RU2258159C2 - Pulsating valve-type submersible pump - Google Patents

Abstract

FIELD: chemical engineering.

SUBSTANCE: invention is designed for use in submersible pumps handling both liquids, suspensions and pulse of different density. Proposed pump contains housing, intake ball lift limiter, pulse line and pressure pipeline with discharge valve installed in zone servicing. Housing is divided by partition at least into two pulse chambers, each being furnished with intake ball valve, pulse line, pressure pipeline with discharge valve and separate air distributor with independed drive. Air distributors contain plungers connected with drive and to each other by means of equal-arm articulated lever installed on support. Pump is provided with programmable microcontroller to control operation of air distributor drives.

EFFECT: improved reliability of operation.

4 cl, 1 dwg

Description

The invention relates to the field of chemical engineering, in particular to submersible pumping units, and can find application in chemical, petrochemical and other industries when pumping not only liquids, but suspensions and pulps of various densities.

Advantageously, the invention can be used in the nuclear industry for pumping and removing liquid radioactive pulps from containers.

Known pulsating valve submersible pump containing a pulse line, a pulse chamber, inlet and outlet ball valves, a discharge pipe and a flexible pipe mounted on the inlet ball valve, the ball of which is floating in the liquid, while the pressure valve is mounted in the upper part of the discharge pipe located in the zone maintenance, and installed in the pulse conduit, which with the holes made in it and the bottom is placed in the housing (see RF patent No. 2137947, CL F 04 F 1/02, G 21 F 9/34, 1995).

The disadvantages of the above-known known pulsed valve submersible pump include the fact that the suspension displaced from the housing is constantly divided into two unregulated flows: into the discharge and flexible pipelines, which creates a risk of blockage of the pump discharge line, especially considering the pulsating mode of fluid movement in the pipeline.

The closest device of the same purpose to the claimed invention in terms of features is a pulsating valve submersible pump containing a housing, an inlet ball valve with a ball stop, a pulse line, an air distribution device and an exhaust ball valve mounted in the upper part of the discharge pipe and located in the service area ( see RF patent 2097605, class F 04 F 1/02, 1995).

The reasons that impede the achievement of the technical result indicated below when using the known device include the fact that when the vacuum is applied by the air distribution device, the pulse chamber is filled with working fluid, and the movement of the working fluid pumped through the pipeline stops at this moment, which can lead to blockage of the pipeline when removed from the capacity of rapidly settling suspensions and with its considerable length.

The aim of the invention is to ensure the smooth operation of the pump during transmission through pipelines of rapidly settling suspensions.

The technical result that can be obtained by carrying out the invention is to increase the reliability of the proposed pump.

The specified technical result is achieved in that in a pulsating valve submersible pump, comprising a housing, an inlet ball valve with a ball stop, a pulse line and a discharge pipe with an exhaust valve installed in the service area, a distinctive feature is that the housing is separated by a partition, at least , on two pulse chambers, each equipped with an inlet ball valve, a pulse conduit, a discharge pipe with an exhaust valve, and each pulse chamber contains its own th air distribution device communicating with an individual drive.

Given the special operating conditions, the pump, firstly, is characterized in that the air distribution devices contain plungers connected to each other and to the drive. The plungers are interconnected by means of an equal-arm articulated lever mounted on a support, and the actuator is equipped with a rod that informs the lever of the reciprocating movement.

In addition, the pump is equipped with a programmable microcontroller to control the drives of the air distribution devices.

In the study of the distinguishing features of the described pumps, no known similar solutions were found regarding their use or the implementation of the effective removal of working fluid from containers, in the absence of access to devices for maintenance and repair.

The analysis of the prior art by the applicant according to patent and scientific and technical sources of information made it possible to establish that an analogue characterized by features identical to all the essential features of the invention was not found by the applicant.

The determination of the prototype analogues identified as the closest analogous set of essential features made it possible to identify the combination of distinctive features that are perceived by the applicant as the technical result of the claimed device set forth in the claims, which, in the applicant's opinion, allows us to conclude that this invention meets the condition " novelty".

Dividing the pump casing into two or more pulse chambers and supplying each inlet ball valve, pulse conduit, discharge pipe with a non-return valve and an air distribution device allow the cameras to be applied in series, in which the working fluid from the pulse chambers continuously enters the pipeline, which increases the efficiency of the pump and increases the reliability of its operation when transferring rapidly settling suspensions through pipelines.

The installation of plunger air distribution devices on the proposed pump, the plungers of which are connected by an equal-arm articulated lever pivotally mounted on a support located between the plungers and attached to the actuator with reciprocating rod movement, allowed the plunger to move the plungers in opposite directions with one drive. In this case, rarefaction is applied to one of the pulse chambers and it is filled with a working fluid, and compressed air is supplied to another and the working fluid is forced out of it. This will eliminate the clogging of the pipeline when removing rapidly settling suspensions.

The supply of air distribution devices with individual actuators with a reciprocating rod movement and a control system consisting of a programmable microcontroller and communication modems allows not only sequential switching of cameras into operation when their number is more than two, but also ensuring the necessary duration of switching cameras on.

The plungers of the air distribution devices can also be equipped with individual drives with reciprocating rods, the sequential inclusion of which in operation with a given frequency is provided remotely by a control system containing a programmable microcontroller and communication modems.

The results of an additional search for known solutions for identifying features that match the distinguishing features of the claimed device showed that the claimed invention does not follow explicitly from the prior art for the specialist, since the effect of transformations provided for by the essential features of the claimed invention on the level determined by the applicant on achievement of a technical result.

Therefore, the applicant assumes that this invention meets the criterion of "inventive step".

The drawing shows a pulsed valve submersible pump in section, containing two chambers.

The proposed pump comprises a housing 1, divided by a partition 2 into pulse chambers 3 and 4, each of which contains inlet ball valves 5 and 6, pulse ducts 7 and 8, discharge pipelines 9 and 10 with check valves 11 and 12, plunger air distribution devices 13 and 14. The plungers 15 and 16 are connected by a pivoting equal-arm lever 17 mounted pivotally on the support 18. The support 18 is located in the middle between the plungers 15 and 16. The lever 17 is connected to the actuator 19 with a reciprocating rod. The discharge pipelines 9 and 10 are combined after the check valves 11 and 12 into a common discharge pipe 20. To the air distribution devices 13 and 14 are connected pipelines supplying compressed air and vacuum, respectively.

Individual plungers 19 and 14 can also be equipped with individual drives 19 with reciprocating rods, for example pneumatic cylinders or linear electric mechanisms controlled by a programmable microcontroller that sets the duration and sequence of shutdown of the drives.

Air distribution devices 13 and 14, actuator 19, non-return valves 11 and 12, pulse ducts 7 and 8, and discharge pipelines 9 and 10 are mounted on a common mounting flange 21 mounted on a passage flange 22 in the storage tank 23.

The proposed pump operates as follows.

When applying vacuum to the pulse chambers 3 and 4, they are filled with liquid through the inlet ball valves 5 and 6, due to the fact that their balls float under the action of the difference in hydrostatic pressure in the tank 23 and the pulse chambers 3, 4.

When pressure is applied to the pulse chambers 3 and 4, the inlet ball valves 5 and 6 are closed and liquid is displaced from the pulse chambers 3 and 4 into the discharge pipelines 9 and 10 and then through the check valves 11 and 12 to the common discharge pipe 20.

The sequence of switching on the pulse chambers 3 and 4 is ensured by the equal-arm pivot lever 17. When the actuator rod 19 moves down, it moves downward and the plunger 15 of the air distribution device 13, which in the lowermost position of the plunger 15 connects the pulsation chamber 3 to the rarefaction source. In this case, the pulse line 3 is filled with a working fluid. At the same time, the equal-arm hinge lever 17 is rotated on the support 18, moving the plunger 16 of the air distribution device 14 to its highest position, in which it connects the pulse chamber 4 to a source of compressed air. When this happens, the fluid is displaced from the pulse chamber 4 into the injection pulse conduit 10 and then through the check valve 12 into the common delivery pipe 20.

After the time specified for the actuator rod 19 to be in the lowermost position set on the programmable microcontroller, its rod moves upward, moving the plunger 15 to its highest position, and through the lever 17, the plunger 16 to its lowermost position. In this position, compressed air is supplied to the pulse chamber 3 and liquid is displaced from the pulse chamber 3 through the discharge pipe 9 and then through the check valve 11 to the common pipe 20, and rarefaction is supplied to the pulse chamber 4 and it is filled with liquid. Thus, the fluid is alternately displaced from the pulse chambers 3 and 4 into the common delivery pipe 20, into which the fluid is already continuously supplied.

To carry out the operation of the proposed pulsating valve submersible pump in this mode, it is necessary to ensure almost the same filling time and the duration of fluid displacement from the pulse chambers 3 and 4. This can be achieved due to the rarefaction and pressure of compressed air, throughputs of the intake valves 5 and 6 and discharge pipelines 9 and 10, as well as the diameter of the common delivery pipe 20.

When installing individual drives 19 on the plunger valves 13 and 14, the operation of the pulse chambers 3 and 4 is carried out in a similar way. In this case, each drive 19 is switched on by a programmable microcontroller in a predetermined sequence at predetermined time intervals, which makes it possible to execute the proposed pump not only with two, but also with a large number of pulse cameras.

At the same time, part of the working fluid can be diverted from the common discharge pipe 20 and returned to the tanks for mobilizing sludge by supplying the working fluid through remote controlled nozzles located in the same storage tank.

Thus, the above information indicates that when using the claimed invention, the following combination of conditions:

- a tool embodying the claimed invention in its implementation, is intended for use in industry, namely in nuclear energy, in terms of technology for processing and disposal of radioactive waste from containers;

- for the claimed invention in the form described in the independent clause of the claims, the possibility of its implementation using the means and methods described in the application is confirmed;

- a device embodying the invention, when implemented, is capable of achieving the achievement of the technical result perceived by the applicant.

This allows the applicant to claim that the claimed invention meets the criterion of "industrial applicability".

Claims (4)

1. A pulsation valve submersible pump comprising a housing, an inlet ball valve with a ball lift stopper, a pulse line, a discharge pipe with an exhaust valve located in the service area, and an air distribution device, characterized in that the pump housing includes at least two pulse chambers, each of which is equipped with an inlet ball valve, a pulse line, a discharge pipe with an exhaust valve and contains its own air distribution device in communication with a common or individual drive. 2. The pump according to claim 1, characterized in that the air distribution devices contain plungers interconnected by means of an equal-arm articulated lever mounted on a support communicating with the drive. 3. The pump according to claim 1, characterized in that the actuators are equipped with rods installed with the possibility of communication to the equal-arm articulated lever reciprocating motion. 4. The pump according to claim 1, characterized in that the actuators of the air distribution devices are connected to a programmable microcontroller.