NL7810010A - Ejector suction pump for cleaning residue of casting moulds - has passages discharging into ejector chamber between nozzle inner wall and jet pipe - Google Patents

Abstract

The ejector-type suction pump comprises a nozzle in the wall of a suction pipe and containing passages aimed in the discharge direction. The inlet ends of the passages are connected to an annular chamber round the suction pipe and which is supplied with compressed air. The passages discharge into an ejector chamber between the inner wall of the ejector nozzle and a jet pipe fitting inside it. An annular jet gap is formed between the latter and the nozzle inner wall at the outlet.

Description

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Applicant:

Title: Ejeütor-zttigpotep

The invention relates to an ejector suction porap, in which an injector tube is received in the wall of a suction pipe, just through the wall thereof directed towards the suction side of the ejector channels, the input side of which is connected to a chamber forming the suction pipe ring-shaped and connected to a compressed air pipe is connected · Such pumps are ο · α · advantageously used in a dust suction pipe, for example in the steel industry for cleaning mold cavities of residual dust and impurities, before the mold is used for a new casting * The TO discharge pipe can then be be guided through a separator »where the heavier components fall out, while the used air can then be passed through a dust filter.

Such devices can be used particularly economically in industrial environments, compressed air is available and then furthermore have the advantage that they do not present an explosion hazard and that maintenance is simple and cheap due to the absence of moving parts *

The invention is aimed at increasing the amount of air or liquid which, when consuming a cart given 20 press volumes of given pressure, per unit time from the space to be cleaned or from the surface to be cleaned *.

Starting from the introductory prior art, the invention is further characterized in that the ejector channels open into an ejector chamber between the inner wall of the ejector belly piece and a nozzle placed therein, with between the latter and the inner wall of the ejector tube piece an annular atrial slit is formed at the exit of the ejector chamber *

It has been found that in this way the suction is considerably increased compared to known constructions.

The preference liner is further characterized in that the ejector tube piece is provided with a crown of longitudinal channel on the ~ 7810010 r 2 »ejector tube extending from the inlet side of the ejector tube piece to the outlet side.

The suction is thus effected in two ways, viz. centrally through the nozzle and around it through the langa channels in the ejector pipe section and it appears that the yield obtained in this way is particularly high.

The invention and various further details, which are advantageous in the further structural elaboration of the invention, are defined in the appended claims and explained below with reference to an exemplary embodiment shown in the drawing.

In the drawing, Fig. 1 is an axial longitudinal section through an exemplary embodiment of the invention. Fig. 2 is a cross-sectional view along the broken line Il-II of Fig. 1 and Fig. 3 is a cross-section of a main part shown therein, in the upper half according to the radial IlIa-IIIa of Fig. 2, in the lower half according to the radial 20 µl-IIlb.

In the drawing, the suction line, in which the ejector pump is built, is indicated by 1. Cat medium tranaport takes place in the direction of the arrows?

2 indicates a chamber 25 connected to a compressed air line 3, which is connected by channels 4, hg to an annular channel 5 of the ejector pipe piece 6 received in the line 1. The cross section according to Fig. 1 is midway between the ejector channel »4 taken, but the cross-section in the upper part of Fig. 3 runs along a radial cross-sectional plane, which is rotated relative to that in the lower part, and passes through the axis of one of the channels k, '

The ejector tube 5 is located between the inner wall of the ejector tube piece 6 and a nozzle 7 placed therein. The said inner wall locally forms a part of the ejector tube piece 6 with an enlarged internal diameter, whereby a hollow is created, which serves as ejector kaffler 5 is doing. At the outlet of the ejector V? · »· * 7810010 t» 5 channel ia between the jet pipe 7 and the inner wall of the ejector pipe piece 6 an annular jet gap 8 'is formed, where the compressed air flows out of the medium to be sucked out enters the interior of the nozzle 7 in the direction of the arrow P on the right in fig. 1.

5 The ejector pipe section 6 ie also provided with a ring of longitudinal channels 9 around the ejector chamber 5 which run from the inlet side of the ejector pipe section 6 to the outlet side · Air is also drawn in through these channels, so that when a certain volume of compressed air is supplied per unit of time at a given pressure in the chamber 5 an at-10 without large volume of air or other medium is drawn through the suction pipe 1

The jet pipe 5 consists of a separate pipe piece, which is fixed in the pipe piece 6, in this case by screwing in (screw thread 21). The widened ring head 22 with slot 23 for inserting the blade of a screwdriver is then screwed in to the stop, but a certain setting can be achieved by tightening more or less in the longitudinal direction. This nozzle 7 is incidentally easily exchangeable. and the desired length can be chosen for this. The wall of the nozzle 7 extends beyond the ejector chamber 5 and is conically shaped into a nozzle 18, which releases the said annular gap 8

At the height of the ejector chamber 5, the nozzle 7 has a reduced diameter, so that a part of the infoud of the ejector chamber 5 is formed by a recess 10 on the outlet of the nozzle. Furthermore, the ejector chamber 5 on the side 11 of the jet pipe has a progressively narrowing course towards that jet gap. Verdes means for obtaining an ejector jet action and such a low resistance for the medium to be sucked and transported by the suction tube 1 are formed by an adapter 13 which widens outwards from the suction line 12 and which is connected to the central part 6 of the ejector tube piece and which encloses an entrance space 11 *. The entrance side of the ring of longitudinal channels 9 and that of the jet pipe 7 opens into this.

On the opposite side is provided an adapter 16, which narrows towards the pre-pipe 15, which closes a chamber 17, into which the channels 9 open the annular gap 8 and the jet pipe 7: 7810010. '\ -t λ,, h

However, the end of the ejector tube 6, which opens into the outlet adapter 16, extends beyond the outlet nozzle 18 with the surrounding nozzle 8 into a nozzle 19, the wall of which is conically tapered towards the end. * Thus, an adapter is formed corresponding to the opposite , conically narrowing inner wall 20 of the adapter 16 »

The outlet of the obliquely oriented ejector channel is located; located approximately midway between the end of the ejector tube section 6 and approximately in the center of the ejector chamber 5 which has an elongated course parallel to the axis direction of the tube section.

In fig. 1 it can further be seen that the adapter 16 forms a part screwable by screw thread 2k on the middle part of the ejector pipe piece 6, which in turn can be connected by screw thread 15 to the end of the discharge pipe 15. pipe piece can be attached to a wall or other element of a device box by means of a screw-on flange 26 with the counter nut 27

According to a practical example, one can use, for example, compressed air with a pressure of 6 bar * Mot a consumption x of compressed air of ** - 6 n / min for example, a suction power of 6000 mm water column with a very large suction volume of the medium to be transported »h 1 7810010

Claims (5)

1 · Ejector suction pump, in which an injector pipe piece is mounted in the wall of a suction pipe, and the ejector channels in the wall thereof are directed towards the suction side, the input side of which is connected to a suction pipe ring-shaped chamber which is connected to a compressed air line, with characterized in that the ejector channels (4) open into an ejector karaer (5) between the inner wall of the ejector tube section (6) and a jet pipe (7) placed therein, with the ejector tube of the ejector tube section positioned between the latter and the inner wall of the ejector tube section. in the ejector chamber an annular 10 jet slit (8) is formed Ejector suction pump according to claim 1, characterized in that the ejector tube piece (6) is provided with a ring of longitudinal channels (9) around the ejector tube (5) which run from the inlet side of the ejector tube piece (6) to the outlet side. * Ejector suction pump according to Claims 1 or 2, characterized in that the jet pipe (7) placed inside the ejector tube piece (63) is formed by a tube piece which can be axially inserted in the longitudinal direction, for example screw-in tube, which in a desired position longitudinally adjustable and the wall of which is pointed at the nozzle to be brought past the ejector karaer (5). Ejector suction pump according to one of the preceding claims, characterized in that the nozzle (7) received within the ejector tube section (6) has a reduced diameter at the height of the ejector unit (5), such that part of the contents of the ejector karaer is formed by a recess (10) on the circumference of the nozzle (7) · Ejector suction pump according to any one of the preceding claims, characterized in that the ejector chamber (3) on the side (11) of the jet gap (8) has a gradually narrowing course towards said jet gap · 78 1:00 1 0 vJL i ^ f '- / - Hk 6 «Ejector suction pump according to one of the claims 2 et seq., characterized in that the ejector tube piece (6 ) on the inlet side for the medium to be sucked in is provided with a course widening from the suction line (12) to the outlet of the ejector pipe section (6). 5 piece (13), which closes an inlet channel (1 * 0 ora), into which the inlet side of the nozzle (7) and of the crown of longitudinal channels (9) mouth, while on the opposite side a reducer narrowing towards the discharge pipe (15) (16) is arranged to enclose a chamber (1?) Into which the latter channels, the annular gap (8) and the nozzle 8 (7) open, Ejector suction drain according to claim 6, characterized in that the end of the ejector tube (6) opening into the chamber (17) inside the outlet adapter (16) extends past the outlet nozzle (18) with the emitting jet gap (8). in a nozzle (19), the wall of which is conically tapered towards the end and has a gradient corresponding to the opposite, conical-narrowing inner wall (20) of the adapter (16), Ejector suction well according to any one of the preceding claims, characterized in that the obliquely oriented ejector channels (**) through the wall of the ejector tube piece (6) are located approximately halfway between the ends of said tube piece (6) and approximately in the middle of the ejector chamber (5) formed in that tube section, the latter chamber having an elongated course parallel to the axis direction of the tube section. 7810010. i