WO2014133417A1 - Protective lining for repairing sewer manholes - Google Patents

Abstract

The group of inventions relates to the field of sanitation technology. Lining elements can be combined to form a protective lining. A lateral surface of the lining is formed by at least one row of lining elements adjacent to one another. The lining elements have geometrical dimensions which allow them to pass through a manhole opening. The protective lining comprises at least one lining element which is in the form of a sheet made of a resilient, flexible material. The geometrical dimensions of the sheet are selected so as to allow same to pass through a manhole opening when rolled into a tube or in a folded state. The invention provides for a decrease in material and labor costs while repairing a manhole.

Description

 PROTECTIVE COVERING FOR SEWER REPAIR

 WELL

 Technical field

 The invention relates to the field of sanitary engineering, namely, equipment used for the repair of sewer wells.

 State of the art

 Sewer wells are used to monitor the hydraulic regime of sewer and drainage networks, to inspect and clean these networks, and to access control and measuring equipment and shut-off and control valves.

 A typical design of a sewer well includes a bottom made of concrete or reinforced concrete with a tray part, concrete or reinforced concrete rings mounted on each other along the height of the well and forming its side walls, as well as a concrete or reinforced concrete upper ceiling (conical part) and a hatch equipped with an opening lid .

 Under the influence of external and internal loads, groundwater and wastewater, as well as aggressive environments, in particular sulfuric acid produced by thionic bacteria, the breeding medium for which is hydrogen sulfide released from the surface of wastewater, corrosion of the structural elements of the well occurs, in particular concrete or reinforced concrete rings forming its side surface. The consequence of this is the destruction of the walls of the sewer well, the loss of tightness and static characteristics of the design of the sewer well, which leads to additional entry into the sewer network of ground and rainwater, "removal" of soil into the sewer network, and, as a result, to the collapse of the soil and road surface around well, which can lead to injuries and traffic accidents.

The practice of using concrete and reinforced concrete sewer wells raises the problem of increasing the terms of their operation, reliability and durability, which requires timely and high-quality repairs. As a rule, repair of sewer wells requires high material and labor costs and has serious limitations associated, in particular, with the use of complex mechanization means, the need to organize a by-pass wastewater line, the need to dismantle (and subsequently install) the upper floor and the hatch of the well leading to violation of the road surface and, as a result, to violation of traffic.

 Modern repair technologies provide for the possibility of restoring operated wells by protecting their inner surface with cladding elements made of durable material resistant to water and aggressive environments.

 Thus, a protective cladding for repairing a sewer well [RU2374398] is known, which includes protective cladding elements installed inside the well at its height. The first element is installed on the bottom of the well and has the shape of a truncated cone tapering upward, the diameter of the lower base of which corresponds to the diameter of the bottom of the well. The second element is mounted on the upper base of the first element and has the shape of a tubular section, the diameter of which corresponds to the diameter of the upper base of the first element. The third element is inserted from above into the second element and represents the telescopic part of the device installed inside the well.

 The advantage of the device in question is that its design is collapsible, which makes installation easier.

 However, repairing a sewer well using the device in question is laborious and expensive, which is mainly associated with the need to dismantle and subsequently install the upper floor and the hatch of the well.

In addition, due to the selected shape of the parts of the device in question during the repair of the sewer well, it is necessary to fill the space between the rings of the restored sewer well and the outer surface of the facing parts sand with layer-by-layer compaction, which leads to an additional increase in the volume of repair work.

 Known protective lining for the repair of a sewer well [RU 122673], selected as the closest analogue.

 The lining in question comprises lining elements designed to form a tubular-shaped protective lining mounted inside the well of the inner side surface of the well. Said facing elements are a lower base having a bottom with a tray part and a cylindrical side surface, as well as a tubular element mounted on top of the base. In this case, the tubular element can be made prefabricated from several tubular sections mounted one above the other. The diameter of the base corresponds to the diameter of the tubular element and is consistent with the diameter of the inner side surface of the well.

 Due to the selected shape of the side surface of the facing elements and due to the coordination of their diameters with the diameter of the inner side surface of the well, the amount of work associated with the need to seal the free space between the inner side surface of the well and the outer surface of these parts is reduced.

 However, the repair of the sewer well using the device in question requires large material and labor costs associated with the need to dismantle and subsequent installation of the upper floor and the hatch of the well.

 Disclosure of invention

 The basis of the claimed invention is the task of reducing material and labor costs when repairing a sewer well by eliminating the need for dismantling and subsequent installation of the upper floor and the body of the manhole.

According to the first embodiment, the essence of the invention lies in the fact that in the protective lining for the repair of the sewer well, including facing elements designed to form a tubular-shaped protective lining mounted inside the well of its inner side surface, according to the invention, the facing the elements are made with the possibility of assembling from them a protective cladding, the side surface of which is formed by at least one row of cladding elements adjacent to each other in a direction that is circumferential relative to the longitudinal axis of the specified cladding, while the cladding elements have geometric dimensions that allow them to pass through the hatch of the well.

 In the particular case of carrying out the invention according to the first embodiment, the facing elements are in the form of rectangular, square or triangular plates.

 In the particular case of the invention according to the first embodiment, the above-mentioned plates in the working position have an arcuate shape in the plane of the cross section, while the radius of curvature of the surface of the specified section is less than the radius of curvature of the inner side surface of the well.

 In the particular case of carrying out the invention according to the first embodiment, the protective lining comprises fastening means, each of which is made in the form of a connecting element having an H-shape in the plane of the cross section, formed by the first and second parallel-oriented strips and a third strip located between them, oriented perpendicular to relative to the inner surfaces of the first and second planks, while the distance between the first and second planks corresponds to the thickness of the facing element filled in the form of a plate.

 In the particular case of carrying out the invention according to the first embodiment, the protective lining contains fixing means for securing the lining elements relative to the inner side surface of the well.

The presence in the invention according to the first embodiment of the combination of the above-described cladding elements forming a tubular protective cladding inside the well allows protecting the inner side surface of the well (well walls) from corrosion under the influence of wastewater and aggressive media, in particular sulfuric acid produced by thionic bacteria. Moreover, it is fundamentally important that each of the facing elements is made with the possibility of its passage through the hatch of the well, which is achieved by the choice of its geometric dimensions.

 The specified implementation of the facing elements makes it possible to install the above protective cladding inside the well without dismantling and subsequent installation of its upper floor (conical part) and the hatch body, which allows in practice to significantly (more than two orders of magnitude) reduce the total material and labor costs for repairs well, excluding the use of mechanization means traditionally used to carry out the indicated dismantling and installation works and the need to open the pavement.

 The shape of these cladding elements may be varied, selected from the condition of the possibility of forming from them an assembled protective cladding having a tubular shape. Due to the shape of the assembly lining elements, said tubular protective lining in the working position in the plane of the cross section can have a round, rectangular, polygonal, elliptical and other shape, selected depending on the shape of the inner side surface of the well.

 The surface of the tubular protective cladding, depending on the height of the well, can be formed by one row of cladding elements or several rows of these elements located one above the other along the height of the cladding.

 The number of facing elements in a row depends on the selected shape and dimensions of these elements and on the linear dimensions of the inner side surface of the well in a direction that is circumferential relative to its longitudinal axis.

At the same time, one should also be guided by the need for education, an installation gap (1 - 5 cm) between the outer surface of the protective lining and the inner side surface of the well, without which it is practically impossible to mount the protective lining inside the well. Facing elements are made of durable material, resistant to sewage and aggressive environments, for example, polyethylene.

 Thus, the technical result of the invention according to the first embodiment is the possibility of passing the cladding elements through the manhole, which leads to a sharp reduction in material and labor costs when repairing the sewer well by eliminating the need for dismantling and subsequent installation of the upper floor and the body of the manhole.

 In the case when the cladding elements are made in the form of rectangular, square or triangular plates, the ease of assembly of the protective cladding from them is ensured.

 In the case when these plates have an arcuate shape in the working position in the plane of the cross section, it is convenient to form a cylindrical tubular element from them, the side surface of which corresponds to the cylindrical side surface of the well, which most wells are used in practice. In this case, the radius of curvature of the surface of the cross section of the plates is chosen slightly less (in practice by 1-5 cm) of the radius of curvature of the inner side surface of the well to form an installation gap between the tubular lining and the inner surface of the well.

In the case when the protective cladding contains the connecting elements described above, each of which has an H-shape in the plane of the cross section, these elements make it easy to connect the plate cladding elements to each other in a vertical or horizontal plane. In this case, the first and second planks of the considered H-shaped connecting elements can have a rectangular shape in the horizontal plane, which allows them to be used to connect lamellar facing elements rectangular in cross section. The indicated first and second planks may have an arcuate shape in the horizontal plane, which allows the use of such connecting elements for connecting arched in cross section of plate cladding elements.

 In the case where the protective lining contains fixing means for securing the lining elements relative to the inner side surface of the well, the structural strength of the protective lining is increased.

 According to the second embodiment, the essence of the invention lies in the fact that in the protective lining for the repair of a sewer well, comprising at least one facing element, designed to form a tubular-shaped protective liner mounted inside the well of its inner side surface, according to the invention, the facing element is made in the form of a sheet made of flexible elastic material capable of being rolled up or folding, while the geometric dimensions of the sheet are selected from the condition the possibility of its passage through the hatch of a well when rolled up or in a folded position.

 In the particular case of carrying out the invention according to the second embodiment, the protective lining comprises fastening means, each of which is made in the form of a connecting element having an H-shape in the plane of the cross section, formed by the first and second parallel-oriented strips and a third strip located between them, oriented perpendicularly along with respect to the inner surfaces of the first and second planks, while the distance between the first and second planks corresponds to the thickness of blitz element.

 In the particular case of carrying out the invention according to the second embodiment, the protective lining comprises fixing means for securing the lining element relative to the inner side surface of the well.

The presence in the invention according to the second embodiment of at least one of the above-described facing elements in the form of a sheet made of flexible flexible material allows, by folding the sheet accordingly, to form a tubular protective lining inside the well the inner side surface of the well (walls of the well) and, thus, protect the specified surface from corrosion under the influence of wastewater and aggressive environments, in particular sulfuric acid produced by thionic bacteria.

 In this case, it is fundamentally important that the geometric dimensions of the sheet are selected from the condition of the possibility of its passage through the hatch of the well in a rolled up or folded position.

 Owing to the indicated constructive implementation of the facing element (s), the dismantling and subsequent installation of the upper floor and the hatch of the hatch is not required for the implementation of the work on forming a protective lining inside the well, which allows us to significantly (more than two orders of magnitude) reduce the total material and labor costs by well repair, excluding the use of mechanization means traditionally used to carry out the indicated dismantling and installation works and the need to open the road on the cover.

 The surface of the tubular protective lining may be formed by one or more sheets folded accordingly. The dimensions of the sheet and the number of sheets depend on the geometric dimensions of the well in the circumferential direction and on its height. Thus, in particular, the protective shell can be formed by several sheets stacked one above the other, folded so that they form a protective lining of a tubular shape.

 When choosing the sheet length, one should also be guided by the need to create an installation gap (1-5 cm) between the outer surface of the protective lining and the inner side surface of the well, without which it is practically impossible to mount the protective lining inside the well.

 As an elastic and flexible material for the manufacture of the facing element in question, a polymer material resistant to water and aggressive media, for example, polyethylene terephthalate glycol, can be used.

Thus, the technical result of the invention according to the second embodiment is to enable the passage of the facing element (s) through the hatch of the well, which leads to a sharp decrease in material and labor costs when repairing the sewer well by eliminating the need for dismantling and subsequent installation of the upper floor and the hatch of the well.

 In the case where the protective lining contains the above-described connecting elements, each of which has an H-shape in the plane of the cross section, using these elements, it is easy to connect the edge sections of adjacent sheets or edge sections of the same sheet to form a side seam. The aforementioned first and second planks may have an arcuate shape in the plane of horizontal section, which allows the use of such connecting elements for connecting in the circumferential direction two adjacent sheets folded into the tube one above the other in height of the well. The considered H-shaped connecting element can also be used to connect the edge sections of adjacent sheets simultaneously in the vertical and horizontal planes.

 In the case where the protective lining contains fixing means for fixing the lining elements relative to the inner side surface of the well, the stability and structural strength of the protective lining is increased.

 List of used drawings

 Figure 1 presents a General view of the protective lining according to the first embodiment of the invention; in FIG. 2 shows a general view of a connecting element having an H-shape in the plane of the cross section; Fig. 3 shows a fragment of a protective lining for a second embodiment of the invention; on Fig 4 presents a fragment of the protective lining according to the first and second variants of the invention with fixing means.

 The best embodiment of the invention

The protective cladding according to the first embodiment of the invention contains (Fig. 1) cladding elements 1 (in the drawing, the position indicates two cladding elements). The cladding elements 1 are made with the possibility of assembling from them a protective cladding having a tubular shape, the side surface of which is formed by at least one a number of facing elements 1 adjacent to each other in a direction that is circumferential relative to the longitudinal axis of the protective facing.

 The specified protective cladding is installed inside the sewer well, including a bottom 2 with a chute part 3, a side surface (walls) 4 formed by reinforced concrete rings, a conical upper ceiling 5 and the hatch body 6 with a cover 7.

 Facing elements 1 have geometric dimensions, allowing them to pass through the hatch body 6 when the cover 7 is open.

 The cladding elements 1, in particular, are made in the form of rectangular plates, while the protective cladding contains several rows of plates 1, which are in staggered rows in adjacent rows.

 The protective lining according to the second embodiment of the invention (FIG. 3) comprises at least one lining element 1 made in the form of a rectangular sheet made of an elastic flexible material capable of being rolled up or folded. The geometric dimensions of the sheet 1 are selected from the condition that it can pass through the hatch body 6 when folded into a roll or in a folded position with the lid 7 open.

 Sheet 1, folded into a tube, forms a protective lining having a tubular shape, which is installed inside the sewer well.

 In particular, the protective lining (FIG. 3) is formed by several sheets 1 (two sheets 1 are shown in FIG. 3), mounted one above the other along the height of the well.

 The protective cladding formed from the cladding elements 1, according to the first and second variants of the invention, is mounted near the walls 4 of the well with the formation of the mounting gap 8 (Fig. 3, 4) between the outer surface of the protective lining and the inner side surface of the well.

The space in the gap 8 can be filled with sealant, for example, concrete mortar or polymer with a hardener. The protective lining according to the first and second variants of the invention also includes fastening means 9 (Figs. 1, 2, 3, in Fig. 1, two fastening means are indicated).

 The indicated fastening means 9 are designed to connect the facing elements 1 to each other, as well as to connect the edge sections of the same facing element 1, made in the form of a sheet of elastic flexible material, to form a side seam.

 The fastening means 9, in particular, are made (FIG. 2, FIG. 3) in the form of connecting elements having an H-shape in the plane of the cross section, formed by the first and second parallel oriented strips 10 and 1 1 and the third bar 12 located between them oriented perpendicular to the inner surfaces of the first and second planks 10 and 11. The distance between the first and second planks 10 and 11 corresponds to the thickness of the cladding elements 1, made in the form of plates or in the form of a sheet.

 The protective cladding according to the first and second variants of the invention also contains fixing means 13, which ensure the fixing (rigid fastening) of the cladding element 1 to the inner side surface of the well.

 In particular, the fixing means 13 includes a fastener - a cracker (figure 4), made in the form of a hollow cylinder with a mushroom cap at one end and an annular shoulder on its side surface. The length of the cracker 13 from the cap to the flange corresponds to the thickness of the facing element 1 ,. and the length of the rest of the cracker 13 corresponds to the width of the mounting gap 8.

 In the facing element 1 according to the first and second variants of the invention, a through hole is made in the form of a keyhole, the lower part 14 of which is designed to accommodate part of the side surface of the cracker 13 located between the cap and the shoulder. In this case, the cracker 13 is made with the possibility of fastening it to the wall 4 of the well, in particular, using a fixing dowel 15.

In figure 1, the position denotes one made in the form of a cracker means of fixation 13. The upper part 16 of each through hole ("keyhole") is intended for injection of sealant into the gap 8. The diameter of the upper part 16 of the "keyhole" is the diameter of its lower part 14 and corresponds to the diameter of the annular collar of cracker 13. The upper parts 16 of the "keyhole" they are closed by means of plugs 17 (FIG. 4, in FIG. 1, one plug 17 is designated).

 The protective lining according to the first and second variants of the invention contains one or more facing elements 1 having a through slit (s) under the bracket (staples) located on the wall 4 of the well (not shown in the drawing).

 Repair of the sewer well and the protection of its inner side surface against corrosion using the protective lining according to the first and second variants of the invention is as follows.

 In the well shaft, the protective cladding of the inner side surface of the sewer well is installed using the cladding elements 1, made in particular in the form of rectangular plates or in the form of a sheet of elastic flexible material.

 Facing elements 1 are fed into the well shaft through the hatch body 6 with the lid 7 open.

 This eliminates the need for preliminary dismantling and subsequent installation of the upper floor 5 of the well and body 6 of the manhole with cover 7. It also eliminates the need for complex equipment and opening and subsequent restoration of the road surface in the repair area.

 In the facing elements 1, the location of which corresponds to the location of the brackets on the walls 4 of the well, make the necessary cracks for staples.

 Cladding elements 1 are interconnected in horizontal and vertical directions by means of connecting elements 9.

Carry out the fixation of the facing elements 1 relative to the walls 4 of the well using means of fixation 13, made in the form of crackers. In this case, a cracker 13 is inserted into the upper part of the 16 "lock 6

13

wells ”, and then lower the cracker 13 down and install it in the lower part of the“ keyhole ”14, providing a stubborn connection of the annular flange of the cracker 13 with the outer surface of the facing element 1. Fasten the crackers 13 to the wall 4 with dowels 15, which are shot using a pneumatic gun .

 The space in the gap 8 is filled with sealant with the formation of an airtight shell ("shirt"). In this case, with the help of a gun, injections of the sealant are carried out (under pressure) through the upper parts 16 of the “keyholes” made in the facing elements 1, after which these parts are closed with plugs 17. To prevent the sealant from flowing out through the slots (8 - 10 mm wide), which may be formed between the facing elements 1 during installation, these slots are sealed with T-shaped seals.

 In the presence of a tight “shirt”, the waterproofing of the well is improved, and the protective lining during operation additionally acts as an elastic static element that exerts pressure on the specified “shirt” and eliminates the effect of hydrostatic and osmotic pressures that arise on the inner surface of the walls of the well, which are without tubular protective lining can lead to the destruction of the specified tight "shirt".

 Industrial applicability

 The protective lining serves to prevent contact of the inner side surface of the well with wastewater, as well as aggressive media, and thereby protects the indicated surface of the well from corrosion.

 The main advantage of the claimed device according to the first and second variants of the invention is a significant reduction in material and labor costs for repair and restoration work.

 The invention can be used to repair sewer wells of any size and shape.

Claims

Claim

 1. A protective lining for repairing a sewer well, including lining elements designed to form a tubular-shaped protective lining mounted inside the well of its inner side surface, characterized in that the lining elements are configured to assemble a protective lining from them, the side surface of which is formed, according to at least one row of cladding elements adjacent to each other in a direction circumferential relative to the longitudinal axis of the specified protective cladding, p and that the covering elements have geometrical dimensions, which enable their passage through the hatch well.

 2.3 protective lining according to claim 1, characterized in that the cladding elements are in the form of rectangular, square or triangular plates.

 3. The protective lining according to claim 2, characterized in that the plates in the working position have an arched shape in the plane of the cross section, while the radius of curvature of the surface of the specified section is less than the radius of curvature of the inner side surface of the well.

 4. The protective lining according to claim 2, characterized in that it contains fastening means, each of which is made in the form of a connecting element having an H-shaped shape in the plane of the cross section, formed by the first and second parallel oriented strips and the third strip located between them oriented perpendicular to the inner surfaces of the first and second planks, the distance between the first and second planks corresponding to the thickness of the plate cladding element.

 5. The protective lining according to claim 1, characterized in that it contains fixing means for securing the lining elements relative to the inner side surface of the well.

6. A protective lining for repairing a sewer well, including at least one facing element, designed to form a tubular-shaped protective lining mounted inside the well of its inner side surface, characterized in that the facing element is made in the form of a sheet made of an elastic flexible material capable of being rolled up or folded, while the geometric dimensions of the sheet are selected from the condition that it can pass through the manhole in a rolled up or folded position .

 7. The protective lining according to claim 6, characterized in that it contains fastening means, each of which is made in the form of a connecting element having in the plane of the cross section an H-shaped shape formed by the first and second parallel oriented strips and the third strip located between them oriented perpendicular to the inner surfaces of the first and second planks, the distance between the first and second planks corresponding to the thickness of the plate cladding element

 8. The protective lining according to claim 6, characterized in that it contains fixing means for securing the lining element relative to the inner side surface of the well.