SE525987C2 - Protective device - Google Patents

Abstract

A protecting device for a reservoir ( 2 ) disposed on a vehicle ( 1 ) and intended to contain a medium. The device includes an arrangement ( 5 ) disposed inside the reservoir ( 2 ) and which takes the form of at least one solid body that deters relative movement, given the presence of the medium in frozen form in the reservoir ( 2 ), between the frozen medium and the reservoir during transport of the vehicle ( 1 ).

Description

OBJECT OF THE INVENTION AND SUMMARY OF THE INVENTION An object of the invention is to provide a protection device for containers in vehicle applications, which device when using a container containing a medium in frozen form is able to counteract damage to the container or to equipment arranged inside the container.

This object is achieved by means of a device according to claim 1. In that the device comprises a means arranged inside the container, in the form of at least one solid body, for counteracting mutual movement between said frozen medium and said frozen medium in the container. the container when moving the vehicle, damage to the container caused by the impact of frozen matter can be significantly reduced.

Further advantageous embodiments and other advantages of the invention appear from the following description and dependent claims.

BRIEF DESCRIPTION OF THE DRAWINGS With reference to the accompanying drawings, a more detailed description of exemplary embodiments of the invention follows.

In the drawings: Fig. 1 is a perspective view illustrating a device for adding by means of a medium pure exhaust gases originating from an internal combustion engine in which device a device according to the invention is arranged to protect a container containing said medium, Fig. 2a illustrates a protective means according to the invention. Fig. 2b illustrates a variant of an inventive protective device having a three-dimensional grid, Fig. 3a illustrates a further variant of an inventive protective agent having a hollow structure, Fig. 3b illustrates a variant of the protective agent according to Fig. 3a , C “| Fig. 4 illustrates a further variant of an protective means according to the invention with elongate elements, Fig. 5 illustrates a further variant of a protective means according to the invention in the form of a resilient layer arranged on the inside of the container, and Figs. 6 illustrates a further variant of a protective means according to the invention in the form of abutments arranged inside the container.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS OF THE INVENTION Figure 1 illustrates in a perspective view an apparatus for purifying the exhaust gases from an internal combustion engine (not shown) of a vehicle 1 by means of an addition of a medium. A container 2 for said medium, such as urea, is arranged on the vehicle to supply said medium to a combined muffler and catalyst 3 connected to the internal combustion engine. The container 2 which is suitably attached to the chassis 1 of a motor vehicle may also be provided with a means 4 for heating said first medium present in the container. Such a heating means 4 can be used to thaw material frozen in the container 2. It should be pointed out that the container 2 can of course be placed on a vehicle unit which does not have an engine. However, in the case where the protective device according to the invention is used in connection with exhaust gas cleaning, the container 2 is arranged on a motor-driven vehicle or on a vehicle unit which is connected to another vehicle unit which is equipped with an engine.

The medium added for purifying the exhaust gases may be of different chemical composition. Said medium may be, for example, urea or a solution consisting of or containing urea (CO [NH 2] 2 + H 2 O). Urea can be used to reduce NOX in the presence of the vehicle's nitrogen oxides the presence of the exhaust gases internal combustion engine.

The protective device according to the invention comprises a means 5 arranged inside the container 2, in the form of at least one solid body, in order to prevent mutual movement between said frozen medium and the container 2 when the vehicle 1 is present in the presence of said medium in frozen form in the container 2.

In the embodiments illustrated in Figures 2a, 2b, 3a, 3b and 4, said means 5 has at least one position 6, preferably a plurality of positions 6, for freezing said medium at said at least one position or at positions 6. Said means 5, hereinafter referred to as the protective means 5, may be e.g. a net or grid 7 to which said medium can freeze. In this way freezing and / or thawing of the urea can be controlled at the same time as the container 2 can be protected against the influence of frozen matter in the container 2. By freezing said medium to the protective agent 5 the frozen matter collides with the walls of the container which could otherwise occur due to that frozen matter in lump form splashes around in the unfrozen liquid in the container 2 when moving the container 2. The protective agent 5 should also be able to cause that when thawing frozen matter in the container 2 this thawing can take place without larger loose lumps or blocks of frozen matter is released and adversely affects container 2.

Figure 2a shows an embodiment in which a number of grid sections 7a, 7b, 7c, 7d are used to protect the container. For the sake of clarity only, every other grid section is schematically illustrated with dotted lines. Depending on different conditions, such as e.g. the volume, shape, etc. of the container 2, one or more grid sections 7a, 7b, 7c, 7d of different size and shape can be arranged within the volume of the container 2 for creating the protective agent 5.

For example, a number of grid sections can be arranged substantially parallel to each other and at a mutual distance from each other to provide the protective means 5.

The protective means 5 can thus be formed by means of one or two two-dimensional grids, but it can also be a continuous, three-dimensional grid or net structure 8 as illustrated in figure 2b. By two-dimensional and three-dimensional is meant here that the grid 7 has the openings arranged in one and the same plane 7b and arranged in at least two different planes 8. The container 2 can be of any shape and size and the protective means 5 designed accordingly. The outer contour of the protective means 5 can be adapted to the inner limiting surface of the container so that the protective means, although arranged loosely inside the container, is substantially retained in its position by the walls of the container.

Alternatively, the protective means 5 can be fixed in the container 2 in order to fix the protective means 5 in relation to the container 2 at at least one position.

The protection means 5 is advantageously designed and made of such a material having a resilience so that when the protection means 5 is loaded due to the inertia of the material frozen at the protection means and the movement of the vehicle, the protection means 5 can move relative to the container by suspension of the protection means. The protective means 5 may in some cases be made of a material with relatively high elasticity, and / or dimensioned, to allow this suspension in relation to the container. In this way, the movement of one or more lumps frozen in the protective agent can be softly and flexibly dampened while avoiding or at least counteracting or adversely affecting collisions between these lumps and the walls of the container only at a lower relative speed than would be the case. without said preservative.

In Figures 3a and 3b, variants of a protective agent 5 are illustrated. The protective agent 5 is a porous three-dimensional body 9 which has a large number of cavities 10 of the same or varying size. The cavities 10, which constitute at least 50%, preferably more than 80%, and in most cases over 90%, mean that the protective agent 5, although it substantially fills the entire container 2, see Figure 3a, still does not occupy too large a volume of the container so that there is also room for the intended said medium. Such a structure 9 with cavities 10 or pores has an appearance similar to that of a sponge material. This protective means 5 can also have the properties described above for the net and grid constructions. In figure 3b there is also a means 4 for heating said medium in the container 2 arranged in the lower part of the container 2. In such a case a larger cavity which provides space for the heating means 4 can be arranged in the protective means or the extent of the protective means 5 can as illustrated in figure 3b is limited to the part of the container 2 which does not have the heating means 4.

In Figure 4, the protective means 5 has a plurality of elongate elements 11 fixed in the upper end of the container 2. One or more such elongate elements, such as e.g. rods 12 of different lengths and cross-sections can be used for said medium to freeze to these rods. Preferably, the rods 12 are arranged to extend into the container 2 from an opening 13 in the container 2 and suitably the rods 12 are suspended in a component 14 which is releasably arranged on the container. The component 14 can be designed so that the opening 13 can be closed or opened by means of the component 14. This component 14 can be designed and have a resilience so that the protective means 5 can move relative to the container 2 by suspension of the suspension component 14 when the protective means 5 is loaded as a result of the vehicle for fl being moved. The component 14 preferably has an elasticity which is higher than that of the material of the protective means 5, here the rods, to allow some suspension, and thus movement, of the rods relative to the container 2. In this way the movement of one or more lumps which are frozen at the preservative 5 is attenuated in the manner described above. Alternatively or in combination with such a flexible component 14, the rods 12 may themselves be formed and made of a material which allows the rods themselves to spring, i.e. bend, so much so that the movement of the rods, and thus the movement of matter frozen at the rods, must be able to be damped and adverse collisions between frozen matter and the walls of the container avoided when moving the vehicle. Although in the illustrated embodiment the opening for the elongate elements 11 is arranged in the upper part of the container 2, it could be arranged at a different position of the container. The protective means in the form of elongate now Cflf- Ö "- P _ vil. / U / fngíf fl; elements could also be arranged without a special opening in the container by, for example, rods being attached to the inside of the walls of the container.

For all the embodiments described above, the protective means can be arranged to counteract the movement of said frozen medium from a first sub-volume 19 of the container 2 to a second sub-volume 20 of the container 2, see in particular 3 gures 3a and 3b. In particular, the protective means 5 may be arranged to counteract the movement of said frozen medium from a first subvolume 19 of the container to a second subvolume 20 of the container which second subvolume contains a further member 4 arranged inside the container 2. Such a member may be arranged for e.g. . heating said medium in the container 2.

Figure 5 shows a further embodiment of the inventive protective means 5 in the form of a resilient layer 15 arranged along at least a part of the inner limiting surface 16 of the container 2. Such a layer 15 preferably has a higher resilience than the material in the walls 17 of the container to function as shock absorber between frozen matter present in the container 2 and the load-bearing walls 17 of the container. The resilient layer can be of, for example, rubber or the like. Such a protective agent 5 can, in addition to the function as a shock absorber, also prevent abrasion on the walls of the container.

In addition, the thickness and deformability of the layer 15 can be adapted to the expansion which said medium in the container undergoes during freezing, so that at least at a certain degree of filling of said medium in the container, the expansion during freezing is completely or partially compensated by the layer being elastically deformed. In this way, the layer can help to keep the frozen matter still by the compressed layer pressurizing the frozen matter.

Figure 6 illustrates a variant of a protective means 5 which is based on one or more abutments 18 being arranged inside the container 2 in order to substantially retain said frozen medium in a certain part or certain parts of the container. Preferably, one or more such abutments 18 are arranged in the vicinity of a wall 17 of the container 2. It is also possible, as illustrated, to form the abutments 18 by a special design of the walls 17 of the container. In such a case, said at least one solid body, i.e. the protective means 5, of at least one component which at the same time forms part of a wall 17 of the container 2. Whether the at least one abutment 18 is created by the design of a wall 17 of the container 2 or by special devices having been arranged inside the container is the abutment / abutment 18 arranged to counteract the movement of said frozen medium from a first subvolume 19b of the container to a second subvolume 20b of the container 2 and thereby substantially retain said solid medium in a certain part of the container, for example in the lower or upper part of "Y" the container 2.

The protective means 5 may be arranged to particularly counteract the movement of said frozen medium from a first sub-volume of the container to a second sub-volume of the container, which second sub-volume contains an additional member arranged inside the container for protecting this member. To protect e.g. a heating means arranged inside the container, it is possible by means of the protective means to substantially retain frozen matter in a volume which does not comprise the heating means, but it could also be possible to use the protective means to retain said frozen medium in the volume containing the additional means. ensure that the matter frozen on this organ does not adversely affect the organ by moving and thereby pulling the organ and loading it.

It is to be understood that the invention is not limited to the embodiments of the invention described herein but only by the appended claims. Once the idea of the invention is known, a number of modifications within the scope of the invention will be apparent to a person skilled in the art.

Claims (23)

10 15 20 25 30 35 525 98 " 1. PATENT REQUIREMENTS Protective device for a container (2) arranged on a vehicle (1) which is intended to contain a medium, characterized in that the device comprises a means (5) arranged inside the container, in the form of at least one solid body, in the presence of said medium in frozen form in the container (2) to counteract mutual movement between said frozen medium and the container when moving the vehicle (1). Protective device according to claim 1, characterized in that said means (5) has at least one position (6) for freezing said medium at said at least one position. Protective device according to claim 1 or 2, characterized in that said means (5) has a number of positions (6) for freezing said medium at these positions. Protective device according to any one of the preceding claims, characterized in that said means (5) comprises a grid (7, 8), net or the like. Protective device according to any one of the preceding claims, characterized in that said means (5) is a porous body (9) with a volume ratio Vh / Vw, greater than 0.5, where V., is equal to the total volume for the cavities of the body and VM, the total volume is the sum of said cavities and the solid matter of the body. Protective device according to any one of the preceding claims, characterized in that said means (5) comprises at least one elongate element (11). Protective device according to any one of the preceding claims, characterized in that said means (5) is arranged to extend into the container (2) from an opening (13) in the container. Protective device according to claim 7, characterized in that said means (5) is suspended in the container (2) via a component (14) arranged in the opening (13). 10 15 20 25 30 35 10. 11. 12. 13. 14. 15. 16. 17. 525 f? Protective device according to claim 8, characterized in that the suspension component (14) is designed and has a resilience so that said means (5) can move relative to the container (2) by suspension of the suspension component (14) when said means is loaded as a result of the movement of the vehicle (1). Protective device according to claim 9, characterized in that the suspension component (14) has a high elasticity in relation to the material of said means (5). Protective device according to claim 7, characterized in that said opening (13) is arranged in the upper part of the container (2). Protective device according to one of the preceding claims, characterized in that said means (5) are arranged to counteract the transfer of said frozen medium from a first sub-volume (19) of the container (2) to a second sub-volume (20) of the container (2). Protective device according to claim 12, characterized in that said means (5) is arranged to counteract the transfer of said frozen medium from a first sub-volume (19) of the container (2) to a second sub-volume (20) of the container (2). which second sub-volume (20) contains an additional member (4) arranged inside the container (2). Protective device according to claim 13, characterized in that said means (4) are arranged to heat said medium in the container (2). Protective device according to one of Claims 12 to 14, characterized in that the first sub-volume (19) is located above the second sub-volume (20). Protective device according to any one of claims 12-15, characterized in that said means (5) comprises at least one tenderloin (18). Protective device according to claim 16, characterized in that said at least one abutment (18) is arranged in the vicinity of a wall (17) of the container (2). 10 15 20 25 18. 19. 20. 21. 22. Protective device according to claim 17, characterized in that said at least one abutment (18) is created by the design of a wall (17) of the container (2). Protective device according to claim 1, characterized in that said means (5) is a resilient layer (15) arranged along at least a part of the inner limiting surface (16) of the container (2). Protective device according to any preceding claim, characterized in that said means (5) is designed and has a resilience so that said means can move relative to the container (2) by suspension of said means (5) when said means is loaded as a result of the movement of the vehicle (1). Protective device according to one of the preceding claims, characterized in that said means (5) is arranged in the container (2) intended to provide a medium for purifying exhaust gases from an internal combustion engine. A container (2) provided with a protective device according to any one of claims 1-21. A vehicle comprising a container (2) according to claim 22.