RU42597U1 - PORTABLE TURBO PUMP - Google Patents

Abstract

The utility model relates to pumping units with pneumatic drive and can be used for pumping slightly aggressive liquids, primarily neutral water, from flooded wells, when digging ditches, deep ditches. The technical result achieved is to improve the ease of use and increase the reliability of the portable turbopump, including a prefabricated housing and inside it an integrated prefabricated rotor shaft. For liquid, a vane pump wheel located in the lower part of the housing and mounted on the shank of the rotor glass, with a bell protecting the blades of the pump wheel from solid dirt particles in the liquid from below, with a central hole for the passage of liquid from the suction cavity to the pump wheel. For air, an aluminum turbine wheel located in the upper part of the casing with a concentrically located fixed annular protective insert in case of emergency separation of the blades from the turbine wheel. A safety valve between the air pipe and the cavity of the structural element that directs air to the blades of the turbine wheel, a spring-loaded stem resting on the seat is located inside the valve, the stem end is connected to the control handle, on the other hand a diaphragm is connected to the valve stem, the diaphragm chamber is connected by a hose to the pressure pipe connected to the cavity of the spiral drainage of fluid from the blades of the pump wheel. The carrying device is made in the form of two brackets along the edges of the housing cover, the pump wheel is made of wear-resistant version made of chrome cast iron, the ring guard and, in addition, the antifriction insert around the aluminum turbine wheel are made of cast iron, the bell and the guide structural element are made of heat-resistant version made of aluminum material.

Description

The utility model relates to pumping units with pneumatic drive and can be used for pumping slightly aggressive liquids, primarily neutral water, from flooded wells, when digging ditches, deep ditches.

State of the art

Known turbopump, including a prefabricated housing and inside it an integrated prefabricated rotor shaft; prefabricated housing, consisting of the aluminum housing itself, an aluminum cover with a carrying device, an aluminum bottom forming a suction cavity with the bottom of the housing and a filter mesh; prefabricated rotor shaft, consisting of a steel rotor cup for attaching and rotating the pump and turbine wheels, rolling bearings, a steel central axis fixed motionless in the cover; for liquid, a vane pump wheel located in the lower part of the housing and mounted on the shank of the rotor glass, with a bell protecting the blades of the pump wheel from solid dirt particles in the liquid from below, with a central hole for the passage of liquid from the suction cavity to the pump wheel; for air, an aluminum turbine wheel located in the upper part of the casing with a concentric fixed stationary annular protective insert in case of emergency separation of the blades from the turbine wheel; a safety valve between the air pipe and the cavity of the structural element directing the air to the turbine wheel blades, a spring-loaded stem resting on the seat is placed inside the valve, one end of the stem is connected to the control handle, on the other hand a diaphragm is connected to the valve stem, the diaphragm chamber is connected by a hose to the pressure head a nozzle connected to the cavity of the spiral fluid outlet from the pump wheel blades.

Turbo pump H2. Technical description and operating instructions H2.00.000 TO, 1991 Catalog of pumps 2000-2003 OAO Yasnogorsk Machine-Building Plant, 2001, P.50 /.

Limitations of the ease of operation and reliability of this turbopump are caused by the non-optimality of a number of its design solutions, in particular:

- the inconvenience of carrying a fairly heavy pump with one central handle-bracket for both one and two people;

- insufficient wear resistance of the blades of a heavily loaded aluminum pump wheel from the impact of solid particles in the pumped liquid;

- the presence of a number of plastic parts that limit the temperature range of the pumped liquid to only 60 ° C;

- a steel protective insert around the turbine wheel, forming with the cast aluminum blades of the turbine wheel a possible jamming friction pair "steel - aluminum";

The objective of the proposed utility model is to remove these restrictions.

Utility Model Disclosure

The technical result achieved is to improve the ease of use and increase the reliability of the portable turbopump, including a prefabricated housing and inside it an integrated prefabricated rotor shaft. The prefabricated housing consists of the aluminum housing itself, an aluminum cover with a carrying device, an aluminum bottom forming a suction cavity with the bottom of the housing and a filter mesh. The prefabricated rotor shaft consists of a steel rotor cup for attaching and rotating the pump and turbine wheels, rolling bearings, a steel central axis fixed motionless in the cover. For liquid, a vane pump wheel located in the lower part of the housing and mounted on the shank of the rotor glass, with a bell protecting the blades of the pump wheel from solid dirt particles in the liquid from below, with a central hole for the passage of liquid from the suction cavity to the pump wheel. For air, an aluminum turbine wheel located in the upper part of the casing with a concentrically located fixed annular protective insert in case of emergency separation of the blades from the turbine wheel. A safety valve between the air pipe and the cavity of the structural element that directs air to the blades of the turbine wheel, a spring-loaded stem resting on the seat is located inside the valve, the stem end is connected to the control handle, on the other hand a diaphragm is connected to the valve stem, the diaphragm chamber is connected by a hose to the pressure pipe connected to the cavity of the spiral drainage of fluid from the blades of the pump wheel.

In addition to all this, the carrying device is made in the form of two brackets along the edges of the housing cover, the pump wheel is made of wear-resistant chrome cast iron, the protective ring and, in addition, the antifriction insert around the aluminum turbine wheel are made of cast iron, the bell and air-guiding structural element are made in heat-resistant design made of aluminum material.

Due to new features, it is much more convenient for two to carry a turbopump weighing from 30 to 40 kg, the permissible maximum temperature of the pumped liquid is increased from 60 ° C to 90 ° C, the likelihood of frictional jamming of the turbine wheel blades against the protective ring insert is reduced with a possible increase in eccentricity between

them during the long-term operation of the turbopump, significantly increased the service life of the pump impeller of wear-resistant chrome cast iron.

Otherwise, the main nominal parameters of the turbopump operation are kept unchanged, namely: flow up to 25 m ³ / h; head up to 40 m; working air pressure 0.45 ... 0.5 MPa; air consumption not more than 7 m ³ / min, the solids content in the pumped liquid is not more than 0.2% by weight and size up to 2.0 mm.

The figure shows an approximate lateral axial section of a turbopump.

Utility Model Implementation

The main components of the turbopump are the prefabricated housing; prefabricated rotor shaft; impeller pump wheel for liquid; turbine wheel for air; safety valve for wheels.

The positions in the figure indicate the following elements in the composition of the main nodes:

- in the prefabricated case: 1 - the actual aluminum case; 2 - aluminum cover with brackets 3; 4 - aluminum bottom; 5 - filter mesh at the entrance to the suction cavity; 6 - drainage windows in the housing for draining excess fluid from the space between the housing and the rotor glass;

- in a prefabricated rotor shaft: 7 - a steel cup of the rotor for mounting and rotation of the wheels; 8 - fixed steel axis; 9 - rolling bearings (radial single row);

- 10 - impeller pump wheel made of chrome cast iron; 11 - aluminum bell protects the blades of the pump wheel from dirt in the liquid and with a Central hole for the passage of fluid from the suction cavity to the blades of the pump wheel;

- 12 - aluminum turbine wheel; 13 - cast iron protective ring insert in case of emergency separation of the blades from the turbine wheel;

- 14 - safety valve (internal valve elements are not shown in the figure); 15 - valve control handle;

- 16 - the cavity of the liquid absorption; 17 - the cavity of the spiral fluid drain from the blades of the pump wheel into the aluminum pressure (pump) nozzle 18, 19 - the high-pressure hose (from reinforced rubber) for supplying a portion of the pumped liquid taken from the pressure nozzle to the diaphragm of the safety valve, 20 - the air inlet pipe of the air in valve, 21 — nozzle for withdrawing air from the valve into the cavity of the aluminum structural element 22, designed to effectively direct air to the blades of the turbine wheel.

Auxiliary elements in the form of fasteners, anti-friction elements, shims, seals in the figure are not indicated by positions. A clamp for attaching to the discharge pipe of the external outlet hose is not shown.

Preparing for work. Blow compressed air through the air hose to clean it of dirt. Connect the pressure and air supply hoses to the corresponding pipes 18 and 20. Lower the turbo pump into the pumped liquid so that the filter screen 5 of the suction cavity 16 is completely submerged. With a significant depth of the reservoir, immerse the turbopump in the fluid to the drainage holes 6 of housing 1. It is more convenient to carry and install the turbopump at the place of work together, holding on to the brackets 3 on the cover 2 of the housing 1.

The device operates as follows.

The turbopump is driven by the energy of compressed air with a pressure of 0.45 ... 0.5 MPa. The turbo pump is turned on by turning on an external air compressor to supply air to the air pipe 20, then open the safety valve 14 with the control handle 15, holding it until the rotor speed creates enough pressure in the pressure pipe 18 and in the diaphragm chamber of the valve 14 valve 14 in the open state. The estimated number of revolutions of the rotor with wheels is approximately 15,000 revolutions / min.

The turbopump is stopped manually by the handle 15 by closing the air channel of the valve 14, or by automatically exposing the filter mesh 5 of the suction cavity 16 and relieving the pressure in the chamber of the diaphragm 14. Automatically shut off the turbopump when exposing the filter mesh 5 in no more than 2 seconds.

To start the turbopump, the valve 15 opens and the air enters through the nozzle 21 and the cavity of the guide structural member 22 onto the blades of the turbine wheel 12. Air from the valve 14 enters the blades of the turbine wheel 12 and rotates it, while simultaneously being reflected, goes into the guide cavity (chamber) element 22 of the air reversal and reflected back from the walls of the cavity again falls onto the turbine blades and then finally leaves the exhaust window (not shown in the figure). The exhaust air exhaust from the turbine wheel 12 is made through a channel in the upper part of the pump casing 1, where an exhaust pipe (not shown) is installed, which serves to change the direction of the exhaust.

At the bottom of the working impeller pump (pressure) wheel 10, the cavity 17 of the spiral fluid drain from the blades of the pump wheel 10 to the aluminum pressure (pump) pipe 18 and partially to the hose 19 leading to the diaphragm of the safety valve 14. The diaphragm chamber is connected to the pressure pipe 18 by a hose 19 leading water from the discharge pipe 18 to the diaphragm of the valve 14 to keep the latter open. If the pump pumps out water or the mesh 5 of the suction cavity 16 is exposed for other reasons, the pressure in the discharge pipe 18, and

consequently, in the diaphragm chamber it will fall, the valve 14 will block the air access to the nozzle 21 and the turbo pump will automatically shut off.

Maintenance of the turbopump consists in regularly cleaning and flushing the pump from dirt. If the pumped liquid is very dirty, it is recommended to close the filter screen 5 of the suction cavity 16 of the pump with a fine metal screen and periodically clean it.

The pump should be cleaned as needed, for which it is necessary: to disconnect the filter screen 5, remove the bottom 4 and the socket 11; remove the impeller pump 10, disconnect the cover 2 from the housing 1 and remove it together with the axis 8 and the glass of the rotor 7; unscrew the axle nut 8 on the cover 2 and remove the rotor; remove the cover from the valve body 14, check the condition of the diaphragm and o-rings; flush housing 1, cover 2, filter screen 5 and rotor assembly. The pump is assembled in the reverse order. If the bolts fastening the cover 2 to the housing 1 are loosened, the rotor can skew and the turbine pump will not function normally.

Claims (1)

Portable turbine pump, comprising a prefabricated housing and inside it an integrated prefabricated rotor shaft; prefabricated housing, consisting of the aluminum housing itself, an aluminum cover with a carrying device, an aluminum bottom forming a suction cavity with the bottom of the housing and a filter mesh; prefabricated rotor shaft, consisting of a steel rotor cup for attaching and rotating the pump and turbine wheels, rolling bearings, a steel central axis fixed motionless in the cover; for liquid, a vane pump wheel located in the lower part of the housing and mounted on the shank of the rotor glass, with a bell protecting the blades of the pump wheel from solid dirt particles in the liquid from below, with a central hole for the passage of liquid from the suction cavity to the pump wheel; for air, an aluminum turbine wheel located in the upper part of the casing with a concentrically located fixed annular protective insert in case of emergency separation of the blades from the turbine wheel; a safety valve between the air pipe and the cavity of the structural element directing air to the turbine wheel blades, a spring-loaded stem resting on the seat is placed inside the valve, one end of the stem is connected to the control handle, on the other hand a diaphragm is connected to the valve stem, the diaphragm chamber is connected by a hose to the pressure head a nozzle connected to the cavity of the spiral fluid drain from the blades of the pump wheel, the device for carrying is made in the form of two brackets along the edges of the housing cover, the pump wheel is made of wear-resistant cast iron, the ring guard and, in addition, the anti-friction insert around the aluminum turbine wheel is made of cast iron, the bell and air-directing structural element are made of heat-resistant aluminum alloy.