Patent Application
20130299034
The object of the invention is a conveying pipe part, as defined in the preamble of claim 1, of a pneumatic material conveying system, more particularly of a conveying system for wastes, which conveying pipe part comprises a wall, which is formed from at least two layers, at least the first one of which is a plastic material layer and extends to the outer surface of the pipe part.
The object of the invention is also a method as defined in claim 9 for forming a pipe joint of the conveying piping of a pneumatic material conveying system, more particularly of a conveying system for wastes.
In connection with pneumatic material conveying systems metal pipes are often used in the conveying piping. Particularly in large systems, in which the conveying distances of the material are long, the conveying pipings, more particularly the trunk pipings, can, in terms of their length, be formed into quite long, typically a number of kilometers long, conveying pipings. The pipe diameters of the conveying pipings of prior-art systems are quite large, in the region of 300-800 mm, in which case the costs of piping formed from metal pipes are rather high.
Efforts have been made to reduce these costs by forming material conveying pipings from plastic or from plastic composite material. Material that sets requirements for the wear-resistance of pipe parts is often conveyed in pneumatic material conveying systems. More particularly in pneumatic systems intended for conveying waste, materials that set their own requirements for the wear-resistance of the conveying piping are often transported. Such materials are e.g. glass, sand and corresponding materials. The parts of a pipe that are susceptible to wear are e.g. pipe elbows or separate points of connection. It has also been observed that the wearing of plastic material on the inside surface of a pipe increases when the temperature of the pipe increases e.g. from friction, such as when the material to be conveyed hits the inside surface of the pipe, or owing to external conditions.
In addition, there is often a need to achieve different radii of curvature in a conveying pipe. In pipe parts manufactured from plastic material or from plastic composite material, heat treatment of the pipe part is required so that the pipe part remains in the bent shape. Heat treatment possibilities are very limited or even impossible, especially in installation conditions. When bending a pipe there is also the danger that the pipe bends such that the size or shape of the flow aperture of the pipe changes in an undesirable way, which especially in pneumatic conveying pipings intended for waste transport can adversely affect the operability of the system.
In conveying pipings, particularly those formed from plastic pipes or from plastic composite pipes, bushing joints can be used generally for joining different pipe parts end-to-end to each other. The point of connection is placed into the bushing, i.e. into the sleeve part, such that the ends of the pipe parts to be connected together are inside the bushing and the bushing is thus around the point of connection extending in the longitudinal direction of the pipes some distance from the point of connection in both directions. The bushing part or the section to be connected of the pipe part is provided with thermal resistors or corresponding, in which case when forming the joint electric current is conducted to the resistors, in which case the resistors heat up and a joint is formed between the sleeve part and the pipe parts. Thermoplastic pipe joints of the type described above are described e.g. in the publications U.S. Pat. No. 2,739,829, U.S. Pat. No. 4,530,521 and U.S. Pat. No. 4,906,313.
Also other plastic welding methods, according to the target of application, can be used for joining pipes. Typical weldable plastics are e.g. polyethylene (PE) and polypropylene (PP). When welding plastic the pieces (and the possible filling agent) are first heated to a certain welding temperature specific to the plastic type. Welding occurs when the material cools under the influence of a welding pressure. For example, in butt welding two plastic pipe parts are welded together by first heating the cleaned ends of a pipe against a hot plate and by pressing them immediately together. The welding pressure is usually maintained hydraulically. The pipes to be butt-welded can also be quite thick (e.g. 800 mm), in which case the pressures and compression times to be used for the welding are correspondingly long. In hot-air welding the plastic pieces are fixed together by heating them with hot air and by supplying filler wire to the heated spot. Hot-air welding is used e.g. in the repair work and connection work of the outer shells (typically of polyethylene) of district-heating pipes. In extruder welding the plastic pieces are fixed together as in hot-air welding, but instead of welding wire the filling agent is the filler mass formed by the extruder device. Extruders usually make the filler mass from welding wire, sometimes also from plastic granules. With an extruder a thicker welded seam is achieved than with hot-air welding.
The purpose of this invention is to achieve a completely new type of solution for a pipe joint, by means of which the problems of prior-art solutions can be avoided. One important aim is to achieve a pipe joint solution applicable to the conveying pipings of pneumatic waste transporting systems. Yet another aim is to achieve a solution for conveying piping, which is formed mainly from plastic material or from plastic composite material, by means of which solution the drawbacks of the state of the art are avoided. One aim is to achieve a pipe part, which can be bent, even in installation conditions, into the desired shape and the joining of which can be performed easily also in a plastic composite pipe or a plastic pipe. Another aim is to achieve a pipe part, which is suited for use, in terms of its wear-resistance properties, in the conveying pipings of pneumatic conveying systems for waste material.
Yet another aim is to achieve a solution for joining together the pipe parts of conveying piping, in which joining the most typical joint welding methods or gluing of plastics, more particularly of plastic pipes, can be used.
The invention is based on a concept in which the pipe part comprises a combination containing a metallic reinforcement part, such as a steel pipe, on top of which a tubular plastic composite layer or a plastic layer is arranged. The pipe part is connected to a second pipe part by joining the plastic parts or plastic composite parts to each other directly or via a sleeve part with a plastic welding method or by gluing.
The conveying pipe part according to the invention is characterized by what is stated in claim 1.
The pipe part according to the invention is also characterized by what is stated in claims 2-8.
The method according to the invention is characterized by what is stated in claim 9.
The method according to the invention is also characterized by what is stated in claims 10-12.
The solution according to the invention has a number of important advantages. By forming the pipe part to comprise a combination containing a metallic reinforcement part, such as a steel pipe, on top of which a tubular plastic composite layer or a plastic layer is arranged or which reinforcement part is arranged inside a plastic composite layer or a plastic layer, a pipe part with good shape retention and bendability is achieved. The joining of a pipe part according to the invention end-to-end to each other or to a plastic composite pipe or to a plastic pipe is extremely simple and fast, and the joint can further be performed by forming a joint just between the plastic composite layer or the plastic layer of the different pipe parts. The steel pipes that are reinforcement are not welded end-to-end to each other because the plastic joint surface is so thick, in which case the joint is formed to be of sufficient strength. The joint can be formed by using a bushing, i.e. a sleeve part, which is disposed on the point of connection between the pipe parts such that the ends of the pipe parts to be joined together are inside the bushing and the bushing is thus around the point of connection extending in the longitudinal direction of the pipes some distance from the point of connection in both directions. The bushing part is provided with thermal resistors or corresponding, in which case when forming the joint electric current is conducted to the resistors, in which case the resistors heat up and a joint is formed between the bushing part and the plastic or plastic composite material of the pipe parts. The joint can also be formed by welding the different pipe parts to each other with a plastic weld at the surface layer, said surface layer being of plastic or of plastic composite. By using a tubular part as the reinforcement part, which tubular part forms the inside surface of the pipe part, the wear-resistance of the pipe part can possibly be improved. The pipe part can be formed e.g. by baking a plastic pipe or a plastic composite pipe around the outer surface of a tubular reinforcement part, such as of a steel pipe. A metallic reinforcement part, such as a tubular part, which forms the inside surface of the pipe part, equalizes the temperature in pipe elbows by conducting heat away from points at which wear occurs. On the other hand, the material of a metallic reinforcement part is selected such that it is wear-resistant and has a relatively low coefficient of friction, in which case it in turn has a reducing effect on the rise in temperature caused by friction. A pipe part comprising a reinforcement part according to the invention does not buckle when bending as easily as a plastic pipe or a plastic composite pipe. The reinforcement part prevents undesired shape deformation, e.g. after bending.
In the following, the invention will be described in more detail by the aid of an embodiment with reference to the attached drawing, wherein
a presents a magnified detail A from
a presents a magnified detail B from
a presents a magnified detail C from
The pipe part 2 according to the invention comprises a reinforcement part 8 and a plastic material part 12 formed on top of the reinforcement part, i.e. around it. As an alternative to the embodiment of
According to
In
In the pipe joint 1 according to
In
Also the second pipe part 3 is provided with a reinforcement part 20 in this embodiment. In the second pipe part 3 the reinforcement part 20 is a pipe part that forms the inside surface 10 of the second pipe part 3. On top of the outer surface 21 of the reinforcement part 20 is a plastic material part 13, the outer surface of which forms the outer surface 15 of the second pipe part 3.
In the pipe joint 1 according to
The joint can thus be formed by means of the joining of the plastic material layers of the pipe parts 2,3 either by plastic welding directly or by plastic welding or gluing to the sleeve part 4.
a present yet another embodiment, in which the first pipe part 2 and the second pipe part 3 are joined end-to-end to each other at the point of connection 5, 6. The joint is formed directly between the plastic material parts 12, 13 in which case the pipe parts are attached to each other at the joined plastic material layers 12, 13.
The joint can be formed e.g. by butt welding. In the method the ends of the pipes 2, 3 are melted and pressed together and allowed to cool while subjected to pressure. In this case a welded joint 24 is formed. Chamfers 22, 23 can, of course, be formed on the ends of the pipe parts 2, 3 to be joined together, and hot-air welding or extruder welding can be used to join the plastic layers 12, 13 to each other.
In the case according to
The reinforcement part 8, 20 is, according to one embodiment, a pipe part, preferably a metal pipe, most preferably a steel pipe.
The thickness of the wall of the reinforcement part 8, 20 is smaller than the thickness of the wall of the plastic material part 12, 13. According to one embodiment the thickness of the reinforcement part 8, 20 is approx. less than ½ of the total thickness of the wall of the pipe part, preferably 1/20-¼ of the total thickness of the wall of the pipe part.
The thickness of the wall of the pipe part is in one embodiment approx. 20-40 mm. The thickness of the wall of the pipe part can be smaller or larger than this. The thickness of the wall of the pipe part varies according to the target of application.
The pipe part according to the invention can be secured by connecting the plastic material pipe part and the reinforcement part to each other, e.g. by baking. Also other suitable manufacturing methods are feasible. The plastic material layer can be formed around the reinforcement part e.g. by extrusion. According to one embodiment the reinforcement part, that is preferably a sleeve part, is arranged slidingly inside the plastic material part of the pipe part. The plastic material part is adapted to withstand pressure without the reinforcement part.
The plastic material part can be of, or can comprise, wear-resistant material. In this case it is not detrimental even if the reinforcement part were to wear through at some point, because the plastic material part would ensure adequate wear-resistance. The mechanical shape strength of the pipe part is, however, retained.
The pipe part according to the invention can be bent, e.g. at the installation site or in the proximity of it. When bending a mandrel can be used in the flow channel of the pipe part for preventing buckling of the wall of the pipe part. The pipe part according to the invention does not buckle in the same way as plastic pipe alone when being bent. The reinforcement part prevents shape deformation (such as returning to the shape that preceded the bending) of the pipe part, e.g. after bending.
The reinforcement part receives mechanical stress in the pipe.
The reinforcement part can be thinner, in terms of its wall thickness, than a steel pipe to be used just as a conveying pipe. According to one embodiment the wall thickness of the reinforcement part can be e.g. 2-4 mm.
The pipe part and pipe joint according to the invention are very well suited for use in the joints of the conveying piping of pneumatic pipe transport systems for waste. The pipe sizes can be rather large in diameter, e.g. typically 200-500 mm.
The object of the invention is a conveying pipe part 2 of a pneumatic material conveying system, more particularly of a conveying system for wastes, which conveying pipe part comprises a wall, which is formed from at least two layers, at least the first one of which is a plastic material layer 12 and extends to the outer surface of the pipe part 2. The plastic material layer 12 is of plastic material or of plastic composite material, and that the wall of the pipe part 2 comprises a second layer, a reinforcement part 8, which reinforcement part is preferably a tubular part, and arranged in the wall of the pipe part 2 at a distance inwards from the outer surface.
According to one embodiment the reinforcement part 8 is in its thickness less than about 50% of the thickness of the wall of the pipe part 2.
According to one embodiment the reinforcement part 8 is a tubular metal part.
According to one embodiment the reinforcement part 8 is in its thickness less than ½ (50%) of the thickness of the wall of the pipe part 2, preferably 1/10-¼ (10-25%) of the thickness of the wall of the pipe part 2.
According to one embodiment the reinforcement part 8 is of steel, preferably of wear-resistant steel.
According to one embodiment the inside surface of the reinforcement part 8 is the inside surface 9 of the pipe part 2.
According to one embodiment the reinforcement part 8 enables the bending of the pipe part 2 and the essential retention of the bent shape.
According to one embodiment the pipe part 2 can be joined end-to-end to a second pipe part 3 by joining the plastic material layers 12, 13 of the pipe parts together or via the sleeve part 4, most preferably by plastic welding or by gluing.
According to one embodiment the reinforcement part is arranged slidingly inside the tubular plastic material part.
The invention also relates to a method for forming a pipe joint of the conveying piping of a pneumatic material conveying system, more particularly of a conveying system for wastes between the first pipe part 2 and the second pipe part 3, which pipe parts 2, 3 are joined end-to-end and against each other, and at least one of which conveying pipe parts 2, 3 comprises a wall, which is formed from at least two layers, at least the first one of which is a plastic material layer 12 and extends to the outer surface of the pipe part 2 and the second pipe part is formed wholly or at least partially from the plastic material layer extending to the outer surface. The wall of at least one pipe part 2 comprises a second layer, a reinforcement part 8, which reinforcement part is preferably a tubular metal part, and arranged in the wall of the pipe part 2 at a distance inwards from the outer surface, and that the pipe parts are joined to each other by joining the plastic material layers 12, 13 with plastic welding directly to each other, or with plastic welding or gluing to the sleeve part 4 arranged in the joint area.
According to one embodiment at least the pipe part 2 comprising the reinforcement part 8 is bent into the desired shape before the forming of the joint or after the forming of the joint, most preferably at the installation site or in the proximity of it.
According to one embodiment in the method the wall of the second of the pipe parts 2, 3 is purely of plastic material or of plastic composite material.
According to one embodiment the walls of both pipe parts 2, 3 to be joined comprise both a plastic material part 12, 13 and a reinforcement part 8, 20.
According to one embodiment the pipe parts 2, 3 are the conveying pipes of a pneumatic pipe transport system for wastes.
The plastic material part preferably comprises e.g. polyethylene (PE) and/or polypropylene (PP). Also other weldable grades of plastic can come into question depending on the target of application.
It is obvious to the person skilled in the art that the invention is not limited to the embodiments presented above, but that it can be varied within the scope of the claims presented below. The characteristic features possibly presented in the description in conjunction with other characteristic features can also, if necessary, be used separately to each other.
| Number | Date | Country | Kind |
|---|---|---|---|
| 20115062 | Jan 2011 | FI | national |
| Filing Document | Filing Date | Country | Kind | 371c Date |
|---|---|---|---|---|
| PCT/FI2012/050049 | 1/20/2012 | WO | 00 | 7/22/2013 |
