RU2188910C2 - Multisectional well - Google Patents

Abstract

FIELD: waste-water disposal systems. SUBSTANCE: invention deals with multifunctional well functioning as inspection pit of sewage net, or sewage works in the form of separator or pumping station. Well includes number of identical interjoined sections. Each section is formed by ring wall having holes varying in width on different edges which is produced from polymer material and carries stiffening ribs. Stepped surface is formed on wall and stiffening ribs are formed at least on one of its steps. Steps of section are interjoined by inclined belts forming lateral stiffening ribs. EFFECT: enhanced reliability and improved functional properties of well, increased strength and leak-tightness, simple and economical assembly of well. 14 cl, 4 dwg

Description

 The invention relates to a sewage system, namely to a multifunctional well, mainly performing the function of a manhole of a sewer network. Also, the proposed design can serve as a sewage treatment plant in the form of a sump (separator) or, if equipped, serve as a pumping station.

 Inspection wells made of reinforced concrete elements are known in the art. In addition to strength, they have several disadvantages. These include the heaviness of the product with the obligatory use of additional lifting mechanisms, large overall dimensions during transportation and large areas for storage. When mounting in construction, it becomes difficult to move reinforced concrete elements to separate sections of the laid route. Labor costs with the use of lifting mechanisms for manipulating when docking these elements by end-laying one overlap on another, centering and eliminating distortions are very high compared to lightweight polymer products and still they do not provide reliable waterproofing properties from infection by entering the sewage filtrate into the surrounding soil , as well as groundwater infiltrate to wastewater treatment plants. When laying additional pipes and tapping into the existing network, a violation of the sealing of reinforced concrete elements inevitably occurs, which leads to additional labor costs or replacing the entire structure with a new one.

 As the closest analogue, a well was selected that contains a number of identical sections made with the possibility of interconnecting each other, each of which is formed by an annular wall having holes with different widths made of polymeric material and having stiffeners from different edges (DE 4122299, E 03 F 5 / 02, 1996).

 The known device, with all its advantages over a concrete well, is not reliable in operation.

 The technical result of the proposed design is to increase the reliability and improve the operational properties of the well, namely to increase its strength and tightness, cost-effectiveness and ease of assembly of the structure and lightening the weight of the well. When storing and transporting a well, the designated areas are significantly reduced.

 The essence of the invention lies in the fact that in a well containing a number of identical sections made with the possibility of interconnecting each other, each of which is formed by an annular wall having holes with different widths made of polymeric material and having stiffening ribs from different edges, the section wall has a step the surface, and the stiffeners are formed at least on one of its steps, while the steps of the section are interconnected by inclined belts forming transverse stiffeners. The well, mainly a manhole for a sewer network or a sump (separator), has a zigzag wall in longitudinal section, which is formed of several conical sections that are identical in height and shape and are laid during transportation and storage.

 Advantageously, the wall is made with at least two steps, and the stiffeners are formed on the step adjacent to the narrower opening and have a serrated surface.

 The well has a multifaceted outer and inner surface.

 The extreme sections of the walls of adjacent sections are interconnected by seizing the indicated section of one wall with a section of another wall.

 At the ends of the wall, connecting flanges are formed. The flange from the side of the narrower hole extends into the section, and accordingly from the side of the wider hole - outward. Both flanges can also extend outwards. Holes can be made in the flanges to accommodate the fixing means when connecting the sections to each other, for example, made in the form of slotted holes designed to accommodate fasteners, such as tie bolts.

 An annular groove may be formed on the flanges to accommodate the o-ring.

The angle of inclination of the wall to the vertical is in the range from 5 to 17 ^o .

 The well is equipped with a bottom having a multi-channel connection for the passage of fluid, including a section intended for additional connection.

 The upper part of the well is equipped with a conical overlapping sector having openings for an exhaust pipe for gas or pumping liquid and a pipe for inputting an electric cable.

 In the walls of the sections, slotted holes are provided for installation pipes for additional connection. The holes can be equipped with o-rings, and nozzles with check valves.

 Adjacent sections are interconnected by the edges of the walls having openings of equal width.

 The invention is illustrated by the drawing, in which Fig. 1 shows a general view of a well, in Fig. 2, a section of a well (longitudinal section), in Fig. 3, sectors A, B, C and D, characterizing cross sections of different steps of a section of a well; .4 - a well assembly, consisting of several interconnected sections (longitudinal section).

 The well (Fig. 1) consists of a series of cone-shaped stepped sections 1, each of which has one wide 2 and one narrow 3 through-holes (Fig. 2). On the rim of the upper and lower edges of the wall 4, connecting (docking) flanges are formed, while the flange 5, made from the side of the wider hole 2, is bent (extends) outward, and the flange 6, formed from the side of the narrower hole 3, is bent (extends) inside section 1. Wall 4 has at least two steps: upper 7 and lower 8, and stiffeners 9 are formed on the inside of at least one step, which in an advantageous embodiment of the invention have a serrated surface and trapezoidal sections (3, sector D). Stiffeners of another shape or the same can be performed at each stage of the wall of the section. Outside, the surface of the well is multifaceted (figure 1), and the section of the well has a polygonal cross section (section in the form of a polygon) (figure 3, sector B). In Fig. 3, sector A is a view along arrow E in Fig. 2, in Fig. 3, sector C is a section KK of the lower stage 8. On the flanges 5 and 6, slotted mounting holes 10 and annular grooves 11 are formed to accommodate the sealing ring 12 (figure 4), designed to seal the joints of two adjacent sections 1.

 The conical shape of the section due to the inclination of its wall 4 to the vertical angle α (Fig.2).

 The well assembly, shown in figure 4, consists of a series of sections 1, facing one another then less than 3, then large 2 in width holes alternately. In the lower part, the well is equipped with a bottom part 13 with a tray and has a multi-channel connection for the passage of fluid, made in the form of an opening 14 for inserting an outlet pipe, a connecting insert 15 of the inlet pipe and an additional connection section 16. The connecting insert 15 may have a reverse action valve 17. The bottom part 13 is fixed in the ground using a concrete base 18. The bottom part 13 has a connecting flange 19, designed for docking with the section of the well. All openings formed both in the bottom and in the walls of the sections are provided with o-rings 12.

 The upper part of the well has a tapered sector of the ceiling 20, having an opening for the telescopic neck 21, having vertical adjustment and a fixing thrust belt 22. The ceiling 20 has a stiffener 23 for functional purposes, namely an additional inlet pipe 24 for electric cable, exhaust pipe 25 for gas or pumping liquids.

 In the walls of the sections, slotted openings 26 are made for mounting pipes 27 for additional connections. The nozzles 27 can be equipped with check valves 28, and the holes with o-rings 12.

 The structural strength properties are due to the combination of longitudinal stiffeners 9 located, for example, on the inside of the well sections, with transverse stiffeners 29 in the form of inclined belts (Fig. 2), formed at the junction of the connected steps 7 and 8 of the sections and a transverse stiffness belt 30 ( 4) formed from the outside of the well.

 The height of the well is determined by the number of sections necessary for its execution, each of which has a height of mainly 0.55 m. The width of the connecting flange located along the edge of the hole 2 is approximately 0.05 m, and the width of the flange formed along the edge of the hole 3 is approximately 0.04 m. The wall thickness of the section is about 0.008 m.

 Thanks to stiffeners directed inward to the section of the well from the small diameter side in the average horizontal section, the sections are compactly stacked, taking up little space when storing. The minimum angle of inclination of the wall of the section creates stability of strength in a static state along the height of the stack.

 Sections of equal size are performed using one injection mold, and therefore, the outwardly connecting flange of one overlapping section is suitable for each outer connecting flange of any other section made of this form, or of a uniform form (tray or conical upper part) of this well. Similarly, the inner connecting flange of one section fits the inner connecting flange of any other section for a given well. It follows that the implementation of many sections of this form is dimensionally stable. In an embodiment of the present invention, several simple assembly options are provided.

For the installation of a well, it is necessary to have only sections of a single diameter of size, made from the shape of technological equipment. The overlapping sections are superimposed with identical flanges in diameter and direction, are fixed from axial displacement along the stiffening ribs of the mating section, then
1. One-piece joint - welding with the same material in composition by forcing hot air into the joint, which ensures 100% tightness.

 2. One-piece well molding according to the standard sizes of technological equipment.

 3. Detachable connection - by methods using fixing bolts and clamps and other connections.

 Tightness is ensured by a gasket sealing ring and the density of flange joints using tightening nuts.

 In a constructive embodiment of the invention, there is a feature of fitting a random connection pipe shown in FIG. 4. At a given depth of the supply pipe in one of the sections of the well, a window is drilled with the size of the external diameter of the supply pipe and is framed by a sealing ring (insert) with an external groove to the thickness of the wall of the well, into which a nozzle flange is inserted, which has a large degree of freedom of the angle of displacement relative to the longitudinal axis of the supply pipes. This makes it possible not to deform the dividing (diametral) stiffener (diametrical direction).

 Additional insert by gluing or hot air welding.

A constructive feature of the well is also phased assembly during installation, depending on the depth of the laid collector route, the angle of inclination of the route, the difference in the route and the terrain. The weight and size of the section allows you to install one person without auxiliary mechanisms, determine the difference in the angle of inclination of the track on the trays of adjacent wells and change the height of the well depending on the terrain from one section of the ceiling to the outside depth. Well design options vary not only in height but also in diameter. Depending on the purpose of the product, the configuration may be different, as the diameter increases, the versatility of the perimeter changes, mainly from four to sixteen faces and has a round, oval or polygonal cross section with a wall inclination (α) between 2 and 10 ^o , mainly 5 ^o .

 In this case, the section during longitudinal section is divided into two stepwise conjugate belts, one of which in cross section has the shape of an equilateral polyhedron with a cast rigid flange directed outward to the sector wall, and the second belt in cross section has stiffening ribs of the shape of a gear wheel with a rigid flange directed inward from the wall of the section, the wall of the sector, and the second belt in cross section has ribs of the shape of the gear wheel with a rigid flange directed inward from the wall of the section.

 When connecting one section to another section through the connecting flanges, powerful stiffening belts with an opposite angle of inclination from the connecting flange are formed, and when connecting the next stage of the section with a smaller diameter of the connecting flange directed inward, a stepped gear-shaped belt is formed, which significantly increases the strength of the well.

 From the above it follows that this design of increased strength allows to reduce the total weight of this well (with a wall thickness of up to 0.8 cm).

 A synthetic well made of the same polymer lightweight sections and having ideal waterproofing properties, can be freely moved and mounted by one person, without auxiliary lifting mechanisms, easily stacked in stacks by positioning one section from the small diameter side of the passage section to another section from the large diameter side. The use of such telescopic stacking reduces the storage area not only in open but also in closed storage rooms, which ensures their safety.

 Due to the above positive properties, the well has a multifunctional purpose. In addition to network applications in the form of a passage well, it can also be used as a septic tank or storm well for individual housing construction. With additional provision with a pumping unit and an electric control panel - like a pumping station. Assembly options during installation provide the required size of the well, depending on its volume or elevation of the ground for its intended purpose.

Claims (15)

 1. A well containing a number of identical sections made with the possibility of joining together, each of which is formed by an annular wall having holes with different widths made of polymer material and having stiffening ribs with different edges, characterized in that the section wall has a stepped surface, and the stiffeners are formed at least on one of its steps, while the steps of the section are interconnected by inclined belts forming transverse stiffeners.  2. The well according to claim 1, characterized in that the wall is made with at least two steps, and the stiffeners are formed on the step adjacent to the hole smaller in width and have a serrated surface.  3. The well according to any one of paragraphs. 1 and 2, characterized in that it has a multifaceted outer and inner surface.  4. The well according to any one of paragraphs. 1-3, characterized in that the extreme sections of the walls of adjacent sections are interconnected by seizing the specified section of one wall with a section of another wall.  5. The well according to any one of paragraphs. 1-3, characterized in that at the ends of the wall formed by connecting flanges.  6. The well according to claim 5, characterized in that the flange from the side of the narrower hole extends into the inside of the section, and accordingly from the side of the wider hole - outward.  7. The well according to claim 5, characterized in that the flanges extend outward.  8. The well according to any one of paragraphs. 5-6, characterized in that the flanges are made holes for placement of fixing means when connecting sections to each other.  9. The well according to any one of paragraphs. 5-6, characterized in that an annular groove is formed on the flanges to accommodate the sealing ring. 10. The well according to any one of paragraphs. 1-9, characterized in that the angle of inclination of the wall to the vertical is in the range from 5 to 17 ^o .  11. The well according to any one of paragraphs. 1-10, characterized in that it is equipped with a bottom having a multi-channel connection for the passage of fluid, including the area intended for additional connection.  12. The well according to any one of paragraphs. 1-11, characterized in that the upper part is provided with a conical overlapping sector having openings for an exhaust pipe for gas or pumping liquid and a pipe for inputting an electric cable.  13. The well according to any one of paragraphs. 1-12, characterized in that in the walls of the sections there are slotted holes for the installation nozzles of the additional connection.  14. The well according to any one of paragraphs. 12 and 13, characterized in that the holes are provided with o-rings, and the nozzles are non-return valves.  15. The well according to any one of paragraphs. 1-14, characterized in that the adjacent sections are interconnected by the edges of the walls having the same width holes.

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