RU2083768C1 - Water intake device - Google Patents

Abstract

FIELD: water supply systems. SUBSTANCE: device is used in operating underground water sources and water intake structures and particularly for delivery of artesian water to municipal water supply systems. Device has delivery pipeline, multiple-section pump with down-hole electric motor and screen-type filter with settler installed in water receiving part of well. First coupling of delivery pipeline located below static water level is made in the form of sealing member holder with its inner space connected with excess pressure line laid along delivery pipeline towards well head. EFFECT: high efficiency. 1 dwg

Description

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

Known water intake devices containing a pressure pipe submerged in a well a multi-section pump with a transmission shaft passing inside the pressure pipe or in an oil-filled pipe, and an electric motor mounted on a bed above the wellhead [1]
However, the presence of these transmission devices, which does not allow precise adjustment of the gaps between the impellers and the pump guide vanes, leads to large volume losses, a decrease in the flow, pressure and efficiency of the pump.

It is known a water intake device comprising a pressure pipe composed of a pipe section connected by couplings, a multi-section pump with a submersible electric motor and a strainer installed in the water intake part of the well with a sump [2]
A disadvantage of the known device is as follows. It is known that underground sources are subject to seasonal variations in flow rate. However, the most undesirable are irreversible decreases in the natural water level in the well, which can be caused, for example, by the formation of a regional depression under the influence of water intake from nearby wells. Regardless of the hydrological conditions, clogging of the well by the broken parts of the intake devices, clogging of the strainer, etc. can affect the water intake capacity.

 The objective of the invention is to reduce the effect of the natural water level in the well on the water intake capacity.

 The solution to this problem lies in the fact that in the known water intake device, the first of the pressure pipe couplings located below the static water level is made in the form of a sealing element holder, the internal cavity of the latter of which is connected to the pressure line laid along the pressure pipe to the wellhead.

 The drawing shows the proposed device.

 The device is mounted in the superfilter pipe 1 of the well and comprises a pressure pipe, a multi-section pump 4 with a water intake mesh 5, a submersible pump 6 and a mesh filter 7 with a sump 8 installed in the water intake part of the well, which consists of couplings 2 connected by couplings. In addition, the pressure coupling 9 the pipeline is made in the form of a holder for the sealing element 10, equipped with a connector 11 for connecting the pressure line 12. In this case, the coupling 9 is the first of the couplings 2 located below the natural (static) water level in the well.

 The immersion depth of the pump 4, determined by the number of pipes 2 in the pressure pipe, is selected so that the bottom of the electric motor 6 is at least one meter above the filter 7 and that the upper flange of the pump 4 is below the dynamic water level in the well by at least one and a half meters.

 The device operates as follows.

The natural water level in the well is characterized by a static level A ₁ , the value of which in the superfilter pipe 1 depends on the hydrodynamic conditions of the groundwater state and the value of atmospheric pressure. When water is taken from a stream of power N moving in a layer of watertight rocks, the water level in the well will decrease by a value of δS, which is all the more, the higher the productivity of pump 4. With the onset of equilibrium between the amount of pumped water and the amount of its inflow from the aquifer N, a dynamic level constant for the pumping time will be established (curve B ₁ in the drawing), which, gradually increasing with distance from the well, forms a depression funnel with a radius R _i .

If, for example, an additional well is drilled in the area of curve B ₁ , the depression funnel of the latter lowers the static level A ₁ to A ₂ , that is, by a value of δS proportional to the water intake capacity of the additional well. Moreover, for a static level A ₂ in order to prevent violation of the cooling mode of the pump 4, which leads to exposure of its body, the dynamic level B ₂ in the well should not be lower than level B ₁ , that is, should not exceed the value of S ₂ . This requirement is fulfilled when working with a closed flap on the pressure pipe or when replacing the pump with a less powerful one. In both cases, the water intake capacity decreases. Therefore, in order to partially compensate for the effect on the performance of the pump 4 of irreversible decreases in the natural water level in the well, the proposed device is equipped with a sleeve 9 made in the form of a holder for a hollow sealing element 10 connected to a pressure line 12.

 In the initial state of the sealing element 10 between the sleeve 9 and the wall of the filter pipe 1 there is a gap that allows the installation of the pump 4 with the electric motor 6 in the well (position a in the drawing). Before the start of water intake, the element 10 is transferred from the initial state to the operating state, in which the specified gap is closed by the element 10. For this, air is pumped into the internal cavity of the element 10 through the pressure line 12 laid along the pressure pipe to the wellhead. After reaching a predetermined air pressure in the element 10 include an electric motor 6.

The initial period of operation of pump 4, that is, the process of forming a depression funnel will occur at a lower air pressure on the surface of the water in the region h of the filter pipe 1 than the atmospheric pressure. This causes an additional flow of water into the wells through a strainer 7 (shown in the drawing by arrows) . As a result, the depression curve B ₂ , which characterizes the operation of the device without the sealing element 10, approaches the curve B ₁ , decreasing the δS values, which will allow water to be taken from the well with a less covered damper on the pressure pipe and thereby increase the water supply to the main line of the water supply system .

 When carrying out preventive or repair work related to the dismantling of the pump 4 and the electric motor 6, the sealing element 10 is returned to its original state.

 Thus, the proposed device in comparison with the prototype can reduce the influence of the natural level of water in the well on the power of the intake.

Claims (1)

 A water intake device comprising a pressure pipe composed of pipe segments connected by couplings, a multi-section pump with a submersible electric motor and a strainer installed in the water intake part of the well with a sump, characterized in that the first of the pressure pipe couplings located below the static water level is made in the form of a sealing element holder, the inner cavity of the latter of which is connected to the line of elevated pressure laid along the pressure pipe to the wellhead.