SU1010228A1 - Apparatus for raising fluid from water wells - Google Patents

Abstract

A DEVICE FOR LIFTING FROM WATER WELLS, containing a 7-pipe lifting column, consisting of two parts: stationary and mobile, equipped with a float and a nozzle, characterized in that, in order to ensure the forced extraction of fluid from water wells, it is equipped a vacuum apparatus installed at the wellhead and connected with the stationary part of the lifting pipe string, the stopper and the stop ring installed in the well, and the distance from the lower end of the stationary part to the stop ring is not more than moving parts lifting the pipe string. . (Lu tsD 00 l /

Description

The invention relates to water supply, mainly from underground sources, and can be used in the operation of wells and mines. It is known a device for lifting water from wells with a suction airlift consisting of a water-lifting column, at the lower end of which a nozzle for air inlet is placed above the water level, and the water rise is lowered below the water level. 13 This device cannot be effectively used for pumping water using airlift. Firstly, it sinks in water, secondly, air is introduced above the water level, and thirdly, it does not allow to regulate and restrict the input of water into the water-raising column. In addition, the known device does not have the ability to change its length during operation. The closest technical solution to the present invention is a device for lifting liquid from gas wells, including a lifting pipe string, consisting of a stationary part and a movable one, equipped with a float and a nozzle C2. However, this device cannot be used to lift fluid from water wells. The aim of the invention is to provide forced fluid withdrawal from water wells. The goal is achieved by the fact that a device comprising a lifting pipe string consisting of two parts: stationary and movable, equipped with a float and a nozzle, is equipped with a vacuum apparatus installed at the wellhead and connected to the stationary part of the lifting pipe string, plug and stop ring, installed in the well, and the distance from the lower end of the stationary part to the stop ring is not more than the length of the movable part of the lifting pipe string. The drawing shows a device for lifting liquid - water (at the time of transporting the lower part of the lifting column from the lower extreme to the upper extreme position. The device for lifting water consists of a lifting column: the moving part 1 and the stationary part 2, the cup 3, the nozzle V, the air-water ejector 5 open cyclone 6, tank 7 for collecting the raised water, pipe 8 for draining the raised water, the suction pipe 9, the pump 10. The distance from the end of the stationary part of the lifting column to the static water level must o be no less than the length of the glass 3. It is necessary to place the latter in the air in order to start up the device. A device for lifting water is placed in a borehole 11 fixed by casing 12. In the casing there is an annular stop 13, on which at the time of water extraction a plug 14 with a flexible sealing ring 15. From below, the flexible element 15 is supported by a crosspiece 1b, which at the same time creates channels 13 on the stop 13 for flowing water from the part of the well below the stop 13 to the part of the well above the stop 13. Crosspiece 16 and the plug I connected to. The length of the lifting column, including the stationary and moving parts thereof, must be at least the static water level in the well. The distance from the lower end of the stationary part of the lifting column to the ring stop 13c of the stopper lying on it should be no more than the length of the movable part and the lifting column with bowl 3, while in the upper extreme position the bowl 3 should not be filled with water. The stationary part 2 has a connecting unit 17. In the upper part of the borehole 11, a cover 18 is installed with holes 19. The ratio of the sizes of the movable and fixed parts of the lifting column and their interface with the cup are taken from the condition of providing air velocity along the entire length of the column. day surface. With a small static water level, the water-lifting column does not have a stationary part. Water is lifted from the well (the winds are produced in the following sequence. The movable part 1 of the lifting column is lifted out of the water using a hoist or levers or a winch. At the same time, under the action of gravity, the plug 14 leaves the nozzle k from the receiving opening 11 and lowers along the squash 11. 310 to the ring stop 13. Slide assembly 17 from the vacuum apparatus (air ejector 5) is put on the movable part of the lifting column and the vacuum apparatus 5 is put into operation. After the air begins to move from the atmosphere through the holes 1 in the lid 18 into the ring The space between the walls of the casing 12 and the stationary part 2 of the lifting column is further along the annular gap between the walls of the cup 3 and the walls of the lifting column 2 and 1, and then along the internal channel of the lifting column 1 and 2 on the day surface begin to lower the movable part 1 lifting before contacting the nozzle i with water, and then until the buoyancy of part 1 occurs. After this, the connecting unit is put on the stationary part 2 of the lifting column, and the whole device for lifting water is driven operating state. The rise of the water begins. Under the action of pressure And the water through the nozzles expires in the movable part 1 of the lifting column. The moving air drags the water, behind it to the day surface. As the movable part 1 is lowered, the inner diameter of the stationary part 2 of the water-lifting column, which is larger in size, is released. To maintain the speed and reliability of the process of transporting water by air flow in this section, an additional amount of air is sucked in the annular gap between 4 rubles 2 and 1. If we calculate the water rise along the channel of the movable part 1 of the water-lifting column due to the surface vacuum apparatus of the ejector 5, then the indicated vacuum at the upper end of the movable part 1 of the lifting column must ensure the rise of water along the movable part 1 of the lifting column. When the upper end of the movable part 1 of the lifting column reaches the lower end of the stationary part: 2 of the lifting column, the cork 14 enters the nozzle channel) and the hydrostatic pressure presses the "15th ring 15 to the bottom of the reservoir 3." At this time, the working cycle for lifting water ends transport operative on lifting movable 1 water-lifting column to the upper extreme position. Since the buoyancy of the glass is maintained, the rise of the device occurs as the water level in the well increases. When the water level in the well reaches the level corresponding to the static water level, the transport orte- ration is completed. And, if necessary, a new operating cycle can be started. The transport operation can be carried out with the vacuum apparatus turned off on the day surface. The device will significantly increase the withdrawal of fluid from water wells compared to known devices.

Claims (1)

DEVICE FOR LIFTING LIQUID 'BONES FROM WATER WELLS, containing a lifting column of pipes, consisting of two parts: stationary, and mobile, equipped with floats and a nozzle, characterized in that, In order to ensure forced selection of liquid from water wells, it is equipped with a vacuum apparatus installed at the wellhead and connected with the stationary part of the lifting pipe string, plug and thrust ring installed in the well, the distance from the lower end of the stationary part to the thrust ring not more than the length of the movable parts of the lifting pipe string. . 1 1010228 2