frequency.

Since the conductivity of polymeric materials is not zero for electromagnetic waves of ultra high frequency (UHF), heating and melting of the latter due to the resulting resistance to an electromagnetic field is observed when a microwave field is applied to a certain level on polymeric materials.

Thus, due to the use of microwave energy, there is no need to use special heating devices having heat carriers in the form of a flame, which have an adverse effect on the chamber - and the objects to be processed. In addition, energy is saved, since the microwave generator consumes much less energy than any resistive heater to process the same volume of polymer.

The use of a radio-transparent insert in the device allows electromagnetic microwave waves to pass freely into the chamber from the generator and prevents the polymer material from entering the waveguide.

The expansion of technological possibilities is achieved by using microwave energy to melt polymer that does not affect the processed products, since electromagnetic microwave waves are reflected from metals, freely penetrate through non-metallic objects, for example glass, porcelain, etc., without causing any noticeable changes in them.

FIG. 1 shows a general view of the device with the placement of the product inside the chamber; in fig. 2 - a general view with the placement of the product outside the chamber, made with a nozzle nozzle.

The device comprises a chamber 1, the products 2 arranged therein, a feeder consisting of pipelines 3, 4 for supplying gas and supplying a polymeric material, a microwave generator 5, a waveguide 6, and a radio transparent insert 7.

In the case (see Fig. 2), when the product 2 is located outside the chamber, it contains a nozzle nozzle 8 having an integrated valve 9. The chamber has a coating that absorbs electromagnetic waves of ultra high frequency.

The device works as follows.

An arbitrary shape product 2 (possibly low-melting or non-metallic) is placed in chamber 1, gas is supplied through conduit 3, and powdered polymeric material is fed through conduit 4, which is brought into the exploded state with the help of supplied gas. At the same time, the microwave generator 5 is turned on, the energy of which is transmitted through the waveguide 6 and through the radiotransparent insert 7 to the chamber. Under the influence of microwave energy, the polymer material melts at high speed and is deposited on the product, and the product remains practically cold. Coating process

can also be carried out by applying an electrostatic field.

In the second embodiment (see Fig. 2), the material’s nodalization and its melting are carried out as described above, but in connection with

with the product 2 outside the chamber 1, the molten polymer in the form of the smallest particles is directed onto the product through a nozzle nozzle 8 with an integrated valve 9, which opens and closes

as needed automatically or manually.

The proposed device is compact in design and economically energy. The economic effect will be about 100 thousand rubles. in year.

Claims (3)

1. A device for applying polymeric coatings, containing a chamber, a feeder of a polymeric material and a device for heating a polymeric material, characterized in that, in order to expand technological capabilities, a device for heating a polymeric material is made in the form of a microwave generator connected to a γ-chamber by a waveguide through a radio transparent insert fixed on the wall of the chamber, to the other wall of which the feeder of the polymeric material is attached. 2. The device according to claim 1, characterized in that in the wall of the chamber opposite to the wall connected to the feeder, an opening is made with a nozzle attachment having an integrated valve. 3. The device according to paragraphs. 1 and 2, characterized in that the camera is made with a coating that absorbs electromagnetic waves of ultra-high frequency. Sources of information taken into account in the examination 1. USSR Author's Certificate No. 510273, cl. B 05B 7/20, 1973. 2. USSR author's certificate number 634800, cl. B 05C 19/00, 1977 (prototype). /