DE102005057315A1 - Container mechanism for windshield wiper system for motor vehicle, has channel arrangement for circulating heating liquid provided within perimeter wall of container - Google Patents

Abstract

A channel arrangement (18) for circulating heating liquid is provided within the perimeter wall (30) of a container (10). The channel arrangement consists of parallel channels (20) interconnected together by short transitions (36). A connection channel (44) connects the channels and transitions to a heating liquid inlet (38) and outlet (40) disposed around the container.

Description

The The invention relates to a container device for one Windscreen washer of a motor vehicle in the Oberbetriff of the claim 1 specified type.

Such container devices are already out of the DE 38 25 328 A1 and the DE 38 25 330 C3 to be known as known. The local containers each comprise a boundary wall, on the outside of which a channel arrangement bounded by further channel walls is arranged. Within this channel arrangement circulates a heating fluid in the form of coolant of a coolant circuit of an internal combustion engine of the motor vehicle, which serves to heat the stored liquid within the container. This is to be avoided in particular that the stored liquid - which is, for example, water or a detergent concentrate mixed with water - can freeze at temperatures below its freezing point within the container, so that the windscreen washer system can not be supplied.

When A disadvantage of these known container devices is the fact to see that additional outer channel walls to the respective outer boundary wall of the container must be attached to form the channel arrangement. This does not just require one considerable additional material costs, but also a correspondingly higher installation costs.

task The present invention is therefore a container device of the type mentioned above to improve so that a significant can realize simple designed channel arrangement.

These The object is achieved by a container means solved with the features of claim 1. Advantageous embodiments with appropriate and non-trivial developments of the invention are described in the remaining claims.

at the container device According to the invention, the channel arrangement is within the boundary wall of the container educated. In other words, according to the invention, the channel arrangement directly within the already existing boundary wall of the container to arrange. For this purpose, a plurality are within the boundary wall of channels provided in a simple way during the manufacturing process of the container - for example by suitable slide in tools in plastic injection molding - formed can be. Due to the direct integration of the channel arrangement within the boundary wall can also be saved the space, the so far for the attachment of the channel arrangement limiting channel walls has been required is.

In Further embodiment of the invention, it also has to be advantageous shown a variety of extending parallel to each other Channels inside provide the boundary wall. Such channels are on the one hand relatively easy to produce during the manufacturing process of the container and on the other hand for one uniform heating the boundary wall, within which the channel arrangement is arranged is.

Especially just lets a circulation or an overflow of the heating fluid from one to the next next Achieve channel in that these adjacent channels via intermediate bridges connected to each other. Since accordingly the intermediate webs in the direction of extent of the channels These are also extremely simple - together with the channels - during production of the container to bring in the boundary wall.

In Another embodiment of the invention, it has to be particularly advantageous shown when the intermediate webs opposite to the adjoining channels shortened are. On the one hand can thus be provided in the areas where the gutters are, a very good flow over the heating fluid reached between the adjacent channels of the channel arrangement become. On the other hand, the boundary wall is in those areas the only of the channels and are not interspersed by the intermediate webs, especially stable designed.

A Particularly good circulation of the heating fluid within the container can be achieved when the channels and the intermediate webs to a circumferential connecting channel between an inlet and an outlet are connected. In addition to a special good circulation also results in a particularly fast and reliable heating of the inside the container stored liquid.

If the container is formed from two separate sub-switches, the channel arrangement can be introduced into the boundary wall of the respective sub-shell in a simple manner-starting from an abutment surface of the sub-shells to be subsequently connected to one another. In addition, in such a design of the container large areas of its boundary wall can be provided with channels of the channel arrangement, so that a total of a particularly fast and reliable heating of be within the container allow for stored fluid. Thus, it is possible, for example in a cuboid-shaped container in a simple manner, to provide four of the six outer sides of the boundary wall with channels.

When manufacturing technology has proven to be particularly easy the gutters near the push provide between the two shells of the container. hereby are the intermediate webs in the manufacturing process of the shells on simple way in the boundary wall of the respective sub-shell recoverable.

Finally has it is shown to be particularly advantageous, the channels in cross section essentially circular in shape. The inside of the channels if necessary resulting pressure of the heating fluid In this way it can optimally pass through the corresponding boundary wall be recorded.

Further Advantages, features and details of the invention will become apparent the following description of a preferred embodiment as well as from the drawings; these show in:

1 a schematic perspective view of a partial shell of a container of the container device according to the invention, wherein within the boundary wall of the partial shell, a plurality of mutually parallel channels are recognizable, which are each interconnected via intermediate webs;

2 a schematic perspective view of the within of two sub-shells according to 1 composite schematically indicated container;

3 an enlarged perspective top view of the arranged within the dashed lines indicated upper boundary wall of the container channel arrangement according to 2 ; and in

4 a sectional perspective view through the channel assembly along through the line IV-IV in 3 indicated cutting plane, which extends parallel to a shock between the two shells of the container.

In 1 is a schematic perspective view of a first partial shell 12 a total of approximately cuboid container 10 ( 2 ), which is assigned to a container device for a windscreen washer system of a motor vehicle. The container 10 serves for the storage of pure water or with windscreen wash concentrate added water, which at correspondingly low temperatures below the freezing point of water or the corresponding mixture within the container 10 could freeze. Upper side of the first partial shell 12 is a filler neck 16 recognizable, over which the water or the mixed with windscreen wash water mixture into the container 10 ( 2 ). Within the first subshell 12 of the container 10 is a channel arrangement 18 whose structure is particularly in conjunction with 2 becomes clear. This shows 2 the channel arrangement 18 within of the first subshell 12 and a second subshell 14 composite, indicated only by dashed lines container 10 ,

The channel arrangement 18 includes a plurality of mutually parallel channels 20 standing at a top 22 , a base 24 as well as a right and left side 26 . 28 the boundary wall 30 of the container 10 are introduced. Accordingly, within a back 32 and a front side 34 no channels 20 within the boundary wall 30 intended. Out 2 is also apparent that the channels 20 over almost the entire width of the container 10 run. The mutually adjacent channels 20 are over intermediate bridges 36 connected to each other, opposite to the adjacent channels 20 are formed shortened.

The shape of the gutters 36 in particular from the 3 and 4 clear. It shows 3 a partially enlarged perspective view of the top 22 the only dashed lines indicated boundary wall 30 of the container 10 , within which the plurality of channels provided in this area 20 the channel arrangement 18 are recognizable. In 4 is a fragmentary enlarged perspective sectional view of the channel assembly 18 along the line IV-IV in 3 shown. Here it becomes apparent that the intermediate webs 36 are designed in cross-section substantially rectangular. The intermediate bridges 36 are in their thickness d ( 4 ) are narrower than the diameters D of the individual channels 20 , The width b of the intermediate webs 36 - which the distance between two adjacent channels 20 corresponds - is about the same size as the diameter D of the channels 20 , About an inlet 38 is the channel arrangement 18 to supply with a heating fluid, which is used to heat the container 10 or the liquid stored therein. In the present embodiment, the cooling water of a coolant circuit of an internal combustion engine of the motor vehicle is used as heating fluid. Likewise, it would also be conceivable to use a differently heated heating fluid. The over the inlet 38 in the channel arrangement 18 inflowing heating fluid flows through the boundary wall 30 of the container 10 to an outlet 40 who as well as the one let 38 at the top 22 of the container 10 is arranged. To the circulation of the heating fluid within the channel arrangement 18 or within the boundary wall 30 of the container 10 to realize, are the mutually parallel channels 20 with the respective adjacent channel 20 over the respective gutter 30 connected. As in particular from 2 is recognizable, are the intermediate webs 36 opposite the adjacent canals 20 shortened trained. While the channels are 20 in the present embodiment, approximately over the entire width of the container 10 extend, are the intermediate webs 36 only in a narrow area to the right and left of a push 42 ( 2 ) between the two subshells 12 . 14 of the container 10 intended. The width of the intermediate webs 36 is on the left and right side 26 . 28 as well as at the bottom 24 the boundary wall 30 of the container 10 designed with a constant width. As in particular in conjunction with 3 can be seen, extend the intermediate webs 36 at the top 22 of the container 10 - starting from the left or right side 26 . 28 - to the inlet 38 and to the outlet 40 out.

In particular from the 2 and 3 It can be seen that the over the inlet 38 inflowing heating fluid through the intermediate webs 36 from one to the next channel 20 can overflow. The channels 20 and the respective intermediate webs 36 are thus to one between the inlet 38 and the outlet 40 around the container 10 running around the connection channel 44 educated. It passes through the inlet 38 in the channel arrangement 18 inflowing heating fluid first in a first channel 20 , then flows over the adjacent gutter 36 in the next channel 20 , etc., while the heating fluid inside the connection channel 44 - formed from the over the intermediate webs 36 interconnected channels 20 - from the inlet 38 to the outlet 40 flows, prevails within the opposite the intermediate bridges 36 rib-like protruding channel areas of the channels 20 no circulation of the heating fluid contained therein. Since these projecting channel regions are formed as blind holes, the heating liquid therein is heated by the heat conduction within the connecting channel 44 circulating heating fluid. In other words, the standing within the channel areas heating fluid by heat conduction of the warmer heating fluid within the connecting channel 44 heated. After an initial phase of heating the container 10 thus results over all four sides 22 . 24 . 26 . 28 in which the channel arrangement 18 is provided, an equally good warming.

In the present embodiment, the intermediate webs extend 36 starting from a push 92 between the two subshells 12 . 14 of the container 10 towards the back 32 or the front 34 , Accordingly, the intermediate webs 36 in the production of the partial shells 12 . 14 in a simple way from the the push 42 forming end face of the respective sub-shell 12 . 14 be brought forth. For this purpose, for example, in a plastic injection molding a slide can be used, which is the shock 42 forming end face forth in the tool for producing the respective partial shell 12 . 14 is extended. It is clear that depending on the width b and thickness d of the intermediate webs 36 the flow rate of the heating fluid within the connection channel 44 can be influenced. Likewise, it is apparent that the length of the intermediate webs 36 a significant influence on the flow rate and flow rate of the heating fluid within the channel assembly 18 Has.

Out 3 it can be seen that in the area of the inlet 38 and the outlet 40 between two adjacent channels 20 no gutter 36 is provided. This avoids that a direct overflow of the heating fluid from the inlet 38 to the outlet 40 can take place. Rather, the heating fluid flows through the circumferential connecting channel 44 around the pages 22 . 24 . 26 . 28 around the container. Out 2 is also recognizable that the two shells 12 . 14 are identical. This makes it possible, with a single tool both shells 12 . 14 manufacture. The channels 20 are designed in a preferred manner with a circular cross-section. This ensures that a built-up by the heating fluid pressure within the individual channels 20 optimal on the boundary wall 30 of the container 10 can be transferred. Finally, in particular 2 recognizable that the boundary wall 30 of the container 10 is made more stable in the area in which no intermediate webs 36 are provided. Accordingly, the intermediate webs 36 arranged so that the stability of the container 10 is guaranteed. Instead of here essentially transverse to the direction of circulation within the connecting channel 44 extending channels 20 it would also be possible to arrange them at an angle. Likewise, of course, conceivable channels would be 20 to use with a different cross-section.

Claims (11)

Container device for a windscreen washer system of a motor vehicle with at least one boundary wall ( 30 ) comprehensive container ( 10 ), the stored liquid through which in a channel arrangement ( 18 ) is to heat circulating heating fluid, characterized in that the channel arrangement ( 18 ) within the boundary wall ( 30 ) of the container ( 30 ) is trained. Container device according to claim 1, characterized in that the channel arrangement ( 18 ) a plurality of mutually parallel channels ( 30 ). Container device according to claim 2, characterized in that mutually adjacent channels ( 30 ) of the channel arrangement ( 18 ) via intermediate bridges ( 36 ) are interconnected. Container device according to claim 3, characterized in that intermediate webs ( 36 ) are provided, which are opposite to the adjacent channels ( 20 ) are formed shortened. Container device according to claim 2 or 3, characterized in that the channels ( 20 ) and the intermediate webs ( 36 ) to one between an inlet ( 38 ) and an outlet ( 40 ) around the container ( 10 ) circumferential connecting channel ( 44 ) are arranged for the heating fluid. Container device according to claim 3, characterized in that the intermediate webs ( 36 ) to the inlet ( 38 ) and to the outlet ( 40 ) extend. Container device according to claim 1, characterized in that the container ( 10 ) of two partial shells ( 12 . 14 ) is formed, within each of which the channel arrangement ( 18 ) is trained. Container device according to claims 3 and 7, characterized in that the intermediate webs ( 36 ) in the area of a shock ( 42 ) between the two subshells ( 12 . 14 ) of the container ( 10 ) are formed. Container device according to claims 2 and 7, characterized in that the channels ( 10 ) starting from a shock ( 42 ) between the two subshells ( 12 . 14 ) over the almost entire width of the associated partial shell ( 12 . 14 ) of the container ( 10 ). Container device according to claim 2, characterized in that the channels ( 20 ) of the channel arrangement ( 18 ) are designed substantially circular in cross-section. Container device according to claim 2, characterized in that the channels ( 20 ) extend substantially transversely to a direction of circulation of the heating fluid.