RU2640894C1 - Centrifugal blower - Google Patents

Abstract

FIELD: machine engineering.

SUBSTANCE: centrifugal blower contains a body, made in the form of a cylinder, the ends of which are closed by front and rear sealing lids fixed from movement, between which a changeable flow part is installed. The front lid is executed with an axial suction nozzle, and the rare lid is mounted between the impeller and the carrying block of the blower made in the form of a journal bearing and a thrust and radial bearing and is connected to them. The flow part includes an impeller, installed in cantilever on the rotor shaft, at the other end of which a drive coupling is installed, as well as a radial diffuser channel and the output cavity formed by the inner surface of the front lid, a removable scroll and a removable spacer ring. The change of the flow part of the aerodynamic stage is organized towards the drive coupling half.

EFFECT: invention makes it possible to repair or completely replace the flow part of the centrifugal blower without the need to disassemble the main pipeline to arrange access to the replaceable flow part while ensuring a high polytrophic efficiency of the blower.

3 dwg

Description

The present invention relates to the field of compressor engineering and can be used in the manufacture of centrifugal blowers with a cantilever mounted impeller and axial gas supply.

Known centrifugal blower type 370-18-2 design of the Nevsky Engineering Plant. Lenin, St. Petersburg, comprising a housing with an end connector closed by a cover, a flowing part of the supercharger located in the housing, including an impeller cantilever mounted on the shaft. This supercharger is made with radial gas inlet and outlet, so that it has free access to the flow part for its repair and (or) complete replacement (Ivanovsky NN, Krivorotko VN “Centrifugal superchargers of natural gas.” - M. : Nedra, 1994, p. 107, 108).

At the same time, in this supercharger, the radial arrangement of the suction pipe helps to reduce its polytropic efficiency due to gas-dynamic losses that occur when the working gas passes through this pipe.

Also known is a centrifugal supercharger type 280-12 design of the Nevsky Engineering Plant. Lenin, St. Petersburg, having an axial inlet and a tangential gas outlet, containing a cylindrical body, an end cap with an axial suction pipe, a flowing part placed in the housing, including an impeller, cantilever mounted on the rotor shaft, at the other end of which there is a drive coupling (Bramin SF and others. “Compressor stations with a gas turbine drive.” - M .: Nedra, 1968, p. 23, 24).

The disadvantages of this design are the lack of the possibility of full or partial replacement of the flow part, as well as the complexity of the repair work due to the need to dismantle the gas main pipeline to provide access to the nodes of the flow part of the supercharger with the subsequent laborious process of connecting and crimping the main pipeline.

The task to which the proposed technical solution is directed is the possibility of repairing or completely replacing the flow part of the centrifugal supercharger without the need to dismantle the main pipeline to provide access to the replaceable flow part while ensuring high polytropic efficiency of the supercharger.

The technical result is achieved in that a centrifugal supercharger comprising a housing, a front end cover with an axial suction nozzle, a rotor shaft installed in the support and thrust bearings of the supercharger carrier unit, a flow part located in the housing, including an impeller, cantilever mounted on the rotor shaft , at the other end of which a drive clutch is installed, characterized in that the housing is made in the form of a hollow cylinder, while the supercharger is equipped with a rear sealing cover installed between the impeller and the supercharger bearing block and connected with them, covering the cylinder ends together with the front cover, the flow part also includes a radial diffuser channel and an outlet cavity formed by the inner surface of the front cover, a removable scroll, and a removable ring spacer.

The presence of a rear sealing cover installed between the impeller and the supercharger bearing unit and connected with them, closing together the ends of the cylindrical case of the supercharger together with the front cover, allows access to the flow part from the drive coupling side by removing the entire supercharger rotor from the housing together with the back cover. This design eliminates the need to dismantle the gas main pipeline to provide access to the nodes of the flow part of the supercharger, thereby allowing the use of a design with an axial inlet pipe, which ensures high polytropic efficiency of the supercharger.

The implementation of the elements forming together with the inner surface of the front cover the flow part (diffuser channel and the outlet cavity of the supercharger) in the form of a cochlea and an annular spacer, each of which is made by a separate removable element, allows for the complete or partial replacement of the flow part of the supercharger, as well as repair of these structural elements.

The invention is illustrated graphically, where in FIG. 1 shows the proposed supercharger in section; in FIG. 2 shows view A; in FIG. 3 shows a dismantling diagram of a replaceable flow part.

The centrifugal supercharger comprises a cylindrical housing 1 mounted on a support frame 2, inside of which is the flow part of the supercharger, consisting of inlet and outlet cavities 3 and 4, a radial diffuser channel 5 (diffuser), formed by two counter walls of the cochlea 6 and an annular spacer 7, the working a wheel 8, cantilevered and fixed by a cowl nut 9 at the end of the rotor shaft 10 entering the flowing part, and a drive coupling 11 mounted on the opposite end of the shaft 10. The shaft 10 is mounted present with a reference block 12 and support ball bearings. The cylindrical housing 1 from two ends is closed by a sealing front and rear covers 13 and 14. The rear cover 14 is located on the side of the drive coupling half 11 between the impeller 8 and the bearing block 10 and connected to them. The front cover 13 has a suction pipe 15. The supercharger also has a radially directed discharge pipe 16 (see Fig. 2) on the outer wall of the housing 1.

The proposed device operates as follows.

The working medium (gas) enters through the suction pipe 15 (Fig. 1) and the inlet cavity 3 into a replaceable flowing part, in which gas is compressed with its subsequent collection through the diffuser channel 5 into the outlet cavity 4 and feeding it through the discharge pipe 16 to the consumer with the given parameters (productivity, pressure).

For access to a unified replaceable flow part for repair or complete replacement — installation of a new replaceable flow part from a number of replaceable flow parts providing new parameters (capacity, pressure) of the injected gas, the gas main pipeline is not required to be dismantled, as well as the suction pipe undocking 15 from the sealing end cap 13, which is mounted on the housing 1 connected to the support frame 2. Disassembly of the supercharger begins on the side of the drive clutch (see Fig. 3). The sealing back cover 14 is disconnected from the supercharger body 1, freeing it from the fastening elements with it (retaining rings 17, brackets 18), and first the rotor with the impeller 8, and then the ring spacers 7 and the scroll 6 are pulled out of the body 1 in the direction of the arrow.

In the proposed device, the output cavity 4, the diffuser 5, the scroll 6, the annular spacers 7 and the impeller 8 form a replaceable flow part from a number of replaceable flow parts with constant dimensions, the seats of which with the mating parts of the supercharger remain unchanged (with landing belts 19 of the housing 1 , sealed end caps 13, 14 and the seating surface of the rotor shaft 10). Thus, at the place of operation, in the conditions of the compressor workshop or individual shelter, only the operations of dismantling from the housing or mounting into the housing of the fully assembled and adjusted replaceable flow part are performed, which ensures an increase in the quality of assembly and regulation and, therefore, reliability, since the assembly and regulation of a unified interchangeable flow parts are produced in a specially equipped room.

Claims (1)

A centrifugal supercharger comprising a housing, a front sealing cover with an axial suction nozzle, a rotor shaft mounted in a support and thrust bearings forming a supercharger bearing unit, and a flow part located in the housing, including an impeller, cantilever mounted on the rotor shaft, on the other the end of which has a drive clutch, characterized in that the housing is made in the form of a hollow cylinder, while the supercharger is equipped with a rear sealing cover installed between the impeller and they blower unit and connected with them, together with a closing lid front ends of the cylinder, wherein the flow portion includes a radial diffuser passage and a downstream cavity formed by the inner surface of the front cover, and a detachable volute removable ring spacer.

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