RU48384U1 - LOCKING AND CONTROLLING DEVICE - Google Patents

Abstract

The utility model relates to agriculture, namely, the field of agricultural water supply, and can be used in the pressure line of a submersible pump and in stationary and collapsible irrigation pipelines. The purpose of the utility model is to simplify the design, reduce weight and expand the scope. The locking and regulating device consists of a housing, a locking member, an adjustable throttle diaphragm drive and a handwheel. The effectiveness of the device is achieved by reducing weight, simplicity of design and expanding the scope. The use and installation of a shut-off and control device in pressure lines of various pipelines provides elimination of water hammer, there is no sanding process when starting and stopping the pump station due to automatic smooth regulation of opening or closing it.

Description

The utility model relates to agriculture, namely to the field of agricultural water supply, and can be used in the pressure line of a submersible pump and in stationary and collapsible irrigation pipelines that serve to supply water from pumping stations.

Known locking device that is installed on the pressure line of the pumping station. The device consists of a housing with nozzles, in which are located: a stepped saddle, a locking body, the drive of which is made in the form of a movable conical fairing, with its apex facing the flow, as well as cuffs, chambers and an additional bypass pipe with a valve [1].

The disadvantages of this locking device are its complexity, difficulty in maintenance.

Known check valve with adjustable closure, which is intended for installation at pumping stations and pressure pipelines of the irrigation network. The valve consists of a housing with a cover, a hydraulic cylinder, levers, a disk and a tank (tank) of oil [2, 3].

The disadvantages of the valve is that it has a large mass and is equipped with a hydraulic cylinder with a capacity that runs on oil, which does not exclude its entry into the reservoir.

A common disadvantage of the shut-off device and the check valve is that they cannot protect the submersible pump from abrasion when sanding the well and, therefore, significantly reduces the service life of the pumps and their application.

The purpose of the utility model is to simplify the design, reduce weight, and expand the scope due to the implementation of a smooth hydraulic mode in the pipelines when starting and stopping the pump, which eliminates the ingress of sand into the pump and the occurrence of destructive water hammer.

This goal is achieved by the fact that the casing of the device and the shut-off element are made of standard thin-walled pipes, the axis of the shut-off element is located at an angle of 30-70 ° to the axis of the device, and the actuator stem of the shut-off element is connected to the membrane and the plate with guides, and an adjustable choke connects the tubes cavity of the outlet pipe with the upper cavity of the membrane actuator in which the spring is installed.

In Fig.1 shows the proposed locking and regulating device, in Fig.2 - section bb.

The device consists of a housing 1 with input A and input B pipes with flanges 2, a locking member 3, a membrane actuator 4, an adjustable throttle 5 and a manual backup 6.

The locking body 3 includes a movable rod 10 with a plate 7 fixed thereon, a rubber seal 8 and guides 9, which are rigidly connected to the plate 7.

The diaphragm actuator 4 consists of an upper cover 11, a membrane 12 mounted between two washers 13, a spring 14 and a centering pin 15.

An adjustable throttle 5 is installed on the outlet pipe B and consists of a tee 16, a threaded needle 17, a retainer 18 and a tube 19. The throttle is adjusted for the desired opening or closing time of the plate 7 by the position of the needle 17, which regulates the bore in the tee 16. The final position the needle 17 is fixed by a latch 18.

The handwheel 6 is attached to the flange of the membrane actuator and has a flange with thread 20 and screw 21.

The locking and regulating device operates as follows. The device installed in the pressure line of the pipeline after the pump on the flanges 2 is inoperatively in the “Closed” position. When you turn on the pump, water under pressure enters the inlet pipe A of the housing 1 and acts on the plate 7, which slowly opens. The plate 7 through the rod 10, the membrane 12, the washer 13 is kept from opening quickly by the spring 14 and water in the membrane actuator 4. As the pressure increases, the plate 7 rises using the guides 9 and the centering pin 15, the spring 14 is removed, and the water through the tube 19 extruded through a tee 16 of the inductor 5 into the outlet pipe B and further into the pipeline. There is a complete opening of the locking element 3 and the supply of water to the consumer. The stroke and opening of the plate is limited by the top cover 11. The opening time, before installing the device, is adjusted by a needle 17, the position of which is fixed by a latch 18.

When you turn off the pump and reduce the pressure in the pipeline, the shut-off element 3 under the action of the spring 14 and the pressure of the water coming from the pipeline through the throttle 5, the tube 19 into the membrane actuator 4, slowly closes. Subsequently, when the pump is turned on or off, the cycles are repeated. For forced closure, a manual standby 6 is used, - the screw 21 is twisted along the thread of the flange 20 and presses on the centering pin 15 of the rod 10.

The efficiency of using the utility model is determined by the fact that the cases of the device and the locking element are made of standard thin-walled pipes. This provides a reduction in mass compared to existing samples, the casings of which are cast.

The design of the device allows you to expand the scope of its application, as it ensures the reliable operation of pumping stations not only on stationary and collapsible pipelines, but also in the pressure line of submersible pumps. Reliability of work is provided by smooth regulation of the start-up mode of pumps, including submersible ones. Smooth and gradual feed

water does not lead to the capture of sand particles by water (there will be no sanding process), as a result of which there is no intensive wear of pump parts, and there will be no strong water hammer, which can lead to an emergency state of pipes, fittings and other components.

When the pump stops, the shut-off and control device eliminates the complete reverse movement of the water flow, for example, into the well, and minimizes the force of water hammer when closing.

Thus, when starting up pumps (including submersible ones), the device performs smooth automatic control of the required degree of opening and forcing it to close when the pressure in the pipeline or in the pressure line of the submersible pump decreases.

Claims (1)

A locking and regulating device comprising a housing, nozzles with flanges, a locking member, a drive and an adjustable throttle, characterized in that the housing of the device and locking member are made of standard thin-walled pipes, the axis of the locking member being located at an angle of 30-70 ° to the axis of the device, and the actuator stem of the shut-off member is connected to the membrane and the plate with guides, and an adjustable throttle connects the cavity of the outlet pipe to the upper cavity of the membrane actuator in which the spring is installed by tubes.