This application claims priority from German Patent Application No. 10 2022 114 845.9, filed Jun. 13, 2022, which is incorporated herein by reference as if fully set forth.
The invention relates to a fluid distribution system having a main distribution line and a number of branch lines, which branch lines branch off in each case from the main line, in the case of which a throttle device is arranged in at least one branch line.
The invention furthermore relates to a method for producing a fluid distribution system composed of a main distribution line and a number of branch lines, which branch lines branch off in each case from the main line, in particular of the fluid distribution system according to the invention.
In previously known fluid distribution systems, for example, in cooling circuits with several locations for cooling of structural elements or components, throttle devices or throttles in the form of separate, individualized parts are realized, which parts have to be correspondingly planned, installed and subsequently tested. Such throttles are necessary to control a flow of fluid, for example, a cooling fluid, in the fluid distribution system to the stated structural elements or components in a suitable manner.
The individualization of the individual parts prevents a per se desirable use of identical parts and thus increases the costs for the production of the fluid distribution system as a result of low piece numbers and complexity during mounting.
The object on which the invention is based is to provide a throttle function in the branches or branch lines of a fluid distribution system, wherein a simplification of production and a corresponding cost advantage should be achieved as a result of the use of identical parts in planning, procurement and mounting.
The object is achieved according to the invention by a fluid distribution system with one or more of the features disclosed herein as well as by a method for producing a fluid distribution system with one or more of the features disclosed herein.
Advantageous further developments of the invention are defined below and in the claims.
According to the invention, a fluid distribution system having a main distribution line and a number of branch lines, which branch lines branch off in each case from the main line, in the case of which a throttle device is arranged in at least one branch line, is characterized in that the throttle device is formed by at least a local deformation of the relevant branch line.
According to the invention, a method for producing a fluid distribution system composed of a main distribution line and a number of branch lines, which branch lines branch off in each case from the main line, in particular of the fluid distribution system according to the invention, is characterized in that, in at least one branch line, a throttle device is deformed by at least a local deformation of the relevant branch line.
It is accordingly proposed in the context of the present invention to provide a throttle function in the case of a fluid distribution system, which fluid distribution system is formed substantially from what is known as a main pipe (MP) or main distribution line and drop lines connected to the main pipe, i.e. branch lines, in that the stated throttle or throttle device is realized individually by local deformation, in particular by mechanical action on the respective drop line (DL).
It is in this manner in particular possible to manufacture the fluid distribution system using identical drop lines (branch lines) and where necessary form a respective throttle after the manufacture of the actual fluid distribution system depending on the desired requirement.
In this case, the throttle or throttle device can have individual characteristics in a respective branch line at a corresponding position along the main distribution line, for example, by variation of the respective indentation depth and length, in particular in the context of the mechanical action stated by way of example.
The terms “throttle” and “throttle device” are used here and below as synonyms.
The stated individual characteristics of the throttle device(s) preferably reflect a loss in pressure which is relevant for the equal distribution of a mass flow in the fluid distribution system at or in the relevant throttle device.
The above-mentioned preferred mechanical action to create the local deformation can be performed by the pushing in of one or more tool or stamp geometries which are arranged or can be arranged preferably symmetrically over the circumference of the relevant branch line so that a preferably star-shaped pipe cross-section of the branch line is produced.
The stated star shape of the pipe cross-section preferably has more than two points, most preferably three or four points. One advantage of the star geometry is the reduction in the hydraulic diameter for the required loss in pressure alongside simultaneously optimal maintenance of the geometrical moment of inertia and thus the rigidity of the overall construction.
The following configurations of the device according to the invention or method according to the invention are listed in the subordinate claims and have been shown to be particularly advantageous:
As has already been stated, it can be provided in a further development of the fluid distribution system according to the invention that the deformation, i.e. the local deformation for creating the throttle device, was generated by mechanical action on the branch line, preferably by action from the outside on the branch line. A corresponding process can be realized particularly easily and thus at low cost.
Another further development of the fluid distribution system according to the invention provides that the deformation includes a cross-sectional change, in particular cross-sectional narrowing. As a result of this, a particular simple possibility is provided to achieve an intentional throttle action and adapt it to a given requirement.
Once again in the course of another further development of the fluid distribution system according to the invention, it can furthermore be provided that the deformation comprises at least a maximal deformation depth, in particular indentation depth, and a deformation length, in particular indentation length. A desired loss of pressure in the relevant branch line can be effectively and easily adjusted via the deformation depth and/or the deformation length.
Yet another further development of the fluid distribution system according to the invention provides that a multiplicity of branch lines, preferably all branch lines, are formed identically, with the exception of the respective deformation, in particular in terms of their respective cross-section. The production of the fluid distribution system is in this manner particularly simple because a large number of identical parts can be used for the branch lines. Adjustment to a specific use or requirement is performed solely by the individualization of the respective deformations.
Another further development of the fluid distribution system according to the invention again provides that the deformation of the relevant branch line is designed in an individualized manner at each branch line, e.g. in terms of length, depth and/or cross-section, in order to control a mass flow of a consumer connected or to be connected to the respective branch line.
It has been shown to be particularly advantageous if, in the case of a corresponding further development of the fluid distribution system according to the invention, the deformation is formed in a cross-section through the relevant branch line in a point-symmetrical manner in relation to a center point of the branch line, in particular in a star-shaped manner with a star shape. Such a configuration has been shown to be expedient in particular in terms of the mechanical resistance of the fluid distribution system.
It is particularly advantageous in this context if, in the case of a corresponding further development of the fluid distribution system according to the invention, in the case of a star-shaped configuration of the branch line, the star shape has at least three points, preferably four points.
A configuration of the fluid distribution system according to the invention has been shown to be particularly expedient in practice, in the case of which the points are arranged symmetrically over a circumference of the branch line.
In order to further improve the usability of the fluid distribution system according to the invention, it can also be provided in the case of a corresponding further development that the branch line is arranged between the main distribution line and a preferably at least partially corrugated line element which proceeds from the main distribution line. The branch line then substantially “only” serves to form the throttle device and to connect the stated line element to the main distribution line. If the line element is formed to be at least partially corrugated, in particular in the manner of an (annular) corrugated hose or a bellows, in particular manufacturing tolerances and tolerances induced by temperature as well as vibrations can easily be compensated for or absorbed during operation.
In the case of yet another further development of the fluid distribution system according to the invention, the branch line can be inserted with its one end into an opening or into an extrusion in the main distribution line, and the line element can be inserted into another end of the branch line. In this manner, a particularly simple and process-reliable structure of the fluid distribution system is produced.
In the course of a further development of the method according to the invention, as was noted above, it can be provided that the deformation, i.e. the local deformation of the branch line for the purpose of the formation of the throttle device, is performed by mechanical pushing in of the branch line from the outside, preferably by means of a suitable push-in tool, most preferably in the case of simultaneous support of the branch line from the inside. Such a process is particularly simple and low-cost.
In the course of a further development of the method according to the invention, it can also be provided that, in order to produce the fluid distribution system, several branch lines are used which are or were formed to be substantially identical prior to the deformation, in particular in terms of their respective cross-section. The corresponding advantages have already been pointed out.
Another possible further development of the method according to the invention provides that the branch line is already deformed prior to a connection to the main distribution line in order to produce the throttle device.
The method according to the invention in the case of a corresponding further development is, however, particularly advantageous if the branch line is only deformed after a connection to the main distribution line. The fluid distribution system can then be prefabricated, and is only adapted on site in terms of the desired pressure losses.
It has likewise been shown to be particularly advantageous if, in a further development of the method according to the invention, prior to the deformation, a further line element, preferably an at least partially corrugated line element, in particular an (annular) corrugated hose or bellows, is inserted into a free end of the branch line and preferably fastened in a firmly bonded manner to the branch line, for example, by welding, gluing or soldering.
The method according to the invention in the case of a corresponding further development is also very preferably advantageous if the deformation of the relevant branch line is performed in an individualized manner in terms of its characteristics, e.g. in terms of depth, length and/or type of deformation, at each branch line in order to control a mass flow of a consumer connected to the respective branch line.
In the course of the present invention, in particular the advantages listed below can be realized which are expressed in simplified and thus lower cost production: Use of identical parts (in particular for the branch lines), individualization of the throttle devices only after mounting and the joining process, no risk of confusion, no separate structural elements.
It is furthermore possible to perform the process for producing the throttle devices in what is known as a (process) auxiliary time, for example, parallel to alignment after soldering if, for example, the branch lines and/or the stated further line element are connected to one another or to the main distribution line by a soldering process.
Further properties and advantages of the invention will become apparent from the following description of exemplary embodiments on the basis of the drawing.
A schematic overall representation of a previously known fluid distribution system is shown in
The fluid distribution system is designated overall in
In the case of reference number 6, the main pipe or main distribution line 2 has an extrusion into which a branch line 7 is inserted. The branch line 7 can be connected to the main distribution line 2 in particular in a firmly bonded manner, for example, soldered. Reference number 8 designates a separate throttle device which is arranged on the branch line 7 in order to control the throughflow of a fluid, for example, of a cooling fluid. A further line element 9 adjoins the throttle device 8, which line element 9 is formed in the present case as bellows. On the other hand, the further line element 9 is connected to a further element 10, which can involve, for example, a connecting part for connecting the branch line 7 or the further line element 9 to a battery module which is to be subject to temperature control of an electrically driven motor vehicle in order to supply, for example, the battery module with cooling fluid.
As already mentioned in the introductory part of the description, it has been shown to be disadvantageous if the throttle device 8 is formed as a separate structural element. The present invention is of assistance here, as is represented by way of example in greater detail below on the basis of
At the very top in
In the center of
As can be inferred from the representation at the bottom in
The branch line 7 which is relatively short here is inserted with one end 7b in the region of the extrusion 6 into the main pipe or main distribution line 2 and fixed there preferably in a firmly bonded manner. At its other end 7c, the branch line 7 has a widening into which a further line element 9 in the form of a corrugated hose is inserted. The corrugated hose can be connected in a non-positive manner to the branch line 7 in particular by injection. Additionally or alternatively, a firmly bonded connection is also considered here.
In the case of a correspondingly prefabricated fluid distribution system 1, as an initially last step of manufacture, the throttle device 8 already mentioned several times is preferably formed by local deformation of the branch line 7. A suitable push-in tool 11 is in turn preferably used for this purpose, which push-in tool 11 acts according to the arrows P circumferentially from the outside on the branch line 7 so that the contour plotted by a dashed line in
If the fluid distribution system 1 has further extrusions 6 (not shown in
Number | Date | Country | Kind |
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102022114845.9 | Jun 2022 | DE | national |