SU1722948A1 - Vibratory batcher for friable materials - Google Patents

Abstract

The invention relates to plasma, laser and other radiation treatments of metals and can be used to precisely deliver bulk materials into plasma-forming devices. The aim of the invention is to improve the dosing accuracy and technological design. The bulk material as it pours into the bowl 1 forms a slide in the bunker 8. After switching on the electric motor 10, the powder is mixed, ensuring its uniform flow into the silo neck. When the vibrator is turned on, the bowl 1 begins to oscillate, causing the bulk material to move through the helical tube 22 and onto its adapters with windows, and the gas supplied through the other tube picks up the powder from the adapters for 5 hours and sends it to the sprayed area. 4 il.

Description

The invention relates to plasma laser and other radiation treatments of metals (sputtering, cladding ...) and can be used for precision feeding of bulk materials both to plasma-forming devices for spraying and for surfacing when applying powder under a laser beam. beam installation, etc.

A device is known for supplying bulk materials to a plasma-forming device comprising a hermetic housing with a hermetic cover / casing with inlet and outlet openings and an auger in the form of a flexible spiral with a drive located in the casing. The casing is made composite in the form of a fixed inlet and outlet rotational parts, the latter being provided with an individual drive of its rotation in the direction of auger rotation .:

A device for supplying bulk material in a plasma spraying unit is known, which contains a bowl, and with it a connected electromagnetic vibrator, as well as a separator made in the form of a reservoir and a channel connected to the bowl.

These devices are difficult to manufacture, set up, since they have complex adjustment elements that simultaneously carry the main functional load and do not provide high dosing accuracy.

It is also known to supply bulk materials to plasma spraying installations consisting of a bowl in which a spiral is formed on the inner wall. The bowl is installed using inclined metal plates on the base. An electro-magnetic vibrator is installed on the base, with the help of which vibration is more often communicated. A pre-bin with a mixing device and a central tube is mounted on the heels on the heels.

The disadvantage of such a device is the difficulty of manufacturing the inner tray from a single piece of metal. The design of the vibrator bowl does not significantly improve the performance and accuracy of the dosing of the powder mixture during the application or surfacing of particularly thin coatings.

The purpose of the invention is to improve the dosing accuracy and manufacturability of the structure.

The goal is achieved by the fact that in a damper for bulk materials to spraying installations, there is a bunker with a coaxially placed under its outlet nozzle and a bowl connected to a vibrator, the bottom of which is made in the form of a cone with an upward-pointing apex, and the side walls have a spiral guide, an intermixing device connected to the material discharge tube, a compressed gas supply tube and a gas-powder mixture discharge tube located in the bunker, the spiral guide is made on the outer surface These are the side walls of the bowl in the form of a helical tube, with the lower end of the helical tube located in the bowl at the base of the body, and the upper mate with the intake opening of the tube for draining the gas-powder mixture.

FIG. 1 shows a vibrating drum, a longitudinal section; in fig. 2 shows section A-A in FIG. .one; in fig. 3 shows a section BB in FIG. 2; in fig. 4 shows a section B-B in FIG. one,

The vibrating docker contains a cylindrical metal bowl 1 mounted with elastic inclined straps 2 on the intermediate ring 3 mounted on the base 4. The bottom of the bowl 1 is set to the bore 5 of electromagnet 6 embedded in the base 4. On the outer surface of the bowl is a screw 2 tube 7. On the intermediate ring 3 there is a bunker 8 with a lid 9 on which the electric motor 10 is mounted, on the shaft 11 of which the impeller 12 with a spring 13 is fixed. On the lid 9 there is a safety valve 14. Electrodvig The bonnet and the safety valve are closed with a decorative cover 15. The bunker 8 is mounted on the intermediate ring 3 by means of three quick-release locks 16 fixed to the base 4. Rubber rings 18-20 serve to seal. A central tube 21 is screwed into the hopper 8. On the base of the hopper 3 there are openings into which the powder outlet tube 22 and the gas supply tube 23 are inserted.

The upper end of the helical tube 7 is connected with the intake opening of the outlet tube 22 by means of an adapter.

Vibrating works as follows.

Before starting work, the bulk material is poured through the hole where the safety valve 14 is embedded. The bulk material forms a slide in the hopper 8 as it pours into the bowl, after which the stopper with safety valve 14 is sealed. The electric motor 10 is turned on and the powder is mixed to ensure that it is evenly fed into the outlet neck of the bunker and to prevent the powder from sticking to the walls of the bunker.

When the vibrator is turned on (electromagnet 6 with a bark 5), a gap X is selected with a frequency of 50 Hz and a stitch 2 operates in the spring mode, which creates a vibration. The cup 1 begins to vibrate and the bulk element begins to move upward through the spiral tube 22, after which it is poured out onto the adapters of the tube 22 having windows.

To transport the powder from the vibrating dispenser further to the installation, it is necessary to feed gas into the bowl 1 through the tube 23. The bowl cavity is sealed, so the gas picks up the powder from the adapters as the pressure in the bowl increases and sends it through the tube 22 to the sprayed area. Excess powder from the adapters is poured into bowl 1.

A similar scheme for bringing the device into operation from idle mode by simultaneously turning on the vibrator and supplying gas, as is the case with known devices, takes about 10 + 15 seconds, while in the proposed vibration device the working the mode is carried out faster (2-3 seconds):

Use as a unit of powder supply of a helical tube mounted on a spiral groove; made on the outer surface of the bowl allows

BUT

in comparison with the known, to simplify the technology of manufacturing a vibrator by replacing the process of manufacturing a transporting element on the body by the method of machining by the method of winding a standard tube; to improve the accuracy of dosing the gas-powder mixture to the surfacing zone due to the fact that the mixture is transported in a closed volume (tube), which minimizes the possibility of loss: powder spilling over the edge of the tray, as well as saving gas during transportation with the powder in a closed volume.

Formula of the invention The vibratory feeder for bulk materials mainly for plasma spraying installations, containing a hopper coaxially placed under its outlet nozzle and a bowl connected to the vibrator, the bottom of which is made in the form of a cone with an upward-pointing apex, and the side walls have a spiral guide, matching a mixing device and a tube for supplying compressed gas, which is placed in a hopper with a tube for removal of material, characterized in that, in order to increase the metering accuracy and processability, The spiral guide is made in the form of a tube and is placed on the outer surface of the wall of the bowl.

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Claims (1)

Claim The vibrodoser for bulk materials is predominantly for plasma spraying installations, containing a hopper with a part coaxially located under its outlet pipe and connected to the vibrator, the bottom of which is made in the form of a cone with its top pointing upward, and the side walls have a spiral guide paired with a pipe for material removal. 25 is a mixing device located in the hopper and a tube for supplying compressed gas, characterized in that, in order to increase the accuracy of dosing and manufacturability of the design, the spiral guide is made in the form of a tube and placed on the outer surface of the bowl wall.