RU2118428C1 - Device for delivering water from well - Google Patents

Abstract

FIELD: water supply machinery and equipment. SUBSTANCE: this is intended for utilizing underground water and operating water intake structures including withdrawal of artesian water from well into trunk lines of municipal water supply systems. Device has electrically-driven pump with delivery pressure pipeline on which hydraulic sealing unit is installed having body and first inflatable chamber. Body of hydraulic sealing unit is made up in the form of two pieces of pipe. End faces of each piece of pipe are provided with upper and lower flanges. Upper flange of first piece of pipe is connected with lower flange of delivery pressure pipeline. Lower flange of second piece of pipe is connected with upper flange of electrically-driven pump. Located on lower flange of first piece of pipe and on upper flange of second piece of pipe of body which are rigidly interconnected through first row of uniformly arranged studs are respectively upper rim of first inflatable chamber and lower rim of first inflatable chamber. Installed on walls of first and second pieces of pipe of body is single additional flange per each. Mounted on flanges are respectively upper and lower rims of second inflatable chamber. Diameter of additional flanges which are rigidly interconnected through second row of uniformly arranged studs exceeds value of diameters of flanges of hydraulic sealing unit body and this is conducive to washing-off dirt penetrating into hydraulic sealing unit at engagement of pump and also completely excludes accumulation of sand in its space. EFFECT: higher efficiency. 2 dwg

Description

 The invention relates to devices and mechanisms for operating groundwater sources and water intake structures, in particular for pumping artesian water into the main lines of urban water supply systems.

 Known devices for supplying water from a well containing a pressure pipe and an electric pump with a transmission shaft [1].

 However, the presence of a transmission transmission of known devices leads to large volumetric losses, lower feed, pressure and efficiency of the electric pump.

 The closest to the proposed technical essence and the achieved effect is a device for supplying water from a well containing an electric pump, a pressure pipe and a hydraulic sealing device as part of a housing and an inflatable chamber, the cavity of which is connected to the pressure pipe through a drain [2].

 In the known device, the presence of a hydraulic sealing device can increase the flow rate of the well. However, during the operation of the device in the cavity of the inflatable chamber, deposits of fine sand (the result of "sanding" the well) and dirt entering the well during installation and maintenance work are observed, and in the cavity of the inflatable chamber - the next time the electric pump is turned on. This can lead to the fact that the gap formed when the electric pump is turned off between the walls of the borehole filter pipe of the well and the inflatable chamber will be insufficient to prevent damage to the latter when the device is removed from the well.

 An object of the invention is to eliminate the possibility of contamination of the hydraulic sealing device.

 This problem is solved in that the housing of the device hydraulic sealing device is made in the form of two pipe sections, the ends of each of which are equipped with upper and lower flanges, the upper flange of the first pipe segment of the housing is connected to the lower flange of the pressure pipe, the lower flange of the second pipe segment of the housing is connected to the upper flange electric pump, on the lower flange of the first pipe segment and on the upper flange of the second pipe segment of the body, rigidly interconnected through the first row of evenly spaced studs, mount The upper and lower rims of the first inflatable chamber are correspondingly mounted, one additional flange is installed on the walls of the first and second pipe sections of the casing, on which the upper and lower rims of the second inflatable chamber are mounted respectively, the diameter of the additional flanges rigidly interconnected through the second row uniformly the placed studs exceeds the diameter of the flanges of the housing of the hydraulic seal.

 Figure 1 shows the device during installation in the well; figure 2 - the device is in working condition.

 The device is located in the casing 1 of the well and contains an electric pump 2 and a pressure pipe 3, between the lower flange 4 of which and the upper flange 5 of the electric pump there is a hydraulic seal in the housing and two inflatable chambers 6 and 7. The housing is made in the form of two pipe sections 8 and 9 equipped with upper and lower flanges 10-13, and the first row of studs 14. On the walls of the housing are installed additional flanges 15 and 16, rigidly interconnected through a second row of evenly spaced studs 17. Assembled device shown in figures 1 and 2.

 The device hydraulic seal is mounted in the following sequence: additional flanges 15-16, upper and lower flanges 10-13, first row of studs 14, first inflatable chamber 6, second row of studs 17, second inflatable chamber 7. Diameter and number of studs 14 and 17, and the thickness of these flanges is determined by the weight of the electric pump 2. At the same time, the inflatable chambers 6 and 7 are made in the form of cylinders with upper and lower rims provided for the convenience of their installation on the flanges 11-12 and 15-16 (not indicated).

 The device operates as follows.

Before installing the device in the casing 1 of the artesian well, the flanges 10 and 13 of its hydraulic sealing device are connected respectively to the lower flange 4 of the pressure pipe 3 and to the upper flange 5 of the electric pump 2, and the pressure in the cavity of the second inflatable chamber 7 is brought to a value of P ₀ , at which Despite the opposition of the static water pressure P1 in the pressure pipe 3, the first inflatable chamber 6 is compressed to the minimum possible volume (Fig. 1).

After installing the device in the well and turning on the electric pump 2, the volume of the inflatable chamber 6 under the pressure P2 of the water pumped out from the aquifer of the well reaches a maximum value. Expanding, the inflatable chamber 6 increases the pressure P ₀ in the cavity of the second inflatable chamber 7 to a value of P _x , under the action of which the walls of the chamber 7 will block the gap with the casing 1 (figure 2).

 After the specified gap overlaps, further equilibrium between the volume of water pumped into the distributing network and its volume entering the casing 1 from the aquifer will occur when the pressure on the water surface in the well is reduced compared to atmospheric pressure, which causes an additional influx of water, t. e. helps to increase the flow rate of the well.

When the electric pump 2 is turned off by reducing the overpressure in the pressure pipe to the value P1 and under the action of pressure P _x in the inflatable chamber 7, the volume of the first inflatable chamber 6 starts to decrease and reaches the minimum possible value when pressure P _x reaches the initial value P ₀ . Moreover, if the device is not stopped from being removed from the casing 1, sand and dirt settling in the cavity of the inflatable chamber 6 after turning off the electric pump 2 are washed out the next time it is turned on.

 Thus, the advantage of the proposed device is that due to the proposed design of the device hydraulic sealing device, in which the walls of the first inflatable chamber 6 are a "continuation" of the walls of the pressure pipe 3, in the cavity of the specified chamber there is a constant update of water. This contributes to the leaching of dirt falling into the hydraulic seal when the electric pump 2 is turned on, and also completely eliminates the accumulation of sand in its cavity.

Claims (1)

 \ \ \ 1 Device for supplying water from a well, containing an electric pump with a pressure pipe, on which a hydraulic sealing device is installed as part of the housing and the first inflatable chamber, characterized in that the hydraulic sealing device housing is made in the form of two pipe sections, the ends of each of which are equipped with a top and lower flanges, the upper flange of the first section of the housing pipe is connected to the lower flange of the pressure pipe, the lower flange of the second segment of the housing pipe is connected to the upper flange of the electric pump, on the lower m the flange of the first pipe segment and on the upper flange of the second pipe segment of the casing rigidly connected to each other through the first row of equally spaced studs, the upper and lower rims of the first inflatable chamber are mounted respectively, one additional flange is installed on the walls of the first and second pipe sections of the casing, which are mounted respectively on the upper and lower rims of the second inflatable chamber, while the diameter of the additional flanges rigidly connected to each other through the second row is evenly placed 's pins exceeds the diameter of the body flange gidrouplotneniya device.

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