SE456404B - MOISTURIZER AND OIL SEPARATOR - Google Patents

Description

15 20 25 30 35 456 404 the jacket and the sleeve are arranged a cylinder partition wall attached to the lid.

However, this oil separator is insufficiently efficient for oil separation when the compressor capacity exceeds 6 m3 / min (45 g / hour instead of normally no more than 20 9 / hour).

This is because in the oil separator with drainage device, formed by a downwardly directed bottom part of the jacket, an increased foaming and capture of particles from the oil surface in the lower part of the oil separator takes place. This results in the foam formation increasing the aerosol load on the filter, which does not have time to separate the elevated oil content in the air.

The main object of the present invention is to provide a moisture and oil separator with a constructive embodiment of a filter sleeve. which makes it possible to increase the efficiency of the moisture and oil separation at a given amount of air from compressor machines, which exceeds 6 m3 / min, without increasing its outer dimensions.

This object is achieved in that in a moisture and oil separator, which comprises a vertical cylinder housing down a lid, inside the upper part of which, in a jacket with a perforated side surface and with a bottom, a filter sleeve is coaxially arranged, which consists of a set perforated cylinders led one between the placed fibrous material, and on the other hand an outlet pipe connection for purified air arranged in the lid. on the other hand, an inlet pipe socket for polluted air arranged under the bottom of the nantel. and on the other hand a diverter device, according to the invention between the bottom of the nantel and the inlet pipe socket is arranged a conical shield made in the form of a conical shield with a hole for oil passage, which is attached to the housing and separates an oil collection zone which is made in the form of a cup with an upturned bottom. wherein the cup from above encloses the inlet pipe socket at a space and every other of the perforated cylinders of the filter sleeve, counted from the outer. has a corrugated surface with the perforation made on the outer tops of the corrugation. now 10 15 20 25 30 35 3 In order to form large oil particles therefrom along the flow path of the oil-air mixture, it is suitable to apply a coagulating net to the perforated cylinder, which is closest to the side wall of the jacket.

The drainage device ensures, thanks to the fact that it is made in the form of a cup with an upwardly facing bottom and the cup from above partially encloses the inlet pipe socket. a higher efficiency of the oil separation by adding the forces of inertia acting on the streams and droplets at the sharp turn of the oil mixture at 180 ° are added to the gravitational forces of these streams and droplets. The foam extinguisher. which is attached to the moisture and oil separator. separates the foam. which is formed during the operation of the moisture and oil separator at the upper part of the inlet pipe nozzle. the diverter and the filter sleeve. The shield with its downward-facing cone ensures the drainage of the separated liquid to the lower part of the house. All this contributes to a higher efficiency of the moisture oil separator. and The corrugated cylinder with perforation on the outer tops of the corrugation and wrapped in a coagulating net ensures enlargement of the moisture and oil particles and drainage thereof along the corrugation bottoms of the cylinder, which have no perforations. The part of the oil which, under the influence of the air pressure, passes through the perforation consists of secondary droplets, which have a larger measurement and can therefore be easily captured by the synthetic fibrous material placed between the cylinders.

The cylinders with corrugated surface. which are alternately arranged with cylinders with smooth surfaces. contributes to better drainage of the oil along the gutters in the corrugation.

According to an embodiment of the present invention, the end surfaces of the perforated cylinders facing the lid can be provided with flanges which are connected to the lid over a disc. 10 15 20 25 30 35 456 404 The lower end surfaces of the perforated cylinders can also be provided with flanges which are attached to the bottom of the jacket. wherein these flanges may be provided with channels which ensure a flow of moisture and oil along the bottom of the jacket to a recess therein. where the collected liquid is later removed. Such an embodiment of the filter sleeve fixing on the lid of the moisture and oil separator ensures a quick insertion and removal of the sleeve in the housing as well as disassembly and disassembly thereof for cleaning and. if so required. replacement of the synthetic fiber material. The filter sleeve is thus possible to repair and the costs for its manufacture are reduced.

The invention is described in more detail below with reference to an embodiment of moisture and oil separator according to the invention and the accompanying drawings, in which Fig. 1 in section shows a general view of the moisture and oil separator according to the invention, Fig. 2 shows the device in Fig. 1 along the line II-Il. Fig. 3 shows on an enlarged scale a section of the corrugated surface of the cylinder of the filter sleeve, and Fig. 4 shows the device in Fig. 1 along the line IV-IV.

The moisture and oil separator proposed according to the present invention comprises on the one hand a vertical cylinder housing 1 (Fig. 1) with a lid, and on the other hand an inlet pipe socket 3 for polluted air. a diverter device 4 in the form of a cup with an upturned bottom, which cup from above surrounds the pipe socket 3, partly a filter sleeve 5 and partly a foam extinguisher 6 which is made in the form of a cone shield, which along its circumference is attached to the inside of the housing, so that its conceit is directed downwards.

The filter sleeve 5 is arranged in the upper part of the housing and consists of a set of, for example, four perforated cylinders 7, 8, 9 and 10.

The filter sleeve 5 is placed coaxially inside a nantel II. which has perforated side surfaces and a bottom 12, which in its central part is deflected downwards and thus forms a depression. which serves as a container A for collecting oil, which flows down along the surfaces of the cylinders. Between the cylinders 7-10 (Fig. 2) perforated cylinders 7-10 (Fig. 2) a synthetic fibrous material B used in known moisture and oil separators is placed.

Every other perforated cylinder (10 and 8) in the filter sleeve 5, counted from the outer, has a grooved or corrugated surface C (Fig. 3) with perforations on the tops 13 of the corrugations.

The outer cylinder 10 consists of metal and has a corrugated surface with perforating steel on the outer tops and is wound in a coagulating net 14 (Fig. 2). The next cylinder 9 is made of metal with a smooth perforated surface and wrapped in a synthetic fibrous material B. The cylinder 8 is identical to the cylinder 10 and is also wrapped in a set of synthetic fibrous materials B so that it prevents pressure drop and serves as a reinforcing cylinder. The last, inner cylinder 7 is identical to the cylinder 9 and is also wrapped in a synthetic fibrous material B. All cylinders 7, 8, 9 and 10 are provided with flanges 15 on their end surfaces facing the lid 2 (Fig. 1).

The flanges 15 are attached to an additional plate 16 arranged between the cover 2 and the jacket 11. The lower end surfaces of the perforated cylinders 7-10 are provided with flanges 17 (Fig. 4), which are attached to the bottom 12 of the jacket 11, while channels 18 are located in the flanges 17.

The diverter device 4 (Fig. 1) is arranged over the pipe socket 3 in such a way that it forms a gap with its side and end, respectively. 19.

The foam extinguisher 6 is arranged between the bottom 12 of the jacket 11 and the pipe socket 33 so that it (Fig. 1) separates the upper part of the pipe socket 3, the device 4 and the filter sleeve 5 from the oil collection zone in the lower part of the housing.

The cone shield of the foam extinguisher 6 comprises a heel 21 through which the pipe connection 3 extends and oil flows from the pipe connection 3 via the spaces 19 and 20.

In order to remove the liquid which accumulates in the container A at the bottom 12 of the jacket 11, the filter sleeve 5 encloses a pipeline 22.

Mounted on the cover 2 is a pipe socket 23, which communicates with the central cavity 24 of the filter sleeve 5 and which is intended for diverting purified air.

The moisture and oil separator works as follows.

The oil gas mixture of the polluted air is fed from the compressor machine through the pipe socket 3 into the housing 1, where it abuts the device 4, changes its direction and flows through the gap 20 and the hole 21 of the foam extinguisher 6 towards the lower part of the housing, where it hits the existing oil mirror. most of the oil being separated while the foam thus formed is extinguished by the walls of the foam extinguisher's art shield. The gas thus released flows around the bottom 12 of the jacket 11 and is led into an annular space 25 which is located between the jacket 11 and the housing 1 and is directed towards the filter sleeve 5 through the perforation of the jacket 11. As the purified air passes through the perforation of the jacket, it is divided into small streams - aerosols. as when they strike the coagulating net 14 of the cylinder 10 at a predetermined speed. forms droplets which are collected in the grooves of the corrugations of the cylinder 10 and run down along them to the lower part of the filter sleeve 5. By the action of the gas pressure, a part of the droplets passes through the perforations of the cylinder 10 to the cylinder 9, which is wrapped in the synthetic fibrous material B, where the oil particles are enlarged and run down. while the gas with the remaining oil and moisture droplets hits the synthetic fibrous material B of the cylinder 8. lower part of the filter sleeve 5. The remaining oil particles pass together with the gas through the perforations of the cylinder 8 and are deposited on the fibrous material B of the cylinder 7 while the purified air flows through the perforations of the cylinder 7 and into the pipe socket 23.

The oil accumulated in the lower part of the filter sleeve 5 flows through the channels 18 in the flanges 17 and into the container A. formed by the bottom 12 of the jacket 11, and is removed through the pipeline 22.

Oil. which is collected in the lower part of the housing 1, is removed through the pipe socket 26.

The construction of the filter sleeve described above provides an effective moisture and oil removal. In addition, this filter sleeve construction can be easily mounted on the lid of the moisture and oil separator by means of bolts and adjusting screws.

Claims (4)

10 15 20 25 30 35 456 404 Patent claims 1. Moisture and oil separator. comprising on the one hand a vertical cylinder housing (1) with a lid (2). inside the upper part of which a filter sleeve set is coaxially arranged in a jacket (ll) with perforated side surfaces and with a bottom (12). wherein the filter sleeve consists of a set of perforated cylinders (7-10) with a synthetic fibrous material (B) placed between them, partly an outlet pipe socket (23) for purified air arranged in the lid (2), partly a bottom (12) below the jacket (11) ) placed inlet pipe socket (3) for polluted air and a drainage device (4). characterized in that between the bottom (12) of the jacket (11) and the pipe socket (3) for the inlet of the polluted air is arranged a shell extinguisher (6) in the form of a conical shield with a hole for the passage of oil, the foam extinguisher being attached to the housing (1) and separates an oil collection zone from the upper part of the inlet pipe nozzle (3) and the discharge device (4), which is formed in the form of a cup with an upturned bottom. wherein the cup from above encloses the inlet pipe socket (3) at a space, and that every other of the perforated cylinders of the filter sleeve. calculated from the outer, has a corrugated surface (C) with the perforation made on the outer peaks (13) of the corrugation. Moisture and oil separator according to Claim 1, characterized in that the cylinder (10) located on the side of the jacket is arranged on the side of the jacket. Moisture and oil separator according to Claim 1 or 2, characterized in that the perforated cylinders have flanges on their end surfaces facing the lid (2). which are attached to the cover (2) over a disc (16). Moisture and oil separator according to one of Claims 1 to 3, characterized in that the lower end surfaces of the perforated cylinders are provided with flanges (17). which are attached to the bottom of the jacket and have channels (18). * U