RU2610127C1 - Drain well - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to reclamation, in particular to drain wells. The drain well comprises a body, in the lower part of which along the inner generatrix an annular protrusion-ledge 2 is formed, and in the lower part there is a limit stop 3. The sump tank 10 is made of a two-layer closed chamber 11 of waterproof soft elastic material with sealed ends and is provided with a shell 13 of plastics material in the upper part. The shell 13 is made with the ability of a closed air-forcing ring which is connected to the annular jacket 12 and the latter is attached to the two-layer closed chamber 11. The outer layer of the surface of the two-layer closed chamber 11 is glued with a protective coating 18 in the form of cantilevered walls also made of plastic material of dome shape with a central opening 19 in its bottom. The cavities of the shell 13 and the chamber 11 by the tubes 14 and 17 through the three-way valve are communicated with the atmosphere and a compressed air source. The drain well in the side walls has recesses 4 and 5, the lower part of which is formed with a sloping bottom 6 and 7. In the recesses with the wellhead tubes 8 and 9 placed in them, the locking elements 20 and 21, made in the form of valves, are fitted end-to-end with the walls of the recesses 4 and 5 and have drive levers 22 and 23. One end of the drive levers 22 and 23 is pivotally connected to the walls of the recesses, and the other is bent and provided with loads 24 and 25. When cleaning the sump tank in the upper position when the shell 13 abuts the stop 3 by injection air by a compressor or a pump into the cavity of the two-layer closed chamber 11 its upper layer starts to bend upwards and the entire contents of the silt deposit is displaced on the land around the well.

EFFECT: invention provides increase in the efficiency of a drain well under conditions of the silt deposit deposition while protecting the two-layer closed chamber.

3 cl, 1 dwg

Description

The invention relates to land reclamation, in particular to drainage wells.

Known drainage well, comprising a housing and a drainage pipe connected to it, it contains a removable tray located in its lower part and has a niche in the side wall of the housing with an inclined bottom in which a drainage pipe is installed (Copyright certificate SU No. 1342975, ЕВВ 11/00 dated 08/07/1987).

The disadvantage of the drainage well is that the tray is made of solid solid material with an arcuate bracket. In addition, during operation, the tray does not automatically pop up from solid solid material and then release it from the filler. Thus, this is an inability to automatic system of exemption from a cord. The task of the analogue is to direct (roll) the filings along an inclined bottom into a removable tray of a given height size, and the pipes should not interfere with manual removal of the tray. Another disadvantage is that, according to the working conditions, it is necessary with some device to find the ability to close the drain holes during the lifting of the removable tray with the bulk and to produce the bottom of the sump with its inside out, i.e. for this period, the drainage well is not disconnected, which may lead to its filling by bulk.

Known drainage well, including a housing with a lid and a removable sump installed in its lower part, the latter is made of elastic material and in its upper part is equipped with a shell that is connected to it, and the lower support and upper restrictive stops for the shell with a sump are made in the well, moreover, the well is equipped with a tackle system, the flexible traction of which is connected with the shell and the center of the bottom of the removable sump (Author's certificate SU No. 1606601, ЕВВ 11/00 of 11/15/1990).

The disadvantages of this drainage well are the relatively high complexity of the design, the complexity of maintenance and high material consumption. In addition, the operation process does not provide for the automatic ascent of a removable sump made of elastic material; accordingly, it will be necessary to apply mechanical action to turn inside out, while being freed from the filler. Another drawback is that, under operating conditions, there is no device for the possible closure of the drain outlet holes at the time of lifting the removable sump, and the ability to protect the bottom of the well from silting (entering) with a filler.

The closest analogue is a drainage well, including a housing with a lower supporting and upper limit stops, in the lower part of which there is a removable sump made of elastic material, while the sump is equipped with a hollow chamber attached to its upper part and a pipe located in the center of the sump ( Patent RU No. 2092653, ЕВВ 11/00, dated 10/10/1997).

The well-known drainage well is mainly intended for filling a well under pressure with water, which is filled from a specially prepared water tank. However, this leads to a noticeable increase in the cost of maintaining the drainage well and a large flow of water, i.e. first you need to pump water from the tank, and then again pump out the water from the well. In addition, the sump made of elastic material, as it is raised up with the filler, begins to stretch in height with its bottom down, which causes additional filling of the well in the volume with water to the design pressure in order to overcome the buoyancy of the concave part of the bottom of the sump with the bulk and continue to have the possibility of turning the bottom to the inside for release from the cord. All this in general leads to an additional expense of using part of the water at high pressure from below, i.e. under the action of an Archimedean force on an irregular shape and its streamlined around the generatrix with an elastic bottom in the form of a conical surface, and these forces cause difficulties in the calculations. Another disadvantage is that, according to the working conditions, it is required to manually close the drain with plugs when they are difficult to perform at the bottom of the well, in which there is a constant flow of drains in the drainage well. In addition, there is a merger of the border of the flow of clean water from the tank into the well and at the same time there are residual wastes at the bottom of the well, from here again when such a mixture is pumped into the tank, the water supply will already be unclean.

The technical problem to which the invention is directed is to increase the efficiency of the drainage well in the conditions of a precipitating filler from a water source while protecting a two-layer closed chamber.

The technical result is achieved by the fact that the drainage well, comprising a housing with a lower supporting and upper limit stops, in the lower part of which there is a sump made of elastic material associated with a shell, an air compressor, a sump is made of a two-layer closed chamber communicated through a pipe with a source of compressed air through a regulator in the form of a three-way valve and alternately supplying compressed air to communicate with a two-layer closed chamber and with a shell I is in the form of a closed ring vozduhonagnetatelnogo of plastics material formed as its base in the form connected thereto annular jacket of a plastic material, said ring vozduhonagnetatelnoe communicated with the source of compressed air via air-conducting tube, which is also connected with the regulator in the form of three-way stopcock.

In addition, the outer side walls of the two-layer closed chamber are glued with a protective coating in the form of cantilever walls in the form of a lower dome with a central hole in its bottom.

In addition, in the side walls made with niches and with an inclined bottom, with drain wellhead tubes placed in them, the niches are equipped with locking elements in the form of a lever with a valve, one end of the lever is pivotally connected to the body, and the other is bent and provided with a weight to be supported a weight in the opposite direction from the valve to the inclined bottom of the niche and with the possibility of closing the locking element at the moment of closing the drain by means of a flexible rod in the form of a cable stretched through a vertical tube with fastening on both drains from above to the body .

This design of the drainage well, when the cavity of the two-layer closed chamber of the sump is not directly connected to the source of the watercourse in which there is a precipitated filler and the installation of the sump is provided below the bottom of the wellhead drains and the well being filled with filler, eliminates siltation of the well with filler, and provides protection against clogging of the two-layer closed chamber of the settler from above. the closed chamber of which is glued from the outside with plastic cantilevered walls in the form of a lower dome with the formation of a central open openings between the cantilevered walls (space). A durable two-layer sump chamber with sealed ends made of elastic material is protected from damage by a bulk and other floating debris, and periodic removal of the sump from the surface of the sump by forcing compressed air into the closed chamber of the chamber until the top layer is turned inside-out ensures the self-collapse of the sump on the ground around the well. After cleaning the surface of the elastic upper layer of the material, air is released and the upper layer returns to its original position under the action of its own weight. Thus, the upper part of the layer of the closed chamber of elastic material lies on the lower part of the layer of the closed chamber and the total weight of the sump increases. After the closed chamber is freed from compressed air through a three-way valve from its discharge into the atmosphere and freed from the filler, then compressed air is released from the cavity of the air-discharge ring of the shell by turning the three-way valve and air is released into the atmosphere. The sump under the influence of the total weight of the shell with an attached annular jacket, a two-layer closed chamber begins to sink down to the bottom of the well. In this case, at the moment of operation, the inlet and outlet openings of the drains are closed with locking elements in the form of a lever with a valve, one end of the lever is pivotally connected to the body, and the other is bent and equipped with a weight, and is connected with pulling up a flexible rod in the form of a cable passed through a tube, and fixed on top of the case. These structural differences from the prototype allow us to conclude that the claimed device meets the criteria of the invention of "Novelty."

The author does not know drainage wells of a similar design, therefore, he believes that the proposed technical solution meets the criterion of "Significant differences".

The drawing shows the proposed drainage well, a longitudinal section.

The drainage well includes a housing 1, in the lower part of which an annular protrusion-ledge 2 is made along the inner generatrix, in the upper part there is a restrictive stop 3, and the side walls of the housing have niches 4 and 5, the lower part of which is made with an inclined bottom 6 and 7 inside the well . In this case, the side walls of the housing 1 with niches 4 and 5 communicate, respectively, through the inlet 8 and outlet 9 drainage tubes placed above the removable sump 10.

The removable sump 10 consists of a two-layer closed chamber 11 of waterproof soft elastic material with sealed ends, which is fastened by means of an annular jacket 12 of plastic material to the casing 13, made in the form of a closed air discharge ring also of plastic material. From the shell 13, the pressure pipe 14 is discharged above the housing 1, is equipped with a three-way valve 15, which communicates with the atmosphere and the source 16 of compressed air (for example, a compressor or pump).

The two-layer closed chamber 11 by means of the discharge pipe 17 by means of a three-way valve 15 is also in communication with the atmosphere and a source of compressed air 16. The outer layer of the surface of the two-layer closed chamber 11 is glued with a protective coating 18 in the form of cantilever walls of plastic material in the form of a lower open dome (dome-shaped) with a central hole 19 in its bottom. In this case, the protective coating 18 made of cantilever walls 16 (in the form of plates) glued to the surface layer of the two-layer closed chamber 11 serves to prevent the elastic material from touching both the bottom of the well and its side walls in such a way that, in the presence of compressed pressure air in turn, first with the filling of the shell 13 in the lower position of the removable sump 10, and then in the upper position with the filling of a two-layer closed chamber 11, subsequently from the compressed air source 16, protection is intact ohm of a two-layer closed chamber 11 made of waterproof soft elastic material, which is also associated with the synchronous position of movement along the height of the housing 1 of the removable settler 10, i.e. in the lower and upper positions when moving between the stops 2 and 3 of the housing 1.

In niches 4 and 5 with wellhead tubes 8 and 9 located in them, the locking elements 20 and 21 in the form of valves are installed end-to-end with the walls of the niches 4 and 5 and have drive levers 22 and 23, one end of the drive lever 22 and 23 is pivotally connected to the walls of the niches 4 and 5, and the other is bent and equipped with weights 24 and 25. The weights are mounted so that they can be supported on an inclined bottom 6 and 7. The bent ends of the drive arms 22 and 23 are fixed with flexible rods 26 and 27 stretched through a vertical tube, the flexible rods are respectively connected with drums 28 and 29 fixed at the top of the wall housing 1, serving to hold the locking elements 20 and 21 to close the holes of the wellhead drainage tubes 8 and 9 in a vertical position.

The drainage well operates as follows.

When filling the sump 10 with a filler, compressed air is supplied from the source 16 (for example, from a compressor or pump) to the casing 13 due to its design as a closed air discharge ring and the compressed air is pumped through the pressure pipe 14 connected to the three-way valve 15 until it is completely filled. At the same time, the holes of the inlet 8 and outlet 9 of the drainage tubes are closed and the locking elements 20 and 21 are brought into vertical position by the rotating drums 28 and 29 through the flexible rods 26 and 27 and the locking elements 20 and 21 are fixed, therefore, the drainage holes are reliably and quickly closed tubes inside the well niches. Thus, the drainage of water into the inside of the well stops, since the heads of the drainage tubes are in contact with the locking elements 20 and 21, made with the drive levers 22 and 23 with curved ends and weights 24 and 25. The connection density of the locking elements 20 and 21, the durability of operation and Cheaper production of such locking elements is achieved by manufacturing the seat of the inlet and outlet head of the drainage tubes and levers made of plastic. In this case, the oscillations of the locking elements with levers when closing and opening the locking elements associated with the manufacture of levers from plastic are eliminated by supplying them with weights and then with the possibility of supporting each weight on an inclined bottom located on the opposite side of the saddle in the niches in the well.

Due to the complete filling with compressed air of the shell 13, made in the form of a closed air discharge ring, the sump 10 with a bulk will begin to lift up. As a result of the uplift of the sedimentation tank 10 with a filler, the lower position of the two-layer closed chamber 11 of waterproof soft elastic material is maintained, the outer layer of which is connected to the protective coating 18, made in the form of cantilever walls of plastic material in the form of a lower open dome with a central hole in its bottom. Thus, when moving the removable sump 10 upwards, the outer layer of the two-layer closed chamber 11 is protected from damage to the soft elastic material.

After the chamber 11 reaches the stop 3, the accumulated filler over the chamber 11 is discharged by pumping air into the chamber using a compressor or pump, only the upper layer of soft elastic material is turned inside out, and the lower layer is fixed along the generatrix of the chamber 11, for example, by gluing a protective coating 18. In this case, under the influence of internal pressure, the upper layer of the chamber 11 with the filament on it takes the form of a cylindrical surface, and the lower layer of the chamber 11 is limited by the protective coating tiem 18, without touching the walls of the housing 1.

After cleaning the upper layer of the chamber 11 from the cavity of the chamber 11, air is released into the atmosphere through a three-way valve 15, and the upper layer returns to its original position under its own weight, and the upper and lower layers of the chamber 11 are gradually connected to each other.

Thereby, a removable settler 10, made by a two-layer closed chamber 11, and protection against damage of the soft elastic material of the two-layer closed chamber 11 are automatically supported in the upper position.

To lower the removable sump 10 as a whole, air is also released from the shell 13, and under the influence of the dead weight of the sump 10, the device returns to its original position on the annular ledge-ledge 2.

The use of simple equipment (pump or compressor) for injecting compressed air instead of water at a given pressure can thereby significantly increase the reliability of the two-layer closed chamber 11. In this case, the necessary conditions are created for the shut-off elements to work in any conditions of water flowing through the well, and thereby allows to ensure reliable operation of a removable sump with a bulk. In addition, the situation and the sanitary condition of the drainage well are improved during the implementation of the proposed drainage well, and there is no use of clean water from the tank, operating costs are reduced.

Thus, this leads to reliability and time acceleration of the process of cleaning the drainage well from the filler with the lack of pure water for raising a removable sump and again pumping water from the well compared to the prototype.

Claims (3)

1. A drainage well, comprising a housing with a lower supporting and upper limit stops, in the lower part of which there is a sump made of elastic material associated with a shell, an air supply compressor, characterized in that the sump is made of a two-layer closed chamber communicated through a pipe with a source of compressed air through a regulator in the form of a three-way valve for alternating supply of compressed air with its message with a two-layer closed chamber and into the shell, which is made in the form of a closed air-discharge ring made of plastic material, its base is also made in the form of an annular jacket made of plastic material connected to it, the air-discharge ring being in communication with a source of compressed air through an air-conducting tube, which is connected to the regulator in the form of a three-way valve. 2. The drainage well according to claim 1, characterized in that the outer side walls of the two-layer closed chamber are glued with a protective coating in the form of cantilever walls in the form of a lower dome with a central hole in its bottom. 3. The drainage well according to claim 1, characterized in that in the side walls made with niches with an inclined bottom, wellhead tubes are placed, the niches are equipped with locking elements in the form of a lever with a valve, one end of the lever is pivotally connected to the housing, and the other is bent and equipped with a sinker with the possibility of supporting the sinker in the opposite direction from the valve against the inclined bottom of the niche and with the possibility of closing the locking element at the moment of closing the drains by means of a flexible rod in the form of a cable stretched through a vertical tube with fastening on both sides m of drains from the top to the body.

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