FI12181U1 - Inspection well for corrugated storm water pipes - Google Patents

Abstract

Inspection pit (10), characterized in that the inspection pit (10) has an upper part (20) and a lower part; the lower portion having a connecting element (30) for securing the corrugated stormwater pipes (50); the connecting element (30) being multi-faceted and the connecting element (30) having at one or more faces a connecting connection (40) for securing the corrugated stormwater pipe (50). In addition, protection requirements 2-9.

Description

Inspection well for corrugated stormwater pipes

Background of the Invention

BACKGROUND OF THE INVENTION The invention relates to inspection wells for corrugated stormwater pipes and their installation and fixing in a stormwater pipeline network.

The problem with the above arrangement is that the welding of the corrugated pipes to each other by welding in a position other than the parallel joint is a very time-consuming step, since the fitting of the corrugated pipes with the precision required for welding is a very demanding and time-consuming operation. In addition, there is a great deal of welding in existing solutions. Because welding a pipe damages the protective coating on the corrugated pipe, it is also known to replace the protective coating after each weld.

Brief Description of the Invention

The object of the invention is to develop a new product. The object of the invention is achieved by a product characterized by what is stated in the independent claim. Preferred embodiments of the invention are the subject of dependent claims.

In the solution shown, the manhole is mainly divided into an upper part and a lower part. The purpose of the top is to serve as an inspection path for the tube or tubes connected to the bottom. The top part is selected for the purpose appropriate for each purpose. A hollow tube of circular cross-section is usually best suited for the purpose. The tube may have other cross-sectional shapes, such as an elliptical, oval, angled rounded rectangle, square, angled rounded rectangle, angled-rounded square, polygon, or angled rounded polygon. The top may also be a conical or spherical or a combination of a hollow tube and a conical or spherical. Pipe materials, strengths, wall structures and pipe supporting structures are selected for each installation. The length of the pipe depends on where the pipe to be inspected passes in relation to the inspector. If the pipe to be inspected passes over the surface of the manhole, the upper part may be very short. If the pipe runs underground or under water, the top must be longer. An underground or submersible top is subjected to pressure from the surrounding mass to compress the upper. The higher the pressure, the better the pressure resistance at the top must be.

The lower part of the inspection pit is called the connecting element. At least one stormwater pipe to be inspected or inspected shall be connected to one or more joints of the coupling element. The connector according to the embodiment shown has a multi-faceted shape, and the connector has at least one facet joint to attach a corrugated stormwater pipe and a facet joint to attach the top.

The proposed solution facilitates the installation of an inspection well at the installation site, as much of the demanding work on the inspection wells can be performed at a more suitable manufacturing site, such as a factory. This leaves a much smaller amount of demanding and time-consuming work on the installation site, which is often more vulnerable to changing weather conditions. In the solution shown, the most demanding jobs are reduced in terms of total workload, since the solution shown does not require welding at least perpendicular corrugated pipes together.

According to one embodiment, a single facet of the joint element may have more than one joint. Such a structure allows solutions where more than one connection in the same direction or in the same direction is needed. Other connections may be used in addition to stormwater, for example for wiring, sampling, flow monitoring, or for some accessories.

According to one embodiment, the pipe to be attached to the coupling of the coupling element is fastened by the fastening elements. Such a solution is capable of reducing welding, which damages the coatings of the coated tubes. As a result, the patchwork of protective coatings is reduced.

According to one embodiment, the at least one junction member of the junction member contracts linearly or nonlinearly away from the junction member. In such embodiments, installation of the tube in its attachment position is accelerated because the tube is positioned more easily around the joint.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention will now be further described in connection with preferred embodiments, with reference to the accompanying drawings, in which:

Figure 1 is a top view of a manhole.

Fig. 2 shows a detail of Fig. 1 attaching a stormwater pipe to a linearly converging coupling with an attachment element.

DETAILED DESCRIPTION OF THE INVENTION

Figure 1 illustrates an inspection well 10. An inspection well 10 in the embodiment of Figure 1 is a top view, wherein the top 20 of the inspection well 10 "rises toward the viewer" and the connecting member 30 is below the top 20 ". The connecting member 30 in the illustrated embodiment is viewed from above. a rectangle comprising the side faces in four directions, but, viewed from above, there could be a suitable number of faces for each application starting from the three side faces symmetrically or asymmetrically. Each face has the appropriate number of interconnecting connectors 40 for each application.

In one embodiment of the connecting element 30, which in the illustrated embodiment is linearly tapered at an angle α, a stormwater pipe 50 is attached and the other connection 40 is provided with an upper part 20. In such embodiments, the pipe is fastened to its mounting position Further, the position of the tube with respect to the connecting element 30 is more adaptable or adjustable than when using connecting connectors 40 in which the connecting connector 40 does not shrink at all. The tapering of each junction 40 may be freely selected to suit each application, however, such that at least one junction 40 tapers at an angle α, i.e., a tapering angle α is greater than 0 degrees. For example, the linear sup-penema may be 0 to 10 degrees, whereby 0 degrees would mean that the junction 40 in question is not contracting at all. Preferably, the linear convergence angle α is 2 to 5 degrees. The coupling element 30 of the illustrated embodiment shows four coupling assemblies 40, however, there may be considerably more but at least two of them.

According to one embodiment, the at least one junction 40 of the junction member 30 tapers linearly or nonlinearly away from the junction member 30. It is essential for the converging couplings 40 that the opening of the coupling 40 is narrower in area than the hollow area of the cross-section of the pipe to be fastened when viewed from the mounting direction of the pipe to be fastened. One example of non-linear convergence is convex, particularly spherical. The bearing of the tube to be installed linearly away from the connecting element 30 to the converging connector 40 may be adjusted by some degrees to deviate from the perpendicular mounting while the joint formed remains sufficiently tight. The adjustment margin is affected by the magnitude of the linear convergence angle α: the larger the a, the more the adjustment margin is oriented. Adjustment of the bearing is necessary, for example, in cases where it is desired to mount the connecting element 30 horizontally and the stormwater pipes 50 to be mounted on the connecting element 30 are inclined according to the direction of flow of the water. On the other hand, the path of the stormwater pipes 50 may deviate completely from the straight one, so that the lateral bearing can be adjusted by the solution according to the embodiment. On the other hand, the connecting element 30 may be desired to be inclined in accordance with the direction of flow of water so that the upper part 20 of the inspection well 10 to be installed The direction of the pipe to be mounted in the spherical joint 40 may be significantly more adjustable with respect to the pipe to be installed in the linearly converging joint 40 while maintaining the joint sufficiently tight. In the spherical joint 40, the radius of curvature r of the spherical shape is approximately equal to the inside radius of the pipe to be attached to the joint 40 in question. In each case, the radius of curvature r may be equal to or greater than the inner radius of the pipe to be attached.

According to one embodiment, one or more junctions 40 of the junction member 30 taper linearly or nonlinearly toward the junction member 30. In such embodiments, the pipe to be installed enters the joint 40. The junction 40 in this embodiment is particularly suitable for junctions 40 through which stormwater flows toward the junction member 30, since in these cases the flowing water will expose the junction 40 and the junction of the stormwater pipe 50 to less stress due to water flow and possibly less transported by water. easily into the gap between the joint 40 and the stormwater pipe 50. In the case of the coupling 40 according to this embodiment, the installation of the pipe in its place to be fastened is also accelerated because the pipe is more easily positioned inside the coupling 40 due to the wider opening of the unjoint (tapering angle α = 0 degrees). Further, the position of the tube with respect to the connecting element 30 is more adaptable or adjustable than with connecting connections 40 in which the connecting connection 40 does not shrink at all (tapering angle α = 0 degrees). The bearing of the tube to be mounted linearly to the connecting element 30 at the converging connection 40 may be adjusted by some degrees to deviate from the perpendicular installation while the joint formed remains sufficiently tight. The adjustment margin is influenced by the magnitude of the linear convergence angle α: the larger the a, the more adjustment margin in the direction of orientation. Adjustment of the bearing is necessary, for example, in cases where it is desired to mount the connecting element 30 horizontally and the stormwater pipes 50 to be mounted in the connecting element 30 are inclined in accordance with the direction of water flow. On the other hand, the path of the stormwater pipes 50 may deviate completely from the straight one, so that the lateral bearing can be adjusted by the solution according to the embodiment. On the other hand, the connecting element 30 may be desired to be inclined in accordance with the direction of flow of water so that the upper part 20 of the inspection well 10 to be installed in the linearly converging connection 40 can be mounted in a non-perpendicular position to the connecting element 30. In the joints 40 converging to the joint element 30, it is essential that the mouth of the joint 40 is larger in relation to the installation direction of the pipe to be fastened than the cross-sectional area of the pipe to be fastened.

For example, the tapering angle α of the tapered joint 40 towards the connecting element 30 may be 0 to 10 degrees, preferably the tapering angle α to the connecting element 30 would be 2 to 5 degrees.

One example of non-linear convergence is convex, particularly spherical. The bearing of the pipe to be mounted on the spherical joint 40 may be significantly more adjusted to the pipe to be mounted on the linearly converging joint 40, keeping the joint sufficiently tight. In the spherical joint 40, the radius of curvature r of the spherical shape is more than the outer radius of the pipe to be attached to the joint 40 in question. The radius of curvature r can be considerably much larger than the outer radius of the pipe to be attached. For example, the radius of curvature r may be 1-10% greater than the outer radius of the pipe to be attached. Preferably, the radius of curvature r is 3 to 5% greater than the outer radius of the pipe to be attached.

The diameter of the upper portion 20 of the inspection pit 10 above the connecting element 30, i.e. facing the viewer, towards the viewer 40 is smaller than the other connecting connections 40 shown in the embodiment, but could also be equal or larger. At most, the joint 40 may not be larger than the area of the Tahko to which it is fitted. At its smallest, the joint 40 is a few millimeters in diameter. An example of a sensor using a very small junction 40 is a temperature sensor. In addition, the coupling connections 40 may have different cross-sectional shapes. No junction 40 of any junction member 30 need to be of the same size or shape as another junction 40 of the junction member 30 in question. What is essential is the uniform shape with the coupling 40 and the pipe, conduit, sensor, etc. to be attached to the coupling 40.

Fig. 2 illustrates, by way of example, a detail of the use of the fastening element 60 for fastening the coupling 40 of the coupling element 30 according to the embodiment of Fig. 1 and the stormwater pipe 50 attached thereto. In this embodiment, the fastening element 60 is a bolt, fitting plates of suitable shape for the objects to be fastened, and a nut. In each case, depending on the materials used and the applications, the fastening element 60 may be, in addition to or instead of the bolt, a screw, nail, rivet, solidifying mass such as glue, epoxy resin, welding, spot welding or threading or other suitable fastening element 60 such as shrink.

According to one embodiment, the connecting element 30 is spherical. The material of manufacture of the connecting element 30 as well as the wall panel and the frame structure can be selected having regard to the conditions of each application. By casting and 3D printing, it is possible to seamlessly complete for each application a joint element 30 comprising all the required jointing means 40. The ball has a shape that is highly resistant to the surrounding ground pressure, allowing lighter structures to be selected with respect to the wall structure and material.

It will be obvious to a person skilled in the art that as technology advances, the basic idea of the invention can be implemented in many different ways. The invention and its embodiments are thus not limited to the examples described above, but may vary within the scope of the protection claims.

List of Reference Numbers:

Inspection well 10

Top 20

Connecting element 30

Connector 40

Corrugated stormwater pipe 50

Mounting element 60

Convergence angle a

Claims (9)

protection Requirements 1. Inspektionsbrunn (10), kännetecknad av att inspektionsbrunnen (10) omfattar en övre del (20) och en nedre del; den nedre delen omfattar (30); a tooth element (30) for fästande av veckade dagvattenrör (50); the tooth element (30) being polyeder and the tooth element (30) en eller flera sidor ingår et anslutningsstycke (40) for fästande av det veckade dagvattenröret (50). Inspection pit (10), characterized in that the inspection pit (10) has an upper part (20) and a lower part; the lower portion having a connecting element (30) for securing the corrugated stormwater pipes (50); the connecting element (30) being multi-faceted and the connecting element (30) having at one or more faces a connecting connection (40) for securing the corrugated stormwater pipe (50). 2. Inspektionsbrunn (10) enligt skyddskrav 1, a rotation knob (30) en eller flera sidor ingår mer an ans ansningsstycke (40). Inspection pit (10) according to the protection claim 1, characterized in that one or more facets of the connecting element (30) have more than one connecting connection (40). 3. Inspektionsbrunn (10) enligt skyddskrav 1 eller 2, a rotary cuff (30) omfattar et anslutningsstycke (40) fänstande av inspektionsbrunnens övre del (20). Inspection pit (10) according to claim 1 or 2, characterized in that the connecting element (30) has a connecting connection (40) for securing the upper part (20) of the inspection pit. 4. Inspektionsbrunn (10) enligt något av de föregående skyddskraven, kännetecknad av att inspektionsbrunnens (10) övre del (20) up to sin diameter et runt rör. Inspection pit (10) according to one of the preceding claims, characterized in that the upper part (20) of the inspection pit (10) has a circular cross-section. 5. Inspektionsbrunn (10) enligt något av de föregående skyddskraven, kännetecknad av att röret som fästs vid fogelementets (30) anslutningsstycke (40) fästs vid anslutningsstycket (40) med fästelement (60). Inspection pit (10) according to one of the preceding claims, characterized in that the pipe to be attached to the connection (40) of the connection element (30) is fixed to the connection connection (40) by means of fastening elements (60). 6. Inspektionsbrunn (10) enligt skyddskrav 5, kännetecknad av att fästelementen (60) bultar, screw, nitar eller spikar. Inspection pit (10) according to Claim 5, characterized in that the fastening elements (60) are bolts, screws, rivets or nails. 7. Inspektionsbrunn (10) enligt något av de föregående skyddskraven, kännetecknad av att anslutningsstycket (40) i respektive fogelements (30) sida anordnat att fåsta mot den inre eller den yttre ytan av röret som ska fästas. Inspection pit (10) according to any one of the preceding claims, characterized in that the connection fitting (40) at each face of the connecting element (30) is arranged to be mounted against the inner or outer surface of the pipe to be attached. 8. Inspektionsbrunn (10) the nozzle element (30) is mounted on the tooth element (30) and the rotating element (30) is mounted on the teeth (30). Inspection pit (10) according to one of the preceding claims, characterized in that the at least one junction (40) of the junction element (30) converges linearly or non-linearly away from the junction element (30). Inspection pit (10) according to the protection claim 1-7, characterized in that the at least one junction (40) of the junction element (30) converges linearly or non-linearly with the junction element (30). Skyddskrav 9. Inspektionsbrunn (10) enligt skyddskrav 1-7, tilting the nuts av att åtminstone to the teeth (30) anslutningsstycke (40) avsmalnar liner to the elliptical line (30).