SU918072A2 - Jet apparatus for working inner surfaces of cylinders and pipes - Google Patents

Description

(54) JET MACHINE FOR TREATMENT OF INTERNAL SURFACES OF CYLINDERS AND PIPES

one

The invention relates to the field of cleaning the internal surfaces of cylinders, pipes, channel castings for hydraulic distributor bodies, and so on.

According to the main author. St. No. 28551 is well known to an inkjet apparatus for treating the inner surfaces of cylinders and tubes, containing a sleeve with nozzle holes, plugged at one end with a plug to direct the flow of the suspension into the nozzle holes, under the action of which the sleeve rotates, which allows processing fixedly installed products in one pass 1.

The disadvantage of the known jet apparatus is that such a structure does not provide the necessary efficiency 15: cleaning the inner surfaces of the products due to the low circumferential speed of rotation of the sleeve.

The goal is achieved by the fact that in the proposed device of the jet apparatus the outer surface of the sleeve is made in the form of a wheel with blades, which is mounted

inside the housing with the possibility of formation between the housing and the wheel of the cavity, where the channel for additional supply of compressed air into the cavity to the wheel blades is provided in the housing, and a reflector inserted into the apparatus is installed above the nozzle openings of the sleeve.

FIG. 1 schematically shows the proposed jet apparatus, a general view; in fig. 2 shows section A-A in FIG. one; in fig. 3 shows a section BB in FIG. one.

The apparatus includes a housing 1 with a sleeve 2 mounted therein on bearings 3. On the sleeve 2 screws 4 fasten the sleeve 5, the outer surface of which is made in the form of a wheel with blades 6. Between the case 1 and sleeve 5 there is a cavity 7, communicated by channel 8 compressed air source. A nozzle sleeve 9, having a conical opening and nozzles 10, is screwed into the sleeve 5. The latter are made tangentially to the conical opening, which is closed by a stopper 11. With grooves (not shown) that guide the suspension to the nozzles 10. The plug And is held by a nut 12. Nozzle sleeve 9 contains a reflector 13, made in the form of a disk ring.

the concave part facing the nozzle holes 10 located under the reflector 13.

The lower end 14 of the housing 1 of the apparatus and the nozzle sleeve 9 form an annular gap for the discharge of compressed air from the cavity 7, and the reflector 13 with the end of the lower end 14 of the housing 1 is a diffuser that provides directional movement of the compressed air at an angle to the longitudinal axis of the apparatus. Interchangeable sleeves 15 and 16 are installed in the apparatus. The suspension is supplied to the nozzle holes 10 by means of a hose 17, a pipe 18, and further along the sleeves 15 and 16.

Inkjet apparatus operates as follows.

The suspension supplied through the hose 17, rub (5e 18, having passed through the sleeves 15, 16 and 9, is directed by the stopper 11 into the nozzle orifice 10. The reactive forces arising during the outflow of the suspension create a moment under the action of which the nozzle sleeve 9 and connected to The parts rotate at a certain speed. To increase the rotational speed of the nozzle sleeve 9 and, accordingly, the flow rate of the suspension from the nozzle holes, compressed air is supplied through the channel 8 to the blade 6 of the sleeve 5, which rotates it at a speed exceeding the rotational speed from and reactive forces. From the cavity 7 the compressed air flows into the annular yazor between the lower end 14 of the apparatus body 1 and the nozzle sleeve 9.

Further, the air flow through the diffuser formed by the end of the lower end 14 of the housing 1 and the reflector 13 is directed onto the surface to be cleaned at an angle to the longitudinal axis of the apparatus.

Thus, using a sleeve in the jet apparatus, made in the form of a wheel with blades, the rotation of which occurs under the action of compressed air supplied to the wheel blades, and transmitted to the nozzle sleeve, increases the flow rate of the suspension from the nozzles, which increases the work performance apparatus.

Claims (1)

Invention Formula Inkjet apparatus for processing the internal surfaces of cylinders and pipes according to ed. St. No. 228551, characterized in that, in order to increase productivity and reliability of operation, the outer surface of the sleeve is S as a wheel with blades that is mounted inside the housing with the possibility of formation between the housing and the cavity wheel, with a channel for additional supply of compressed air in the housing A reflector introduced into the apparatus is installed in the cavity to the wheel drive, and a reflector introduced into the apparatus is installed above the nozzle openings of the sleeve. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 228551, cl. B 24 C 5/00, 1967.