SU808257A2 - Pneumatic shot blasting for working inner cavities of parts - Google Patents

Description

The invention relates to the cleaning of products by shot.

By main auto No. 192655, a pneumatic blasting device for treating internal cavities of parts is known, comprising a bucket conveyor, a hopper for shots, a metering drum, pneumatic blasting heads, an oscillating sieve and a table for installing parts, the hopper being made with several windows, the number of which corresponds to the streams of the metering drum and the number of rotating spindles of the pneumatic-blasting head 15, made in the form of separate channels for supplying shots and compressing air and equipped with air nozzles that change direction Leniye air supply channels 90 ^e, and lifting and maintaining the parts 26 -on zadannnyh horizons made of corresponding profile of the cam through a nonrotating roller system [1].

A disadvantage of the known device is that it does not allow to obtain a homogeneous mixture of air and fraction, since it does not have a mixing chamber. thirty

The purpose of the invention is to increase the efficiency of the processing of parts.

This goal is achieved by the fact that in the pneumatic blasting head above the air nozzles that change the direction of the air supply by 90 °, a sleeve is installed with holes communicating the supply channels of compressed air and shots.

Figure 1 schematically shows the proposed device, General view; figure 2 is a section aa in figure 1; in Fig.Z - section bB in Fig.1; figure 4 is a section along bb in figure 2.

The proposed device comprises a conveyor 1, driven by an electric motor 2, which also drives a cam 3, lifting and holding parts at predetermined horizons through a rod 4 with a roller 5, a spindle 6 with tips 7 through spur gears 8 and 9, bevel a pair of 10, a cylindrical pair of 11 and a chain gear 12 with a safety clutch 13, a metering device in the form of a shot supply drum 14 through a chain gear 12, a screw conveyor 15 through a flexible clutch 16 and a chain gear'3 chu 12, eccentric Rick 17 swing sieve 18 through a chain gear 19, belt bucket conveyor 1 chain gear 20.

The device also contains a hopper 21 for fractions with windows, the number of which corresponds to the streams of the metering drum 14 and the number of rotating spindles 6, a pneumatic-shot head 22 made with separate channels for supplying shots 23 and compressed air 24 and equipped with air nozzles 25 that change the direction of the air supply channels mainly 90 °, a table 26 for installing parts 27, driven by a cam 3 through a rod 4 with a roller 5, a box 28 for collecting shots that have not sifted through a sieve 18. The number of heads is It corresponds to the number of workpieces, and one of the spindles b is installed on the joint rod 4, which, if necessary, provides rotation of the stage 26 with the part. In the air-jet head above the sequentially located air nozzles 25, changing the direction of the air supply, a sleeve 29 is installed with holes 30 communicating the supply channels of compressed air 24 and 23 and the mixing chamber 31. The holes 30 are made oblique to the axis of the feed channel of the shot 23 with access to the expanding chamber 31 (such as a conical nozzle or Laval nozzle), and the sleeve 29 converts the compressed air supply channel 24 into an annular channel surrounding the fraction supply channel with its outer surface.

The device operates as follows.

Compressed air flows through the channel 24 to the tips of the nozzle 7. In this case, one part of the air changes the direction of the jet at an angle to the axis of the shot supply channel 23 with the help of inclined openings '30 of the sleeve 29, creating a vacuum, engulfs, carries away and drives the shot through the mixing chamber 31 and the tip of the nozzle 7 throws the abrasive flow out.

At the same time, another part of the air changes with the help of the air nozzle 25 the direction of the jet at an angle of 90 ° to the axis of the nozzle 7 and, creating a pressure, ³ additionally accelerates the shot, which is thrown out.

Spent shot through the holes in the table 26 is poured into the receiving chamber of the bucket conveyor 1.

' ^w Cam 3 sequentially raises the part across all horizons, lowers it to its lowest position and rests on the cam disk 3 by pressing the limit switch and sets the drive of the device.

In them <the position of the table 26, the tips 7 come out of the holes or cavities of the part and make it possible to move the table to the side to remove 20 of the processed part, which is removed and replaced with a new one.

The use of the invention improves the quality and processing efficiency of the internal cavities of the parts of the hydroap25 of the patter, the quality of cleaning of which is especially high. In addition, the proposed device will allow you to process parts with thinner holes and cavities, since the 3Q sleeve helps to reduce the thickness (diameter) of the nozzle tip.

Claims (1)

(54) PNEUMATIC BEST DEVICE FOR TREATING THE INTERNAL CAVITIES OF DETAILS chu 12, eccentric 17 swing of sieve 18 through chain transmission 19, belt of bucket conveyor 1 chain transfer 20. The device also contains a hopper 21 for fraction with windows, the number of which corresponds to the drum of the dispensing drum. the number of rotating spindles 6, the pneumatic blasting head 22, made with radial channels for supplying shot 23 and compressed air 24 and equipped with air nozzles 25 that change the direction of the air supply channels 90 °, a table 26 for installation of parts 27, driven by cam 3 through rod 4 with roller 5, a drawer .28 for collecting beats that did not pass through a sieve 18. The number of heads corresponds to the number of workpieces, and one of the spindles installed coaxially 4, providing, if necessary, the rotation of the table 26 with the part. In the pneumatic jet head, over successively located air nozzles 25 that change the direction of air supply, a sleeve 29 is installed with openings 30 connecting the compressed air supply channels 24 and 23 and the mixing chamber 31. The holes 30 are inclined to the axis of the fractional feed channel 23 an expanding chamber 31 {of the type of a conical nozzle or a Laval nozzle}, and the sleeve 29 with its outer surface converts the compressed air supply channel 24 into an annular channel surrounding the fractional supply channel. The device works as follows. The compressed air through the channel 24 flows to the nozzles of the nozzle 7. At the same time, one part of the air changes with the help of the inclined holes 30 of the sleeve 29 the direction of the jet at an angle to the axis of the feed channel of the fraction 23, creating expansion, covers, drags and steals the fraction and through mixing chamber 31 and nozzle tip 7 throws the abrasive stream out. At the same time, another part of the air changes the direction of the jet using an air nozzle 25 at an angle of 90 ° to the axis of the nozzle 7 and, creating a pressure, additionally accelerates the shot, which is thrown out. The spent shot through the holes in the table 26 is poured into the receiving chamber of the bucket conveyor 1. Cam 3 consistently lifts the part across all horizons, lowers it to its lowest position and sets the device actuator using a stop mounted on the cam disc 3. In the lower position of the table 26, the tips 7 exit from the holes or cavities of the part and allow the table to be moved to the side to remove the processed part, which is removed and replaced with a new one. The use of the invention improves the quality and efficiency of the treatment of the internal cavities of the components of the hydroappatura, the quality of cleaning of which is particularly high demands. In addition, the proposed device will allow machining of parts with thinner holes and cavities, since the sleeve helps to reduce the thickness (c-meter) of the nozzle tip. Invention Pneumatic blasting device for processing internal cavities of parts according to auth. No. 192655, characterized in that, in order to increase the efficiency of the machining process, in the pneumatic blasting head above the air nozzles, which change / and the air flow direction by 90 s, a sleeve is installed with holes that connect the compressed air and shot channels. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 192655, cl. B 24 C 3/22, 1965. XY / UH / 7 12 (Put. /