Classifications

• • E—FIXED CONSTRUCTIONS
  • E02—HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
  • E02D—FOUNDATIONS; EXCAVATIONS; EMBANKMENTS; UNDERGROUND OR UNDERWATER STRUCTURES
  • E02D29/00—Independent underground or underwater structures; Retaining walls
  • E02D29/12—Manhole shafts; Other inspection or access chambers; Accessories therefor
  • E02D29/14—Covers for manholes or the like; Frames for covers
  • E02D29/149—Annular gaskets
• • E—FIXED CONSTRUCTIONS
  • E02—HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
  • E02D—FOUNDATIONS; EXCAVATIONS; EMBANKMENTS; UNDERGROUND OR UNDERWATER STRUCTURES
  • E02D29/00—Independent underground or underwater structures; Retaining walls
  • E02D29/12—Manhole shafts; Other inspection or access chambers; Accessories therefor
  • E02D29/14—Covers for manholes or the like; Frames for covers
• • E—FIXED CONSTRUCTIONS
  • E02—HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
  • E02D—FOUNDATIONS; EXCAVATIONS; EMBANKMENTS; UNDERGROUND OR UNDERWATER STRUCTURES
  • E02D29/00—Independent underground or underwater structures; Retaining walls
  • E02D29/12—Manhole shafts; Other inspection or access chambers; Accessories therefor
  • E02D29/14—Covers for manholes or the like; Frames for covers
  • E02D29/1445—Tools for positioning or removing cover frames

Definitions

• the present invention relates to manholes and the like.
• the present invention relates to a contact member adapted to be positioned at least partially between the cover and the frame of a manhole.
• Manhole structures and other relevant structures comprise a cover and a frame, i.e. the end portion of the pipe or tube, which is supposed to receive the cover.
• a massive polymer member may be positioned between the cover and the frame to adjust for the deviation between the outer diameter of the cover and the inner diameter of the frame.
• the cover and the frame are typically prepared from cast iron and the exact dimensions may therefore vary dependent on process parameters during manufacturing, such as e.g. composition, cooling program, wear state of mould, etc.
• the flexibility and compressibility of a massive polymer member is limited, which leads to a small tolerance.
• a tedious and costly process control must therefore be used during manufacturing of the cover and the frame to ensure that these are within the dictated tolerance. There is hence a need for a way to reduce the tolerance requirements of the cover and the frame.
• a contact member for a manhole structure and the like adapted to be positioned at least partially between a cover of the manhole and a frame of the manhole, wherein a cross-section of the contact member comprises a first side adapted to form contact to the frame of the manhole structure, a second side adapted to form contact to the cover of the manhole structure, and a compartment open to the outer surface of the contact member.
• the compartment is positioned between the first side and the second side of the contact member.
• a contact member of this type is typically formed as a closed loop, but other embodiments are also feasible, examples being plate- or box-shaped contact member and unclosed loops or lengths of contact member.
• a closed loop contact member need not be round but may e.g. also be triangular, quadrangular, rectangular or in any other way follow the shape of the cover and/or the frame.
• Manhole structure and the like or just manhole structure is herein meant to include a wide range of structures similar to manholes, such as structures for flushing manholes, stop cocks, drains and other inspection or access chambers etc.
• Such structures typically have cover diameters in the range of 100 to 800 mm or even larger such as up to 1000 mm, 1200 mm or even 1500 mm.
• the dimensions may also vary considerably and typically at least one dimension is in the order of 100 to 1500 mm. These dimensions represent the preferred sizes of covers, but structures with larger or smaller cover dimensions are feasible and may benefit from the present invention.
• the present invention is most advantageous for structures with covers of dimensions in the order of 100 to 800 mm.
• first side adapted to form contact to the frame of the manhole structure is not limited to the whole of the first side being such adapted.
• the term is intended to also include situations where only a part of the first side is such adapted. The same considerations apply equivalent ⁇ with regard to the second side.
• the positioning of the compartment between the first side and the second side of the contact member is to provide for a smaller wall thickness of the contact member in at least a fraction of the sections, which is to form contact to the cover and/or the frame.
• the contact member according to the invention will allow for higher tolerance of the cover and/or the frame dimension than the prior art.
• the depth of the compartment(s) may therefore be deeper than, shallower than or equivalent to the expected contact area at the first side or the second side of the contact member.
• the compartment is preferably open either towards to the outer surface of the manhole structure or away from the outer surface of the manhole, but of these orientations it is most preferred that the compartment is open towards the outer surface of the manhole, since this allows for a filling material to be easily introduced into the compartment (see below).
• the orientation of the opening of the compartment away from the outer surface of the manhole is particularly advantageous when the contact member is fixed to the frame prior to the connection to the cover.
• the first side and the second side are in flexible communication with each other whereby the distance between a point on each of the sides may be changed by biasing one or both of the sides.
• the flexible communication should be understood as connected but not necessarily directly to one another, whereby at least part of one of the sides may flex relative to the other side. If a wedge-shaped orientation between at least parts of the first side and the second side is provided in the unbiased state, and the compartment is positioned between the sides, then a substantial variation in the distance between the sides of contact member may be realised by flexing one or both of the sides (or part of the side(s)). Since the distance between the sides of the contact member corresponds to the effective size of the contact member, a higher tolerance towards the dimensions of the cover and/or the frame may also be realised through such flexing.
• the biasing is typically realised by biasing at least a part of one or both sides towards each other in the section near the compartment, and the direction of the biasing is usually orthogonal to the longitudinal direction of the compartment. Hence, it is preferred that the biasing is in a direction substantially orthogonal to the first side of the contact member as this direction is advantageous in being the easiest direction to bias the sides.
• the compartment(s) is adapted to receive a filling material to at least temporarily fix the relative positioning of the first side relative to the second side. It is advantageous to be able to introduce a filling material into the compartment as this may fix or lock the movement/flexing of the sides. Hence, the filling material may prevent or at least reduce the tendency of the cover to loosening relative to the frame gradually over a period of time or suddenly at an undesired time.
• the adaptation may e.g.
• the typical as-manufactured properties will provide adequate properties and hence further adaptation may not be needed.
• Vibration and/or noise may arise upon impact on a manhole structure, such as when a car rolls over the cover of the manhole. Therefore, it is desirable to reduce the source of such vibration/noise and/or the transfer of vibration/noise between the frame and the cover.
• a damping means which may e.g. work through one or more of: Preventing permanent or temporary direct metal-metal contact between the cover and the frame; locking the cover in the horizontal plane (e.g. by biased flexibility of one of more of the sides of the contact member); and locking the cover in the vertical direction or at least prevent vertical banging of the cover optionally including the contact member into the frame.
• such a damping means is integrated into the contact member whereby a simple and multifunctional contact member is realised.
• the frame and the cover are made of cast iron. Since different types and in some cases even different batches of the same type of cast iron may have different corrosion potential, galvanic corrosion may take place upon direct contact between such parts.
• the contact member consists of an isolating material or at least no conducting connection may be realised through the contact member. In this embodiment it is e.g. not desired to use a material, which is reinforced with carbon fibres as carbon fibres are electrically conducting unless an isolating coating is provided on the contact member.
• the contact member is shaped and/or adapted to be positioned to prevent direct contact between the cover and the frame. Such shaping may e.g.
• the present invention provides another advantage by possible sealing action provided by the sides if biased towards the frame and the cover, respectively. Hence, water and dirt, such as sodium chloride, is prevented from entering the space between the cover and the frame except into the compartment, where no direct contact with the cover or the frame is possible.
• the contact member, cover and frame may be provided in several different orders dependent on the actual geometry and properties of the elements.
• the frame may be provided first, then the contact member and finally the cover.
• Another example is to provide the frame first, then the cover and finally the contact member.
• the filling material may be many different materials.
• the filling material is simply dirt supplied over time from the environment to the compartment.
• a dedicated filling material is applied.
• the filling material may be anything having a rigidity greater than air, introduction of such material would lead to decrease in the flexibility of the sides of the contact member.
• the filling material is of a relatively stable shape and preferred examples are therefore particulate material such as sand, gravel, clay, or a polymer-based material.
• thermosetting polymers are preferred, examples of usable polymers are polyesters, epoxies, silicones, rubbers, etc.
• the polymer-based material is self-curing, however, other types of curing are also feasible.
• the choice of filling material should reflect if the filling of the compartment is supposed to be permanent or only temporary. This typically corresponds to the cover of the manhole being closed permanently or only temporarily. If a temporary filling is desired, it is preferred that the filling material may be removed from the compartment either before removing of the cover or after removing of the cover but before re-closing of the manhole if re-closing is desirable.
• a polymer-based material is used as filling material and the material may be removed in one piece, i.e. when it is loosened in one place it may be removed by pulling the material. This may be facilitated by the cured polymer being relatively flexible and hence capable of deforming elastically during removal from the contact member.
• a compressible material is provided to the compartment for example during the manufacturing of the contact member, shortly after manufacturing of the contact member or at a later stage.
• a compressible material will mainly become compressed when being stressed and will only expand very limited in the transverse direction according to Poisson ratio.
• the compressible material will therefore prevent or reduce introduction of unwanted material into the compartment during the first stages of preparation of the manhole structure without detrimentally influencing the flexibility of the sides of the contact member or the vertical height of the contact member.
• the compressible material may either be removed or - preferably - it is transferred to a more rigid state, in which state the former compressible material at least temporarily fixes the relative positioning of the first side and the second side of the contact member.
• Such a material is a foam or a cell-structure comprising an at least partially uncured resin, which may be cured upon e.g. heating, radiation (e.g. by UV-light) or addition of a reagent.
• a foam or a cell-structure comprising an at least partially uncured resin, which may be cured upon e.g. heating, radiation (e.g. by UV-light) or addition of a reagent.
• Another example is an open structured material, which may be filled with a thermosetting polymer and afterwards cured.
• the filling material comprises open pores
• water is a particular concern, as water in the filling material, such as water in a dirt filling material, will expand upon freezing.
• an expansion of the filling material should expand the compartment and hence increase the locking force exerted by the sides of the contact member to the cover and frame, which is desirable as long as the force does not extend beyond the strength of the materials.
• the compartment is relatively small compared to the size of the frame, the cover and the contact member, the contribution from freezing water should typically not exceed the strength of the other materials.
• the contact member is fixed to either the cover or the frame before the preparation of the closed manhole.
• fixed is herein meant that the freedom to move is considerably reduced. In some preferred embodiments, the reduction of freedom to move relative to where it is fixed is so pronounced that the fixed parts are practically speaking locked to each other.
• the contact member may be fixed to the cover or the frame by chemical means (e.g. by adhesion or by the material of the contact member reacting with the element whereto the contact member is fixed), by mechanical means (e.g. on a micro scale, such as e.g. related to surface roughness, or on a macro scale, such as a combination of protrusions and/or recesses) or a combination of mechanical and chemical means. It may be advantageous that the contact member is fixed to either the cover or the frame, since this allows for a faster preparation of the closed manhole and reduces the risk of misalignment of elements as less individual elements are used. The advantage of using the contact member according to the invention is therefore enhanced further by fixing the contact member to the cover or the frame.
• the contact member is fixed to the cover, as this typically allows for easy access to introduce filling material into the compartment of the contact member.
• contact member it is preferred to prepare contact member according to the invention by moulding.
• the contact member may be moulded as a separate part or directly onto the cover or the frame. If the contact member is to be fixed to the cover or the frame, moulding of the contact member directly onto this element is a preferred way to enhance fixation by mechanical means on a micro scale. It is particularly advantageous to mould the contact member onto the element to which it is to be fixed if the material of the contact member has a relatively low flexibility, such as many polyurethane-based polymers. If the material has a higher flexibility, the contact member may be moulded as a separate part and afterwards connected to the other element to which it is to be fixed.
• the contact member may comprise a wide range of materials, but polymer-based materials are preferred. Particularly materials or mixtures, which are suitable for shaping by moulding, are preferred, as moulding is the preferred method of preparation. Most of the applications for contact member according to the invention involve tough environments and it is therefore preferred that the material is relatively durable. Most preferred materials are polyurethane-based, rubber-based and chloroprene-based materials.
• the contact member may be reinforced by e.g. fibre materials, such as glass fibres, carbon fibres, aramide fibres or natural fibres (e.g. hemp, etc.), or by particulate reinforcement, such as mineral particulates like e.g. quarts, Al 2 0 3 , etc.).
• fibre materials such as glass fibres, carbon fibres, aramide fibres or natural fibres (e.g. hemp, etc.), or by particulate reinforcement, such as mineral particulates like e.g. quarts, Al 2 0 3 , etc.
• Contact members according to the invention are particularly useful for a number of objects including:
• Sealing may e.g. arise based on the biasing action between the sides of a contact member positioned between a cover and a frame.
• a reduction of wear of the cover and/or the frame may e.g. arise through prevention of direct sliding contact between the cover and the frame.
• Vibration damping and electrical isolation as well as allowing for higher tolerances on cover and/or frame dimensions are discussed elsewhere.
• a need for absorption of tension or stress may e.g. arise due to a difference in thermal expansion coefficient, E- modulus, etc. of the cover, frame and/or contact member. Dependent on the exact used embodiment, these uses may arise individually or in various combinations.
• Fig. 1 shows cross-sections of two examples of contact member according to the invention
• Fig. 2 shows a closed loop contact member
• Fig. 3 shows different distributions of compartments
• Fig. 4 shows different cross-sections of compartments
• Fig. 5 shows cross-sections of contact members fixed to a cover or a frame
• Fig. 6 shows a cross-section of a contact member mounted in a manhole structure
• Fig. 7 shows a cross-section of a manhole structure wherein the contact member and the frame are provided with corresponding frame-locking means and contact-member- locking means, and
• Fig. 8 shows a cross-section of a manhole structure wherein the contact member is fixed to the cover by macro mechanical means. All the figures are highly schematic and not necessarily to scale, and they show only parts which are necessary in order to elucidate the invention, other parts being omitted or merely suggested.
• a simple contact member according to the invention is provided.
• the contact member has a first side 4 adapted to be connected to a cover and a second side 6 adapted to be connected to the frame.
• the sides are oriented in a slightly wedge-like fashion and particularly the upper part of the second side 6 on the level of the depth of the compartment 8 is bent away from the first side 4. Thereby a larger tolerance of the dimension of the cover and the frame is allowed.
• the contact member in the right part of Fig. 1 is further equipped with a foot or tongue at the bottom for example suitable for supporting the bottom of the cover. This may be advantageous in ensuring that the contact member is fitted right to the bottom of the cover and hence forcing the contact member to be fully inserted during application of the contact member.
• Both of the contact members in Fig. 1 may advantageously further comprise mechanical means for fixing the contact member to the cover e.g. as shown schematically in Fig. 8.
• a closed loop contact member corresponding to the contact member shown in the right part of Fig. 1 is shown.
• the foot or tongue shown in Fig. 1 is also vaguely visible on the inside of the loop.
• compartment 8 consists of one continuous long slot.
• a contact member with one continuous compartment is a preferred embodiment, as this design is simple to manufacture and advantageous in providing very uniform length-wise compression and/or flexibility properties of the contact member.
• Examples of other preferred types and distributions of compartments of which some are shown in Fig. 3 include: - A plurality of bores or holes (Fig. 3A), preferably not extending through the contact member, which may be advantageous if the filling material is introduced permanently, as removal is tedious and should not happen accidentally.
• - A number of shorter slots which may be positioned: - end to end separated by a relatively thin wall (Fig. 3B), which ensures a highly flexible contact member wherein the filling material in one compartment (and hence the locking force exerted by this compartment) is not influenced by the other compartments, - end to end separated by a longer wall (Fig. 3C), which results in a less flexible but more stable contact member, or - partially side by side (Fig. 4D), e.g. spiralling inward or outward, which may be advantageous as the distance between the first side and the second side may be adjusted temporarily by shearing the sides relative to each other.
• - Longer slots extending between 1/10 to 1/3 or even more of the length of the contact member, such as more than 1/5 of the length of the contact member, which may be advantageous in allowing some redistribution along the length of the contact member within one compartment.
• Fig. 4 The shape of the cross-section of the compartment(s) may vary particularly dependent on the filling material being introduced permanently or not.
• Fig. 4A shows a V-shaped and hence very open compartment.
• a strict geometrical shape, such as V-shape or parallel edges, is advantageous if a tool is to be used for the removal of the filling material.
• an edge of the tool may be equipped with a tooth of similar shape and the filling material may be removed by sliding this tooth along the length of the compartment.
• Fig. 4B shows a bracket-like compartment.
• Fig. 4C is a variation of Figs. 4A and B where the V-shaped compartment is equipped with arms to secure the filling material.
• Fig. 4D the open end of the compartment is rounded, which may facilitate removal of filling material.
• the bottom of the compartments is preferably closed even though the bottom may be equipped with holes through the manhole structure, if this is desired. Furthermore, the bottom may be rounded or have sharp edge(s).
• Fig. 5 cross-sections of contact members 2 are seen. In Fig. 5 left, the contact member 2 is fixed to the cover 12 at the first side 4 to form one unit, which is easier to transport and faster to apply.
• the compartment 8 is open towards the surface of the manhole as shown in Fig. 2, as this allows for a filling material to be easily introduced into the compartment after positioning the combined cover and contact member in the desired position relative to the frame.
• the compartment is oriented away from the surface of the manhole frame if the contact member is fixed to the frame as this allows for better use of the flexibility if biasing the walls of the contact member.
• An example of this orientation is shown in Fig. 5 to the right.
• a cross-section of the contact member fixed to the cover 12 shown in Fig. 5 is shown fully mounted to form a manhole 10.
• the sides 4, 6 will exert a force on the cover 12 and the frame 14 and may in that way actually form a seal to prevent matter to pass into or from the manhole via the space between the cover and the frame.
• a filling material 20 has been provided in the compartment 8. If the filling material is rigid or incompressible, it should prevent the cover from moving or from being completely removed as long as the filling material 20 is in the compartment 8. The locking is further enhanced in that the bottom of the compartment being wider than the opening in the installed biased position.
• FIG. 7 an embodiment utilising another - or optionally additional - fixing method is shown.
• the cross-section shows that the contact member is equipped with a frame locking means 26, which interacts with a corresponding contact-member-locking means on the frame.
• a similar set of locking means may equivalently be provided on a set of corresponding contact member and cover.
• the frame-locking means is biased during installation and snaps in contact with the contact-member-locking means when the final desired position is reached.
• the side of the contact member may or may not be biased dependent on the desired properties of the connection. However, it is preferred that the side is at least slightly biased in the final position to enhance the locking of the cover.
• the corresponding sets of locking means 26, 28 need not be provided along the full length of the contact member.
• the contact member may e.g. be equipped with only few sets of locking means of short length; a larger number of sets of locking means or sets of locking means having an extended length; or one set of locking means extending substantially the full length of the contact member.
• FIG. 8 another embodiment of a contact member with a frame locking means is shown.
• Fig. 8 further shows an example of means 30 for mechanically fixing of a contact member to a cover.
• Such means or set of means may advantageously be utilised when the contact member is not moulded directly onto one of the frame and cover.
• the design of such means may vary considerably and a person skilled in the art would easily derive a range of usable designs based on the disclosure in Fig. 8.
• Contact-member-locking means 30 Means for mechanically fixing of a contact member to a cover

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• Engineering & Computer Science (AREA)
• Environmental & Geological Engineering (AREA)
• Life Sciences & Earth Sciences (AREA)
• General Life Sciences & Earth Sciences (AREA)
• Mining & Mineral Resources (AREA)
• Paleontology (AREA)
• Civil Engineering (AREA)
• General Engineering & Computer Science (AREA)
• Structural Engineering (AREA)
• Underground Structures, Protecting, Testing And Restoring Foundations (AREA)
• Finger-Pressure Massage (AREA)
• Absorbent Articles And Supports Therefor (AREA)
• Adornments (AREA)
• Mutual Connection Of Rods And Tubes (AREA)
• Clamps And Clips (AREA)
• Shafts, Cranks, Connecting Bars, And Related Bearings (AREA)

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• 2003
  • 2003-12-05 AU AU2003304603A patent/AU2003304603A1/en not_active Abandoned
  • 2003-12-05 EP EP03819110A patent/EP1702115B1/fr not_active Expired - Lifetime
  • 2003-12-05 AT AT03819110T patent/ATE468440T1/de not_active IP Right Cessation
  • 2003-12-05 DE DE60332666T patent/DE60332666D1/de not_active Expired - Lifetime
  • 2003-12-05 DK DK03819110.2T patent/DK1702115T3/da active
  • 2003-12-05 WO PCT/IB2003/005686 patent/WO2005056931A1/fr not_active Ceased
• 2006
  • 2006-06-13 NO NO20062768A patent/NO333214B1/no not_active IP Right Cessation

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