RU42445U1 - TRIBOSCOPIC POWDER MATERIAL SPRAY - Google Patents

Abstract

The proposed utility model of the “Triboscopic Powder Material Sprayer” relates to equipment for applying protective and decorative coatings on the surface of various products, namely, powder polymer materials with the charging of their constituent particles due to friction and further spraying followed by reflow.

The proposed utility model makes it possible to increase the path of the polymer powder mixture through the active part of the disk triboelectric electricizer of the same diameter due to the use of its cylindrical part to accommodate additional active channels that extend this path.

It increases the level of operator protection, at least from unpleasant sensations when in contact with the sprayer housing.

Description

The proposed utility model relates to equipment for applying on the surface of various products of protective and decorative coatings, namely powder polymer materials with the charging of their constituent particles due to friction and further spraying followed by reflow.

Known atomizer of powder materials, based on the charging of particles of the sprayed polymer powder by friction on.with. Former USSR No. 17453662.

It is known that when charging, the sprayed particles of the polymer powder receive, the greater the charge, the greater their speed and the number of orders to the surface of the triboelectric electricizer.

It is also known that the degree of polarization of particles of the polymer powder is proportional to the path traveled by the particles along the active part of the triboelectric electrizator in direct contact with its surfaces.

In the known invention, the triboelectric element is made of a dielectric material in the form of a tube with holes, which, in our opinion, is not enough to sufficiently charge particles of polymer powder with the dimensions of the atomizer real for manual use.

Known atomizer based on a triboscopic effect (described in the journal "Model Designer" No. 1 for 1988, p. 5),

model TEN-2 made by copyright certificate of the former USSR No. 1052272.

In this powder material sprayer, the triboelectric polymer powder charging unit is otherwise made of a hollow disk, between the bases of which there is a spiral partition forming a channel for the passage of the water-powder mixture, and an inlet pipe connected to the feeder is mounted in the center, the spray nozzle is located tangentially to the lateral cylindrical surface of the disk and the grounded electrode is made in the form of two plates adjacent to the base of the disk from the outside.

In addition, the spiral partition is made three-layer two outer layers of which are made of dielectric.

In addition, the sprayer is equipped with an additional housing with a spiral partition located symmetrically to the main relative to the handle.

The degree of electrification of particles of the known device with a case diameter of 100 mm and a spiral channel length of 1700-2000 mm is quite high and amounts to 30-50 square meters.

However, the path of particles indicated for normal charging along the active part of the electrizator in this design leads, in our opinion, to an overestimated size of the triboelectric electricizer. In addition, the decision to install one more similar electricizer on the handle additionally increases the dimensions and makes the structure heavier, which creates inconvenience in operation.

In addition, the manufacturing technology of the spray gun is complicated.

Closest to the claimed solution is a triboscopic spray described in patent RU No. 2186631 "Installation for triboscopic spraying of powder polymer coatings."

The known atomizer comprises a housing of two dielectric plates, an electrifier mounted between them, a quick change nozzle, a channel for the air-powder mixture, a handle, a spray, and the electrifier is made in the form of a disk, at the ends of which there are spiral grooves, the beginning of which is connected to the channel for air -powder mixture passing from the center of the electrizer to the inlet fitting, and the outputs of the spiral channels are connected to a quick-change nozzle.

The well-known triboscopic sprayer is made at a high technical level, has a low consumption of polymer material during operation, and is convenient to operate.

However, the location of the active part of the electrizator only on the end surfaces of the disk shortens the possible path of the passage of polymer powder particles and, as a result, the degree of their polarization at the same dimensions of the disk diameter.

In addition, as in other designs of triboscopic nebulizers, when particles of polymer powder pass through the active part of the electrizator, it quickly deteriorates and requires replacement during operation, and sometimes manufacture for replacement on its own, which is often used in small enterprises.

In our opinion, the construction of the known invention is somewhat complicated for manufacture under these conditions.

In addition, in the description of the known invention, all the details of the active part and associated with it are made only of dielectric material. There are no conductive pullers for connecting to the neutral wire (ground), which is also important when using triboelectric sprayers, as direct contact with the body can cause at least discomfort.

The purpose of the proposed utility model is the elimination of these disadvantages. This goal is achieved by the fact that the channel for supplying the air-powder mixture is located in the gap (sector) between the installation of the quick-detachable nozzle and the handle, and along the surface of the disk, excluding the area of the channel for supplying the air-powder mixture, two parallel grooves, one horse of each of which are smoothly connected to the nearest groove located at the end, and each of the other ends of the two grooves are combined into a common channel and connected to the quick-release nozzle through a sleeve made of dielectric material, at In this case, the cylindrical surface of the electrizer disk is also wrapped by a gasket made of dielectric material, and the two dielectric plates of the body are interconnected through a conductive insert made with a through hole, the diameter of which is two times the thickness of the gasket of the dielectric material, than the diameter of the disk of the electrifier.

The proposed utility model is illustrated by the drawings:

- figure 1 - shows a General view of the spray powder triboscopic;

FIG. 2 is a section along AA in FIG. 1;

FIG. 3 is a section along BB in FIG. 1.

The triboscopic powder material sprayer contains a housing of two dielectric plates 1, a conductive insert 2, a triboscopic electricizer 3 for charging particles of the supplied air-powder mixture made in the form of a disk and located in the housing conductive insert 2 between the plates 1 and separated by a gasket on its cylindrical surface from dielectric material 4. Quick-detachable nozzle 5. Sleeve from dielectric material 6. 7- channel for supplying air-powder mixture. The handle 8 made of an insulating material, for example,

rubber with a channel for connecting the wire 10 connecting the conductive insert 2 to the ground.

Spiral grooves 9 made at the ends of the disk of the electrizator 3, the beginning of which is connected to the channel 7 for supplying the air-powder mixture, which is located in the sector between the quick-detachable nozzle 5 and the handle 8, through a cylindrical hole 11 located in the center of the disk of the electrizator 2, along a cylindrical surface, which contains two parallel grooves 12 and 13, the beginning of each of which is smoothly connected to the nearest spiral groove 9 located at the end, and the end of each of the two grooves 12 and 13 are connected to a common channel 14, which is connected with a quick-change nozzle 5 through a sleeve b made of dielectric material.

15 - inlet fitting. 16 - flexible hose for supplying the mixture. 17 - hose holder. The switch for supplying the powder mixture and the metering controller are not conventionally shown in the drawings.

The proposed triboscopic spray of polymer powder materials works as follows.

The powder - air mixture is fed through a flexible hose 17 and a fitting 16 into the channel 7, hole 11, spiral grooves 9, grooves 12 and 13, channel 14 where its particles receive a charge as a result of friction on the surface of parts made of dielectric material. Next, the charged particles are fed through the sleeve 15 into the quick-change nozzle 5, through which the charged particles are sprayed onto the product and deposited on its surfaces. Then the product is fed into the furnace for heating and melting the settled powder.

The proposed utility model makes it possible to increase the path of the charged particles of the polymer powder along the active part of the disk electrizator without increasing its diameter. It increases the level of operator protection, at least from unpleasant sensations when in contact with the sprayer housing.

Claims (2)

1. A triboscopic powder material sprayer comprising a housing of two dielectric plates, an electrizer mounted between them, a quick-change nozzle, an air-powder mixture supply channel, a spray handle, and the electrizator is made in the form of a disk at the ends of which there are vertical grooves, the beginning of which connected to the channel of the air-powder mixture passing from the center of the electricizer to the inlet fitting, and the outputs of the spiral grooves are connected by a channel with a quick-change nozzle, characterized in that l for supplying the air-powder mixture is located in the sector between the quick-change nozzle and the handle, and two parallel grooves are made along the cylindrical surface of the electricizer disk, excluding the zone of the powder mixture channel, the beginning of each of which is smoothly connected to the nearest spiral groove located at the end, and the ends of each of the two grooves are connected into a common channel, which is connected to the quick-change nozzle through a sleeve made of a dielectric material, while the cylindrical surface of the disk ektrizatora wrapped gasket formed of a dielectric material also. 2. The spray of powder materials according to claim 1, characterized in that the two dielectric plates of the housing are interconnected through a conductive insert made with a through hole, the diameter of which is greater than the diameter of the disk of the electrifier by two thicknesses of a strip made of a dielectric material.