RU2711889C1 - Duplicated electrically-driven pump unit - Google Patents

Abstract

FIELD: astronautics.SUBSTANCE: invention can be used in systems of thermal control of space engineering products. Duplicated electrically-driven pump unit comprises a housing with inlet and outlet nozzles and two centrifugal electrically-driven pumps installed in it. Output cavities of electric pumps are communicated with outlet union via two-way check valve. Valve is installed between the electric pump diffusers in the cylindrical cavity of the housing and looks like a plate fixed on the rod. Rod is located in central holes of the first and second seats. Outlets of diffusers are interconnected with cylindrical cavity of housing. Cylindrical cavity of housing is made blind and two-stage with different diameters of stages. Step of smaller diameter adjoins the bottom of blind cavity, and larger – is made on the side of open end. Outer diameters of seats are equal to diameter of larger step. First seat is installed with thrust against the end between steps. Between the seats with a thrust in their butt ends a remote bushing with slots for liquid passage into the outlet union is installed.EFFECT: invention is aimed at improvement of assemblability.1 cl, 2 dwg

Description

The invention relates to mechanical engineering and can be used in thermal control systems of aircraft and rocket technology, as well as in other fields of technology.

A duplicate electric pump unit (ENA) is known, comprising a housing with inlet and outlet fittings, in which two centrifugal electric pumps are installed, while the inlet cavities of the electric pumps are in communication with the inlet fitting, and the outlet cavities are in communication with the outlet fitting through a two-way check valve installed between the diffusers of the electric pumps ( M.V. Kraev, V.A. Lukin, B.V. Ovsyannikov, "Low-flow pumps of aviation and space systems", Moscow, "Engineering", 1985, p. 20, Fig. 1.12). The disadvantage of this ENA is low reliability, as well as low manufacturing accuracy due to a change in the position of the input and output fittings during welding of the fittings to the body.

The duplicated ENA, selected as a prototype, is deprived of these drawbacks, it contains a housing equipped with inlet and outlet fittings, two centrifugal electric pumps installed in the through bore of the housing from its opposite ends, the input cavities of which are connected to the input fitting, and the output cavities are connected to the output fitting via a two-way reverse a valve installed between the diffusers of the electric pumps in the cylindrical cavity of the casing, and having the form of a plate mounted on a rod located in the central holes of the first and second seats, fixedly installed in the cylindrical cavity of the body, and the outputs of the diffusers are in communication with the cylindrical cavity of the body (patent of the Russian Federation No. 22429401, IPC: F04D 13/14, 2007).

The disadvantage of this duplicated ENA is the low manufacturability of its assembly, since each of the saddles must be fixed in the cylindrical cavity of the body, after which two plugs should be installed on opposite sides of the cylindrical cavity and welded. Since the installation of saddles in a cylindrical cavity is a particularly critical operation (in case of incorrect installation, the performance of the two-way check valve is impaired), the scope of technical control is also significant - the installation of both saddles is checked.

The technical result achieved using the claimed invention is to increase the manufacturability of the assembly of a duplicated ENA.

Technically, 1 result is achieved due to the fact that in a known duplicated ENA containing a housing equipped with inlet and outlet fittings, two centrifugal electric pumps installed in the through bore of the housing from its opposite ends, the input cavities of which are in communication with the input fitting, and the output cavities communicate with the output with a fitting through a two-way check valve installed between the diffusers of the electric pumps in the cylindrical cavity of the casing, and having the form of a plate mounted on a rod located in the central openings the holes of the first and second saddles fixedly installed in the cylindrical cavity of the body, and the outputs of the diffusers are in communication with the cylindrical cavity of the body, according to the invention, the cylindrical cavity of the body is made blind and two-stage with diameters of steps D and d <D, a step with a diameter of d is adjacent to the bottom of the blind cavity, and a step of diameter D is made on the side of the open end of this cavity, the seats are made with an outer diameter equal to the diameter of the larger step, the first saddle is installed with an emphasis on the end between the steps, between the first and with saddles with an emphasis in their ends, a spacer sleeve with an outer diameter D and an inner diameter is installed

d _1> D _t + 2δ, where δ - maximum possible value of the radial displacement of the rod in the central openings of the seats coaxial cylindrical cavity position, a D _t - the outer diameter of a plate, and the spacer sleeve are made grooves for the passage of fluid in the outlet nozzle.

In FIG. 1 shows an example of a specific embodiment of a duplicated electric pump unit, a longitudinal section, in FIG. 2 - the same, cross section along aa.

Duplicate pump unit contains a housing 1, equipped with input 2 and output 3 fittings. Two centrifugal electric pumps 5 and 6 are installed in the through bore 4 of the housing 1 from its opposite ends. The inlet cavities 7 and 8 of the electric pumps are in communication with the inlet 2, and the outlet cavities 9 and 10 are in communication with the outlet nozzle 3 through a two-way check valve 11 installed between the diffusers 12 and 13 of the electric pumps in the cylindrical cavity 14 of the housing 1. The two-way check valve 11 has the form of a plate 15 mounted on a rod 16 located in the central holes of the first 17 and second 18 seats, fixedly mounted in a cylindrical 14 of the housing 14. The outputs 19 and 20 of the diffusers 12 and 13 respectively are in communication with the cylindrical cavity 14 of the housing 1. The cylindrical cavity 14 of the housing 1 is made blind and two-stage with the diameters of steps D and d <D, the step 21 with a diameter d is adjacent to the bottom 22 of the blind cavity 14, and a step 23 of diameter D is made from the side of the open end 24 of this cavity. The saddles 17 and 18 are made with an outer diameter equal to the diameter D of the larger step 23, the first saddle 17 is installed with an emphasis on the end face 25 between steps 21 and 23. Between the first 17 and second 18 saddles with a stop at their ends, a spacer sleeve 26 with an outer diameter is installed D and inner diameter

d ₁ > D _t + 2δ, where δ is the maximum possible radial displacement of the rod 16 in the central holes of the seats 17 and 18 from the coaxial cylindrical cavity 14 of the position, and D _t is the outer diameter of the plate 15. Grooves 27 are made for the passage on the distance sleeve 26 fluid into the outlet fitting 3. Technological openings of the housing 1, intended for supplying the cutting tool in the manufacture of diffusers 12 and 13, are plugged with plugs 28, and a plug 29 welded to the housing 1 is also installed in the cylindrical cavity 14 from the side of its open end 24 The seat 18 is fixed in axial position by means of a spring ring 30 mounted in a groove on the surface of the cylindrical cavity 14. Each of the electric pumps 5 and 6 contains an electric motor 31 with an impeller 32 mounted on its shaft, as well as a snail 33 fixedly mounted in the housing 1. Remote sleeve 26 is pressed into the housing 1 in a position in which one of its grooves 27 covers the opening of the outlet fitting 3.

ENA works as follows: when the electric motor 31 of the electric pump 5 is turned on, it rotates its impeller 32 in a clockwise direction in FIG. 2. The electric motor 31 of the electric pump 6 does not work. The fluid through the inlet 1, the inlet cavity 7 of the electric pump 5 enters the periphery of its impeller 32, then through the outlet cavity 9 in the cochlea 33 enters the conical diffuser 12, where the kinetic energy of the liquid is converted into static pressure energy, and then into the cylindrical cavity 14 in the zone of its stage 21 and in the outlet fitting 3, through the groove 27 of the distance sleeve 26. In this case, the plate 15 of the two-way check valve 11 under the influence of the static pressure of the liquid created by the electric pump 5 is pressed to the second at the saddle 18 (as shown in Fig. 1) and blocks the fluid flow through the currently inactive electric pump 6 into the inlet 1. When the power pump 5 fails or runs out of life, it is turned off and the electric pump 6 is turned on. The electric motor 31 of the electric pump 6 rotates its impeller 32 The fluid through the inlet 1, the inlet cavity 8 of the electric pump 6 enters the periphery of its impeller 32, then through the outlet cavity 10 in the cochlea 33 enters the conical diffuser 13, where the kinetic energy of the liquid is converted into energy static pressure, and then into the cylindrical cavity 14 in the zone of its stage 23 and into the outlet fitting 3, through the groove 27 of the remote sleeve 26. In this case, the plate 15 of the double-sided check valve 11 under the influence of the static pressure of the liquid created by the electric pump 6, will be pressed to the first seat 17 and will block the fluid flow through the currently inactive electric pump 5 into the inlet fitting 1. The constant position of the groove 27 relative to the opening of the outlet fitting 3 is provided by pressing the spacer 26 into the cylindrical strip 14. This is most simply accomplished in the process of thermal assembly — the housing 1 is heated and the distance sleeve 26 is cooled, as a result of which a gap is formed in the interface between the sleeve and the housing due to the thermal expansion of the body and the thermal compression of the distance sleeve. There are other possible ways of fixing the angular position of the groove 27 - for example, installing the latch in the form of a ball in the hole on the outer surface of the distance sleeve 26 and the groove on the inner surface of the cylindrical cavity 14, while the distance sleeve 26 is set on a sliding fit. The condition "d ₁ > D _t + 2δ" is necessary to ensure that the plate 15 does not touch the inner surface of the distance sleeve 26, since the rod 16 is usually planted in the holes of the seats 17 and 18 with a gap to ensure a clearance-free fit of the plate 15 to the seats 17 or 18 and the absence the possibility of jamming of the rod 16 in the holes of the seats 17 and 18. The value of δ is determined by the designer depending on the dimensions of the rod 16 and the holes of the seats 17 and 18, tolerances on these sizes and values of deviations of surface shapes by conventional design and calculation methods. The axial fixation of the saddle 18 by the spring ring 30 is also not the only way - it is possible to fix the saddle 18 due to its press fit - but with any method of fixing the saddle 18 it (fixing the saddle 18) unequivocally confirms the fixation of the saddle 17, which is pressed through the distance sleeve 26 to end 25 between steps 21 and 23.

As a result of using the invention, the manufacturability of its assembly is significantly increased, since instead of independently fixing two saddles in the prototype, it is enough to install the saddle 17 all the way to the end 25, install the distance sleeve 26 with emphasis on the saddle 17, install the stem 16 in the hole of the saddle 17 and install the saddle 18 s focusing on the remote sleeve 26, and then install the snap ring 30. Obviously, all these operations are performed without any measurements of the position of the parts, which simplifies assembly, and the final installation of the snap ring 30 sv indicates the correct installation of both saddle 17 and saddle 18. The scope of technical control is also reduced significantly - the installation of only saddle 18 is checked — if it is installed correctly, which is confirmed by the installation of the spring ring in the groove on the surface of the cylindrical cavity 14, then the saddle 17 is installed correctly - otherwise, the ring 30 would not go into the groove. Also, the amount of work when installing the plugs is halved — instead of the two plugs closing the non-return valve in the prototype — only one plug 29 is installed. This increase in the manufacturability of the assembly allows recommending the claimed design of a duplicated ENA for use in space technology products.

Claims (1)

A duplicated electric pump assembly comprising a housing provided with inlet and outlet fittings, two centrifugal electric pumps installed in the through bore of the housing from its opposite ends, the input cavities of which are in communication with the input fitting, and the output cavities are communicated with the output fitting through a two-way check valve installed between the diffusers of the electric pumps in the cylindrical cavity of the body and having the form of a plate mounted on a rod located in the Central holes of the first and second seats, motionless installed in the cylindrical cavity of the casing, and the outputs of the diffusers are in communication with the cylindrical cavity of the casing, characterized in that the cylindrical cavity of the casing is made blind and two-stage with diameters of steps D and d <D, a step with a diameter d is adjacent to the bottom of the blind cavity, and a step of diameter D is made with the sides of the open end of this cavity, the saddles are made with an outer diameter equal to the diameter of the larger step, the first saddle is installed with an emphasis on the end between the steps, between the first and second saddles with an emphasis in their ends installed and a spacer sleeve with an outer diameter D and an inner diameter d ₁ > D _t + 2δ, where δ is the value of the maximum possible radial displacement of the rod in the central holes of the seats from the coaxial cylindrical position cavity, and D _t is the outer diameter of the plate, and on the spacer sleeve grooves for the passage of fluid into the outlet fitting.

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