WO2016078797A1 - Tank installation unit for a storage tank - Google Patents

Abstract

The invention relates to a tank installation unit (20) for a storage tank (10) for storing a freezeable fuel and/or additive (12), with a pot element (40) which surrounds internal components (24), wherein the pot element (40) comprises a pot wall (42), and the tank installation unit (20) is configured in such a manner that the pot wall (42) assumes a first shape prior to installation into a storage tank (10), and the pot wall (42) can be transferred into a second shape after installation in a storage tank (10), wherein, after the pot wall (42) is transferred into the second shape, a volume of the pot element (40) is larger than with the pot wall (42) in the first shape. Further aspects of the invention relate to a storage tank (10) comprising such a tank installation unit (20) and to a method for producing a storage tank (10).

Description

 Tank installation unit for a storage tank

The invention relates to a tank installation unit for a storage tank for

Storage of a freezable operating and / or auxiliary substance. Further aspects of the invention relate to a storage tank comprising such a tank installation unit and to a method for producing a storage tank.

State of the art

In exhaust aftertreatment systems operated, for example, by the selective catalytic reduction method, use is made of an operating and / or auxiliary which is freezable. The operating and / or auxiliary substance is, for example, a reducing agent of or with urea or a urea-water solution, in particular, for example, an agent which is marketed under the name Ad ^Blue® . Nitrogen oxides NO _x contained in the exhaust gas are reduced to N ₂ and H ₂ O by use of the reducing agent, so that the proportion of nitrogen oxides NO _x in the exhaust gas of

Internal combustion engines, in particular self-igniting

Internal combustion engines, can be significantly reduced. Typically, such reducing agent used by way of selective catalytic reduction freezes below an outside temperature of -10 ° C.

In today used exhaust aftertreatment systems, the operating and / or auxiliary material is stored in a storage tank in which a

Tank installation unit is located. The tank installation unit comprises a conveyor unit, a filter and a heating element. The modular designed tank installation unit is connected to the underside of the storage tank in the region of a bottom opening with the tank housing, usually welded to this. Of the

Diameter of the tank installation unit is usually dependent on the diameter of the opening in the tank bottom. Referring to FIG. 6, a prior art storage tank 10 'will be described. The storage tank 10 'contains an operating and / or auxiliary substance 12, preferably a reducing agent such as, for example, a urea-water solution. Such a reducing agent is available under the name AdBlue ^® . The storage tank 10 'is bounded by a tank housing 14 in which a bottom opening 16 is located. A diameter of the bottom opening 16 is designated by the reference numeral 18. Through the bottom opening 16 extends a tank installation unit 20 'according to the prior art, which is welded at a joint 22 with the underside of the tank housing 14 in the region of the bottom opening 16. The tank installation unit 20 'comprises a delivery unit 24, a filter 26 and at least one heating element 28.

It can be seen from the representation of FIG. 6 that ice-like operating and / or auxiliary substance 30 is located on the upper side of the tank bottom of the storage tank 10 'at a distance from the tank installation unit 20'. An ice layer 32 has formed on top of the tank bottom. In the region of the heating element 28, which is located above the filter 26 in the tank installation unit 20 ', thawed operating and / or auxiliary substance 34 is present. If, due to the respective driving state of a vehicle, a sloshing movement indicated by the arrow 36 occurs, thawed operating and / or auxiliary substance 34 reaches the upper side of the ice layer 32 of the ice-shaped operating and / or auxiliary substance 30 and freezes there again, indicated by reference numeral 37.

To limit the slosh movement of the operating and / or auxiliary substance 12, it is proposed to assign a tank element to the tank installation unit 20 '. So that the tank installation unit 20 'can be inserted into the bottom opening 16, the maximum possible pot diameter is limited by the diameter or the size of the bottom opening 16. However, without a sufficiently large volume of the pot element, it can be insufficiently prevented that a thawed operating and / or auxiliary substance 34 spills onto the ice surface present in the remaining tank area and thus arrives from the intake area of the delivery unit 24, which is, for example, an intake area of a pump. Disclosure of the invention

A tank installation unit for a storage tank for storing a freezable operating and / or auxiliary substance is proposed. The

Tank installation unit comprises a pot element which surrounds internals, wherein the pot element comprises a pot wall and the tank installation unit is designed such that the pot wall assumes a first shape before installation in a storage tank and the pot wall can be converted into a storage tank after installation in a second mold wherein a volume of the pot element after transferring the pot wall into the second mold is greater than the volume of the pot element with the pot wall in the first mold.

The proposed tank installation unit comprises as internals a delivery unit, for example in the form of a pump, a heating element and a filter. To limit sloshing movements of an operating and / or auxiliary substance, the tank installation unit further comprises a pot element. Since the tank installation unit must be inserted for mounting in the interior of a storage tank through a bottom opening of this storage tank, resulting in the tank installation unit, a maximum size or a maximum diameter, which is determined by the

Bottom opening of the storage tank is specified. The pot wall of the pot member therefore initially has a first shape, wherein the diameter of the

Pot element is smaller than the bottom opening in the storage tank. After installation of the tank installation unit in the storage tank, the pot wall can be converted into the second form, in which case the diameter of the pot element can be greater than the diameter of the bottom opening. In this way, it is possible to assign the tank installation unit a pot element whose volume is no longer limited by the diameter of the bottom opening in the storage tank. The volume is defined for example in a pot wall in a cylindrical shape as the product of the enclosed by the pot wall surface and the height of the pot wall.

In one embodiment of the invention, the pot wall is made of a material with shape memory, wherein the pot wall can be converted by means of heat from the first mold into the second mold. Such a material may be for example a special metal alloy, in particular a so-called shape memory alloy. Suitable materials are for example selected from nickel-titanium, nickel-titanium-copper, iron-nickel-aluminum, iron-manganese-silicon or polymers with temperature-controlled

Shape memory (polymer actuators) or added under internal stress plastics or other generally known in the art

Shape memory alloys.

The suitable shape memory materials initially allow the pot wall to be made with a diameter larger than that

Diameter of the bottom opening in the storage tank. The pot wall is then plastically deformed, wherein the pot wall occupies the first shape with a smaller diameter. By means of heat, a change in shape of the pot wall can be triggered, with the material of the pot wall "remembers" to the original shape and thereby passes into the second form.

In an alternative embodiment, the pot wall can be converted by means of a force into the first shape and by relaxing in the second shape. The pot element is initially made with a diameter which is greater than the diameter of the bottom opening in the storage tank. By force, in which the pot element or its pot wall is elastically deformed, the pot wall is transferred to the first form. The pot wall remains in its first form for as long as the force continues to act. to

Maintaining the force effect, for example, be provided a clamping element. To transfer to the second form, the pot wall is relaxed, d. H. the force is released, whereupon the pot wall passes by relaxing in the second form. If a tensioning element has been used to maintain the force, it may relax

be brought about by the clamping element is removed. A suitable tensioning element is for example a tension belt. By a tension belt, the pot wall can be kept in the first form. After removing the tension belt then the residual stress of the material ensures that the

Pot wall merges into the second form.

Suitable materials for a pot wall, which can be converted by relaxing in the second form, for example, polyethylene (PP) and in particular high density polyethylene (HDPE). Other suitable materials include elastomers.

By using a material with shape memory or an elastic material for the pot wall, it is possible to design the diameter and thus the volume of the pot wall variable and at the same time perform the pot wall in one piece. The pot wall consists of only a single element and preferably has no seams or fasteners.

When the newly produced pot element is converted into the first shape, its diameter decreases, the amount of material of the pot wall remains the same. Therefore, at least one deformation region is provided on the pot wall, for example in the form of a wave or a bend, over which, in the reduction of the diameter, the wall material of the pot wall

is recorded. The geometry of the deformation regions is preferably chosen such that they support the transfer from the first mold to the second mold. For example, the shape of the cross section of the pot wall in a deformation range is selected such that it corresponds to a circle segment or a segment of an ellipse.

Preferably, the geometric configuration of the pot wall and the deformation areas is selected so that there is a uniform outer contour of the pot element.

A further aspect of the invention is to provide a storage tank for storing a freezable operating and / or auxiliary substance, which comprises one of the tank installation units described.

Furthermore, it is an aspect of the invention to provide a method for producing such a storage tank. The features described in the context of the tank installation unit or the storage tank apply

according to the method for producing the storage tank or the tank installation unit and vice versa, the features described in the context of the method corresponding to the storage tank or for the tank installation unit. The proposed method for producing a storage tank for

Storage of a freezable operating and / or auxiliary substance, preferably comprising one of the tank installation units described, comprises the following steps: a) providing a tank housing and a tank installation unit, wherein a pot wall of a pot element of the tank installation unit has a first shape,

b) introducing the tank installation unit into an opening, preferably bottom opening of the tank housing and connecting the tank installation unit with the tank

 Tank housing

c) transferring the pot wall from the first mold into a second mold, wherein the pot element formed by the pot wall in the second mold comprises a larger volume than with the pot wall in the first mold.

The tank installation unit comprises a pot element which encloses internals such as a delivery unit, a heating element and a filter. Since the tank installation unit is inserted through the bottom opening in the tank housing, the diameter of the pot member may initially not be greater than the diameter of the bottom opening. Therefore, the first shape of the pot wall is selected accordingly so that insertion of the

Tank installation unit in the tank housing is easily possible.

After inserting the tank installation unit in the bottom opening of the

Tank housing, the tank installation unit is connected to the tank housing, for which purpose, for example, a welding method can be used.

After connecting the tank installation unit with the tank housing to the storage tank, the pot wall is transferred from its first shape to the second shape. Depending on the embodiment of the tank installation unit or the pot wall, this can be done, for example, by heating the material of the pot wall or by inducing a relaxation of the pot wall.

The heat energy necessary for heating the pot wall can be introduced, for example, via the heating element present in the tank installation unit. A relaxation of the pot wall can be done, for example, by removing a clamping element arranged to maintain a force on the pot wall.

Advantages of the invention

The tank installation unit according to the invention makes it possible to improve the thawing behavior of a freezable operating and / or auxiliary substance accommodated in a storage tank by holding a supply of a thawed operating and / or auxiliary substance in the vicinity of a delivery unit with the aid of a pot element. It is possible in the tank installation unit according to the invention, to choose the volume of the pot element and thus the amount of thawed operating and / or auxiliary material regardless of the diameter of a required for mounting bottom opening in the tank housing. The floor opening provided for introducing the tank installation unit anyway does not have to be modified in order to be able to accommodate a larger pot element. Also, the previous steps for joining the tank installation unit with the

Tank housings of the storage tank can remain unchanged.

Also, the transfer of the pot element from the first shape into the second shape is particularly simple. Depending on the embodiment, this must be

Pot element can only be heated, which can be done for example with the help of the already provided heating element.

By using a pot element, which can be enlarged after installation, the advantage of a larger pot diameter when thawing the operating and / or auxiliary material can now be used in a tank created by blowing technology. In the case of tank housings produced by blowing technology, the bottom opening is smaller than the bottom opening of tank housings created by spray technology. By means of spray technology created tank housing can thus easily use a tank installation unit with a larger pot diameter.

Short description of the character With reference to the drawings, the invention will be described in more detail below. Show it:

1 shows a detail of a storage tank with an inventive

 Tank installation unit in a sectional view from the side,

2 shows a tank installation unit with a pot element before the transfer of the pot wall into the first mold in a view from above, FIG.

3 shows a tank installation unit, in which the pot wall in the first form

 is transferred, in a view from above,

FIG. 4 shows a tank installation unit after transferring the pot wall into the second mold,

5 shows a tank installation unit in a sectional view from the front and

FIG. 6 shows a tank installation unit according to the prior art.

In the following description of the embodiments of the invention, the same or similar components and elements are denoted by the same or similar reference numerals, wherein a repeated description of these components or elements is dispensed with in individual cases. The figures illustrate the subject matter of the invention only schematically.

Figure 1 shows a section of a storage tank in a sectional view from the side.

Figure 1 shows a section of a tank housing 14 of a storage tank 10. In the tank housing 14, a bottom opening 16 is provided, wherein the

Bottom opening 16 has a diameter 18.

Via the bottom opening 16, a tank installation unit 20 is inserted into the storage tank 10 or into its tank housing 14. The tank installation unit 20 comprises various installations comprising a conveyor unit 24, a filter 26 and comprise at least one heating element 28. The internals 24, 26, 28 are surrounded by a pot element 40, which has a pot wall 42.

If the storage tank 10 accommodates a freezable operating and / or auxiliary substance 12, cf. FIG. 6, this operating and / or auxiliary substance 12 is replaced by the

Heating element 28 thawed. The pot element 40 subsequently prevents the thawed operating and / or auxiliary substance 12 from being distributed in the storage tank 10. By the pot member 40, the thawed operating and / or auxiliary substance 12 is held in the region around the conveyor unit 24. In this way, the

Feed unit 24, for example, designed as a pump, this easier to suck on the filter 26 and provide, for example, an exhaust treatment system of a vehicle.

The tank installation unit 20 is fixedly connected after insertion into the storage tank 10 or its tank housing 14, for example by means of a welding process, whereby a joint 22 is formed. In the situation shown in Figure 1, the pot wall 42 of the pot member 40 has a first shape, wherein the diameter, or the largest diameter, if the shape is not round, is smaller than the diameter 18 of the bottom opening 16. The pot wall 42nd further includes a plurality of deformation regions 50 which will be described below with reference to FIGS. 2 and 3. After being welded together, the pot wall 42 is arranged spaced apart from the tank housing 14 by a clearance, so that the operating and / or auxiliary substance 12 can flow into the intake region of the delivery unit 24.

FIG. 2 shows the tank installation unit in a view from above.

In Figure 2, the tank installation unit 20 is shown in a view from above. The tank installation unit 20 comprises the pot element 40, which encloses various installations. In the illustration of Figure 2 are as internals the

Heating element 28 and the conveyor unit 24 visible. The pot member 40 is connected to the conveyor unit 24, for example glued, welded or screwed. As can be seen from the illustration of FIG. 2, the pot wall 42 of the pot element 40 comprises a plurality of deformation regions 50. In FIG

Embodiment of Figure 2, the deformation regions 50 are configured wave-shaped, wherein the cross section of the pot wall 42 in the

Deformation areas 50 circle segments corresponds.

In the situation shown in Figure 2, the pot member 40 has the shape with which it was originally made, and which is referred to as the second form in the invention. In this second form, the pot element 40 has a diameter 48 along an axis marked in FIG. The diameter 48 is greater than the diameter 18 of the bottom opening 16 of the tank housing 14. To insert the tank installation unit 20 via the bottom opening 16 in the tank housing 14, therefore, the diameter 48 must be reduced. This will be described with reference to FIG.

FIG. 3 shows the tank installation unit with the pot wall in the first form.

FIG. 3 again shows the tank installation unit 20 in a view from above. In order to transfer the pot wall 42 of the pot element 40 into the first shape, the pot element 40 shown with reference to FIG. 2 was plastically deformed. In this case, the deformation regions 50 are folded. The marked in the figure 2 diameter 48 of the pot member 40 now assumes a reduced diameter 44 a. The transfer of the pot wall 42 from the first mold to the second mold will be described with reference to FIG.

FIG. 4 shows the tank installation unit after installation in a tank housing.

In Figure 4, the tank installation unit 20 is shown again, now in a

Tank housing 14 of a storage tank 10 is inserted. After insertion, the pot wall 42 of the pot member 40 has been transferred from the first mold to the second mold, so that the pot member 40 now occupies an enlarged diameter 46.

The transfer of the pot wall 42 in the second form was carried out under the action of heat. For this purpose, the pot member 40 shown in Figures 2, 3 and 4 or its pot wall 42 made of a material with shape memory. This shape-memory material allows the pot wall 42 to "remember" the originally manufactured shape (see Figure 2). Under the influence of heat provided, for example, by the heating element 28 of the tank installation unit 20, the pot wall 42 takes over after deformation (FIG. see Figure 3) at least approximately their originally fabricated form, where the deformation regions 50 unfold at least partially, ideally even completely.The deformation regions 50 advantageously assist the unfolding process by their waveform, which in the illustrated in Figures 2, 3 and 4 Embodiments composed of circular segments.

FIG. 5 shows the tank installation unit in a sectional view from the front.

In Figure 5, the tank installation unit 20 is shown after transferring the pot wall 42 in the second form. The pot member 40 still surrounds the

Fittings of the tank installation unit 20, wherein in the illustration of Figure 5 only the conveyor unit 24 is visible.

In the figure 5 is shown with dashed lines, the pot member 40 with the pot wall 42 in the first form and with solid lines the pot wall 42 in the second form.

It can clearly be seen in the representation of FIG. 5 that the reduced diameter 44, which the cup element 40 has with the cup wall 42 in the first shape, is smaller than the diameter 18 of the bottom opening 16 in the tank housing 14. In addition, the reduced diameter 44 Also smaller than the expanded diameter 46, the pot member 40 occupies with the pot wall 42 in the second form.

By transferring the pot wall 42 from the first mold into the second mold, the diameter of the pot element 40 and thus also the volume, which can receive the pot element 40, increases. The pot member 40 with the pot wall 42 in the second form can thus accommodate a larger amount of the thawed operating and / or auxiliary substance 34, as a pot member 40, its diameter after installation of the tank installation unit 20 in the

Tank housing 14 can not be extended. Without a possibility to subsequently expand the diameter, the maximum possible volume of the pot member 40 is limited by the diameter 18 of the bottom opening 16 in the tank housing 14. An adaptation of the volume of the pot member 40 to the requirements of the conveyor unit 24 and to the heating element 28 can not be done so or only to a limited extent.

The invention is not limited to the embodiments described herein and the aspects highlighted therein. Rather, within the scope given by the claims a variety of modifications are possible, which are within the scope of expert action.

Furthermore, the application of the basic idea of the invention, namely the diameter of a component after passing through a in the

Diameter limited opening to expand, transferable to other components and components.

Claims

claims

Tank installation unit (20) for a storage tank (10) for storing a freezable operating and / or auxiliary substance (12) with a

 Pot element (40), which internals (24, 26, 28) surrounds, characterized in that the pot member (40) comprises a pot wall (42) and the tank installation unit (20) is configured so that prior to installation in a storage tank (10 ) the pot wall (42) occupies a first shape and the pot wall (42) after installation in a storage tank (10) is convertible into a second shape, wherein a volume of

 Pot member (40) is larger in the second form than in the first form.

2. Tank installation unit (20) according to claim 1, characterized in that the pot wall (42) is made of a material having shape memory and can be converted by means of heat from the first mold into the second mold.

3. tank installation unit (20) according to claim 1, characterized in that the pot wall (42) is transferred by means of force into the first form and can be converted by relaxing in the second form.

4. tank installation unit (20) according to one of claims 1 to 3, characterized in that a diameter (44) of the pot wall (42) of the pot member (40) in the first form is smaller than a diameter of a bottom opening (16) of a tank housing ( 14) and in the second form is greater than a diameter (18) of the bottom opening (16) of the tank housing (14).

5. tank installation unit (20) according to one of claims 1 to 4, characterized in that the pot wall (42) at least one Deformation region (50) in the form of a wave or a Knicks.

Storage tank (10) for storing a freezable operating and / or auxiliary substance (12) comprising a tank installation unit (20) according to one of claims 1 to 5.

Method for producing a storage tank (10) for storing a freezable operating and / or auxiliary substance (12), comprising a tank installation unit (20) according to one of claims 1 to 5, comprising the steps:

a. ) Providing a tank housing (14) and a tank installation unit

(20), wherein a pot wall (42) of a pot element (40) of the tank installation unit (20) has a first shape,

b. ) Inserting the tank installation unit (20) into a bottom opening (16) of the

Tank housing (14) and connecting the tank installation unit (20) with the tank housing (14)

c. ) Transferring the pot wall (42) from the first mold into a second one

Mold, wherein the pot member (40) formed by the pot wall (42) in the second form comprises a larger volume, as with the pot wall (42) in the first form.

A method according to claim 7, characterized in that the

Conversion of the pot wall (42) in the second form according to step c) by heating the material of the pot wall (42), by relaxing the pot wall (42) or by setting effects in the material of the pot wall (42).

Method according to one of claims 7 or 8, characterized

characterized in that the transfer of the pot wall (42) into the second shape according to step c) takes place at least partially by the removal of a clamping element.

Method according to one of claims 7 to 9, characterized in that the bonding according to step b) is carried out by a welding process.