The present invention relates to a pressure tank for a water heater in stainless steel. The invention also relates to a method to manufacture the pressure tank.
Today, the most employed technology for the manufacture of pressure tanks in stainless steel is, in principle, shown in the enclosed
Furthermore the tank comprises relatively many parts, and a lot of welding and much material are required.
P1 and P2 can also be welded to each other, but because of limitations in how deeply one can force these in a deep drawing, where the diameter of the tank is around 50 centimetres, the volume of the tank is limited to about 100 litres.
US 2008067179 describes a water tank manufactured from plastic. It comprises two identical end parts and a possible middle section between these. As the tank parts are in plastic, there are relatively few limitations as to how deep these can be. However, a plastic tank is not suited to be used as a water heater where the temperature and pressure are relatively high. According to this known solution, the joining together of the tank parts takes place with the help of a clamp ring and gaskets.
DK 200600284U3 describes a ball-formed hot water tank. This is manufactured from two halves. How the two halves are joined is not described.
JP 2002211558 describes a fuel tank. This is manufactured from two different parts that are joined together to make a relatively flat tank, which is adapted to the placing of the tank in a vehicle. The joining together seems to be carried out in that flanges on the two halves are welded together. The flanges are intact after the welding and a pronounced slit is formed on the inside of the tank. As the tank is to be filled with fuel, corrosion problems will not be as relevant for this tank as for a hot water tank. Furthermore, the relatively flat shape is not suited to a pressure tank.
US 2001/0054613 also describes a fuel tank. This is made from plastic. It is manufactured in that two halves with respective flanges are placed against each other and joined. The flanges remain intact after the joining together.
WO 2013/055433 describes a method to add an aerogel coating on the inside of a tube or a ball, where the ball is rotated about two axes to distribute the coating.
One objective of the invention is to use fewer, and mostly equal, parts. It is also an objective of the invention to form a shorter welding path, and also a weld joint that has enough material for the fusing together of the two parts to take place without the use of additional material. Similarly, it is an objective to be able to weld by using a greater strength of current and also to be able to operate at a higher welding speed by using laser welding without additional material. A wanted result of this is that it is possible to use thinner plates for the tanks. Thereby, one can achieve a weld joint that gives a safe weld without any through-burning, in spite of using about 20% thinner plates.
This reduces the weight, and the thickness of the plates is only limited by the necessary test pressure that does not lead to permanent deformation. Therefore, the weld joint is not the limiting factor. The present invention is particularly suited for use together with connections that can be inserted in the tank without welding, as described in the simultaneously submitted patent application NO20140171, with the title “Pipe end piece for tank in stainless steel, steel or plastic and also a method for fastening of the end piece to the tank”. With the use of both these inventions one achieves the possibility for a rapid assembly of parts inside the tank at the same time that the tank is not weakened due to the heat stress from the welding. As a further result of this invention and the invention in the above mentioned parallel application, the number of working operations is reduced, one gets a shorter cycle time and a better tank at a lower price.
These and other aims of the invention are achieved with a pressure tank for a water heater characterised in that it comprises two identical deep drawn tank halves that are welded together in a common dividing plane, that the tank has a longitudinal axis that lies in the dividing plane, so that a cylindrical, extended tank with a circular cross section is provided.
As the tank halves are moulded or deep drawn metal plates with an encircling flange, and the flange is used for the joining together of the two tank halves by welding of the flanges without additional material, as the flange in its entirety is melted during the welding and forms a surface which largely is in line with the tank wall both on the inside and the outside, and thereby does not lead to a welding seam gap on the inside of the tank, a good weld is obtained with a relatively small wall thickness for the tank.
The tank halves preferably comprise plane sections for the connection of pipe end pieces, as the plane sections are formed in the same operation as the moulding or deep drawing. Thus, one will be able to manufacture the tank in fewer operations. The pipe end pieces will also lie partially protected under the plane of the tank wall.
The objective of the invention is also achieved by a method for the manufacture of a pressure tank, characterised in that two identical tank halves are manufactured by deep drawing and that the two tank halves are welded together in a common dividing plane, as the resulting longitudinal axis of the tank lies in the common dividing plane so that a cylindrical, extended tank with a circular cross section is provided, that the two tank halves are formed with respective encircling flanges. Said flanges are used as melting material for the joining together, without further addition of material, in the welding of the two tank halves, as the flange material melts down into a weld seam which is largely in line with the tank wall, both on the inside and the outside, and thereby does not result in any weld seam slit on the inside of the tank.
The flanges are preferably protruding from the tank wall by about 3 mm with a plate thickness of about 1 mm. It has been found that this gives an optimal weld without the need for additional material and without excess material.
In a preferred embodiment the tank is clamped after the welding so that it can rotate about a rotational axis that extends perpendicularly to the dividing plane, that a limited amount of staining liquid (acid) is poured into the tank, that the tank is rotated at least one complete rotation about the axis of rotation so that the staining fluid is made to run along the weld seam on the inside of the tank, and that the remaining fluid is thereafter poured out of the tank, as the amount of staining fluid is adjusted so that it is sufficient to cover the weld seam, but that the application of staining fluid outside of the weld is avoided as much as possible. Thus, it is ensured that the staining fluid is only applied where there is a need and the need for staining fluid is reduced to a minimum.
In that during the forming of the tank halves, flat sections are also formed in the tank wall for the connection of pipe end pieces through the tank wall, the number of steps in the manufacturing process will be reduced.
In that the internal tubes in the tank, such as coil and inlet and outlet tubes, are fitted in at least one of the tank halves before the joining together of the tank halves, the manufacturing process will be simplified further. One will also have better access during the fitting. It will also be simpler to control internally that the fitting has been carried out in a satisfactory way.
With the present invention one can simply adapt the volume of the tank by making the longitudinal axis shorter or longer, while the depth in the deep drawing is the same, i.e. of about 250 mm. This gives a tank with a diameter of 500 mm, which is appropriate for the building of a water heater with an external diameter of 600 mm. By varying the longitudinal axis the tank can be manufactured in all volumes between 50 litres and at least 400 litres.
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With the present invention there are about ⅓ fewer parts to the tank and there is between about 30% and 60% less distance to weld. The amount of material used can be reduced with about 20%, particularly in that it is possible to reduce the plate thickness. Furthermore, it is simpler to insert pipe end pieces, coils, etc, as this can be carried out before the halves are welded together. Pipe end pieces and a coil are fitted by being screwed in instead of welding. Similarly a 100% safe way to stain the internal weld seam is obtained without covering other parts of the tank with the staining liquid. With the help of the weld flanges one gets a very safe and strong weld in spite of using thin material.
Number | Date | Country | Kind |
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20140170 | Feb 2014 | NO | national |
Filing Document | Filing Date | Country | Kind |
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PCT/NO2015/050029 | 2/11/2015 | WO | 00 |