RU2767093C1 - Air cleaning device air intake unit housing - Google Patents

Abstract

FIELD: gas cleaning devices.

SUBSTANCE: invention relates to gas cleaning devices and can be used in cleaning atmospheric air supplied to the inlet of stationary gas turbine plants. Air cleaning device air intake unit housing contains on one of walls holes for installation of cyclone filters, note here that air intake casing is cast in the form of one-piece non-detachable plastic part including at least one tubular web connecting the wall with holes for installation of cyclone filters with the opposite wall. Air intake casing is made open at one end.

EFFECT: higher efficiency and longer life.

1 cl, 2 dwg

Description

The body of the air intake unit of the air-cleaning device belongs to gas-cleaning devices and can be used in the purification of atmospheric air supplied to the inlet of stationary gas turbine plants.

To date, as part of a gas turbine plant, air-cleaning devices for purifying cycle air are known and widely used, which include air intake blocks.

Thus, "AIR INTAKE FOR GAS TURBINE PLANT" is known according to the RF patent for the invention 2280772 dated 06/28/2005, published 07/27/2006. Known air intake contains located under the protective cap bearing housing with tiers of block modules of cyclone filters, which include blocks of the air intake.

The closest in technical essence is the body of the air intake unit of the air-cleaning device described in the RF patent for the invention "BATTLE CYCLONE" No. 2210436 dated February 18, 2002, published on August 20, 2003, IPC B04C5 / 20, containing air intake chambers arranged in tiers with cyclone elements, exhaust manifolds clean gas, dust collectors tiers.

The cases of the air intake blocks in the known solutions of air-cleaning devices are made mainly of metal elements interconnected by means of welded joints. The need to assemble the air intake blocks increases labor costs in the manufacture and installation of air cleaning devices. The presence of connecting joints allows leaks in the air intake blocks, which can adversely affect the quality of the entire air cleaning device. The presence of slots and holes in the joints between the connected elements of the block can lead to the ingress of dust from the atmosphere into the clean gas exhaust manifold. Operation of air-cleaning devices for gas compressor units is carried out in the field. All metal elements of the air cleaning device are subject to atmospheric corrosion, which reduces the life of the equipment and leads to the need for constant monitoring of the condition of the structural elements. Air intake blocks made of metal are less technologically advanced, heavier and more expensive than, for example, blocks made of plastic.

In the air intake unit, cyclone filters are installed in an array. The intake of atmospheric air from the external environment by the air intake unit is carried out along the perimeter of the array of cyclone filters, which leads to an uneven distribution of the incoming air between the filters. Such an uneven distribution of the volume of filtered air reduces the participation of a part of the cyclone filters in air preparation and, as a result, reduces the performance of the unit as a whole.

The objective of the proposed technical solution is to create a body of the air intake unit of the air cleaning device, which provides high performance of the air intake module, which has sufficient rigidity, high tightness and increased service life.

The problem is solved due to the body of the air intake unit of the air-cleaning device, which contains holes on one of the walls for installing cyclone filters, while the air intake body is made by casting in the form of a one-piece integral part made of plastic, containing at least one tubular jumper connecting the wall with holes for installation of cyclone filters with an opposite wall, while the air intake housing is made open from one of the ends.

The essence of the technical solution is illustrated in the drawing, where in Fig.1 - the body of the air intake unit of the air cleaning device, Fig. 2 - air intake module.

In FIG. 1 and FIG. 2 shows: housing 1 of the air intake unit of the air cleaning device, wall 2, wall 3, holes 4 for installing cyclone filters, tubular jumper 5, protrusion 6, stiffeners 7, groove 8, air intake module 9, cyclone filter 10, cuff 11, cover 12 , frame 13, dust collector unit 14.

The housing of the air intake unit of the air cleaning device is made as follows.

The body 1 of the air intake unit of the air-cleaning device is made in the form of a hollow, one-piece, one-piece plastic part by casting, with subsequent machining of the cast part. The body 1 made of plastic is less rigid than the body 1 made of metal. To ensure the necessary rigidity of the body 1, it has at least one bridge 5. The bridge 5 is made in the form of a hollow tubular column. The tubular jumper 5 ensures the rigidity of the structure of the housing 1, preventing mutual oscillations of the opposite walls 2 and 3 during the operation of the air cleaning device. The rigidity of the structure of the housing 1 makes it possible to ensure the invariance of the physical volume of the air intake unit, thus ensuring the stability of the air cleaning device. In addition, the implementation of the jumper 5 in the form of a hollow column increases the total cross-sectional area available for air intake. A large air intake area makes it possible to increase the volume of air supplied to the inlets of the cyclone filters 10, including those located in the central part of the array, which increases the performance of both the air intake unit and the air cleaning device as a whole. The wall 2 of the housing 1 contains holes 4 for installing cyclone filters 10. The housing 1 of the air intake unit is made open at one end. The open end of the housing 1 is optionally provided with a protrusion 6 designed for ease of installation and fixation of external devices, for example, cuff 11 for connecting the plastic housing 1 of the air intake with the inlet in the air duct of the gas compressor unit. Optionally, the housing 1 may contain stiffening ribs 7 located on the walls connecting the walls 2 and 3. The air intake housing 1 contains transverse grooves 8 on the walls 2 and 3, designed to fasten the device to the frame 13 of the air intake module 9 of the air cleaning device by means of elastic belts or clamps.

The air intake unit housing of the air cleaning device is used as follows.

Cases 1 of the air intake blocks of the air cleaning device are mounted on the frame 13 of the air intake module 9 by means of elastic belts or clamps, using transverse grooves 8 for this. The body 1 is mounted on the frame 13 in such a way that its wall 2 with the holes 4 is oriented downwards, while the holes 4 are aligned with the reciprocal holes in the block 14 of the dust collector. The housing 1 and the block 14 of the dust collector are connected to each other by means of cyclone filters 10, installing them in the holes 4 located in the walls 2. The air intake modules 9 are installed inside the housing of the air cleaning device. On the open ends of the housings 1, a cuff 11 is installed and fixed, designed to connect the housings 1 of the air intake blocks with the intake openings in the air duct of the gas compressor unit. After cuff 11 is connected to the inlet in the air duct, the body 1 of the air intake unit is ready for operation, as part of the air intake module 9. When the pressure in the air duct of the air cleaning device decreases relative to atmospheric, the uncleaned atmospheric air begins to flow into the inlets of the cyclone filters 10. air, both along the perimeter of the array of cyclone filters 10, and through the tubular jumper 5. After passing through the cyclone filters 10, dust and other contaminants contained in the air fall into the housing of the dust collector block 14, and the purified air enters the upper housing 1 and, through the cuff 11, installed on its open end, into the air duct of the air cleaning device.

The execution of the body 1 of the air intake unit of the air-cleaning device by casting in the form of a hollow, one-piece, one-piece part ensures high tightness of the device, due to the absence of connecting joints. The execution of the body 1 of plastic significantly increases the manufacturability of the device, reduces its metal consumption and, as a consequence, its weight. Plastic is not subject to atmospheric corrosion, which significantly increases the life of the device. The presence in the body 1 of the jumper 5 provides the plastic body with the necessary rigidity and, as a result, the constancy of the volume. The execution of the jumper 5 tubular in the form of a hollow column, provides the possibility of increasing the mass of air supplied to the entire array of cyclone filters 10. Uniform distribution of the volume of filtered air between the individual cyclone filters 10 increases the performance of the air cleaning device as a whole.

The technical result of the claimed technical solution is to increase the performance of the air intake unit and increase its service life. The technical result is achieved due to the housing of the air intake unit of the air-cleaning device, containing holes on one of the walls for installing cyclone filters, while the air intake housing is molded in the form of a one-piece integral part made of plastic, containing at least one tubular jumper connecting the wall with holes for installation of cyclone filters with an opposite wall, while the air intake housing is made open from one of the ends.

Claims (2)

1. The body of the air intake unit of the air-cleaning device, containing holes on one of the walls for installing cyclone filters, characterized in that it is made in the form of a one-piece one-piece plastic part containing at least one tubular jumper connecting the wall with holes for installing cyclone filters with the opposite wall. 2. The housing according to claim 1, characterized in that it is made open from one of the ends.

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