SU1627389A1 - Apparatus for machining parts with icy abrasive material - Google Patents

Abstract

The invention relates to the treatment of surfaces of products with an abrasive material, in particular, devices for cleaning surfaces from strongly contaminated soils with ice granules. The purpose of the invention is to improve the quality of processing of products due to the uniform distribution of ice granules in the stream. The installation contains an ice generator connected in series, a pressing feeder, a supply pipe 3 and an ice-jet device. The pressing feeder is made in the form of a housing with a cylindrical cavity in which the disc rotor 7 is eccentrically mounted with the feed fingers 9 with the formation of a narrowing channel between the walls of the housing and the rotor with its wide part

Description

The invention relates to the treatment of surfaces of products with an abrasive material, such as ice granules, and can be used to clean surfaces of solid contaminants during repair of internal combustion engines and other products made from ferrous and non-ferrous metals.

The aim of the invention is to improve the quality of processing products for account of the uniform distribution of ice granules in the stream.

Figure 1 shows the installation, General view; Fig. 2 shows a pressing feeder with a side cover; on fig.Z - section aa in figure 2; figure 4 - ice-jet device, a longitudinal section.

The unit for processing products with an ice-abrasive material contains an ice-generator 1 connected in series, a pressing feeder 2, a supply pipeline 3 and an ice-jet device 4.

The pressing feeder 2 comprises a housing 5 with an internal cylindrical cavity with tangentially located inlet and outlet channels. Inside the cylindrical cavity of the housing 5, an eccentric mounted on the axis 6 is a disk rotor 7, which forms a narrowing channel with the wall of the cylindrical cavity. The latter, with its wide part, is connected to the output of the ice maker 1, and the narrow part to the supply pipeline 3. A partition 8 is fixedly mounted along the narrowing channel between the walls of the body and the rotor, dividing the narrowing channel into two isolated parts with the possibility of free passage of feed fingers 9 at them rotor rotation 7 fingers 9

arranged in two rows along the perimeter of the disk rotor 7 and mounted with the possibility of longitudinal movement in the radial grooves 10 made at the ends of the disk rotor. The feed fingers of one row are set offset in the circumferential direction relative to the fingers of the other row by half a step between the fingers in the row.

On each feed pin 9, a roller 11 is fixed, mounted with the possibility of movement in annular guide grooves 12, made on the end walls of the cylindrical cavity of the pressing feeder. The annular grooves 12 are located coaxially with each other and the cylindrical cavity of the housing, i.e. offset by the amount of eccentricity relative to the axis of rotation 6 of the disk rotor 7.

The ice jet device 4 comprises a rotating mixing chamber 13 coaxially mounted in the housing 14 in front of the nozzle 15 coaxially with it, driven by the engine 16 by means of a gear 17. The rotating mixing chamber 13 is equipped with radial knives 18 on its inner side surface in front of which mixing chamber made

through holes 19 for supplying compressed air through the pipe 20. The housing 14 of the ice-jet device and the nozzle 15 form with the mixing chamber 13 an annular chamber 21 into which the compressed air is fed through

pipe 22.

Installation for processing products with abrasive materials works as follows.

1 piece of ice from the ice maker (gra

zeros) enter the press feeder 2

Rotating, the rotor 7 with its feeding fingers 9 captures the ice granules and feeds them through the narrowing channel towards the supply pipeline 3. At the same time, the scaling of ice is compacted. Ice goes to pipeline unit 4 through pipeline 3, gradually condensing in it, since its movement in the pipeline is carried out mechanically by the ice particles themselves, which are gradually pushed into the pipeline 3 by the feed fingers 9 of the rotating rotor 7.

The compacted ice pellets entering the rotating mixing chamber 13 are crushed by radially located blades 18. To form a stable ice jet through the nozzle 20 and the aperture 19, low-pressure compressed air is supplied. To direct the ice granules to the surface being processed and their acceleration, the high-pressure compressed air is supplied through the nozzle 22, which, passing the annular chamber 21, captures the ejection ice pellets and supplies them together with the air to the nozzle 15 and further to the surface of the product being processed.

The use of the press feeder 2 in the installation provides the ice granules to the ice jet device 4 with compacted flow, which increases the uniformity of the distribution of the granules in the jet stream formed in the mixing chamber 13 and the nozzle 15, and consequently, improves the quality of surface treatment of the product.

Claims (4)

1. A device for processing products with an abrasive material containing an ice generator connected in series, supplying a pipeline and an ice jet device, in the case of which the nozzle and mixing chamber are coaxially arranged, in order to improve the quality of processing of products by uniformly distributing ice pellets in the stream, it is equipped with a pressing feeder installed at the exit of the ice maker and made in the form of a body with a cylindrical cavity, in which is eccentrically mounted disk rotor with feed fingers with the formation between the walls of the housing and the rotor of a narrowing channel connected by its wide part with the output of the ice maker, and a narrow part with the inlet of the supply pipeline, where the mixing chamber of the ice jet device is mounted rotatably around the longitudinal axis, and the radial knives inserted into the installation are fixedly fixed on its inner side surface. 2.Installation according to claim 1, which means that it is equipped with a partition mounted between the walls of the case and a rotor along a narrowing channel that divides the latter into two parts, with the possibility of free passage to the saws of the feed pins located in the other, - ,. row along the perimeter of the disk rotor, with the fingers of one row yes displaced with respect to the fingers of the other row by half a step between the fingers in the row. 3. The installation according to claims 1 and 2, characterized in that it is provided with rollers, mounted on the feed fingers, mounted with the possibility of longitudinal movement in the radial grooves made on the ends of the disk rotor, while the rollers of the feed fingers are placed with the possibility of movement in annular guide grooves made on the end walls of the cylindrical cavity of the housing of the pressing feeder with each other and the cavity. 4. Installation on PP. 1-3, that is, with the fact that the mixing chamber is coaxially installed inside the nozzle with the formation of an annular channel connected to a source of compressed air, and in the side through holes for supplying compressed air are made to the wall of the mixing chamber in front of the radial blades. eight 3 Fy LV