The invention relates to a condenser, in particular according to the preamble of patent claim 1, and also to a method for manufacturing a condenser.
According to the condenser known from DE-A 197 12 714, a dryer/filter cartridge is inserted, after the soldering process, into the collector of the condenser, positioned there, and the collector is then closed off in a pressure-tight fashion by means of a screwable lid. The dryer/filter cartridge is embodied as a plastic injection molded part because it is not subjected to the high temperatures of the soldering process, and is connected to the closure lid by a clip connection, and as a result the dryer/filter cartridge can be mounted together with the closure lid and also replaced together with the closure lid in the case of a repair or maintenance.
The design and the function of such a condenser or condenser mode in which the collector is integrated into the condenser are described in more detail in DE-A 42 38 853 by the applicant. The disclosed content in this publication is herewith expressly incorporated in the disclosed content of the present application. Said publication has already disclosed an embodiment in which the dryer cartridge cannot be removed from the collector. There is no information about the attachment of the dryer cartridge in the collector.
In the course of the further development of such a soldered coolant condenser, EP-A 1 079 186 has also proposed a dryer insert which cannot be replaced and which is inserted into the collector of the condenser after it has been soldered and is subsequently closed off by a lid by means of a welded connection. Such a dryer therefore cannot be replaced in a nondestructive fashion. This dryer insert is attached to a disk with a shaft-shaped support, the circumference of the disk forming a clamped fit with the inner wall of the collector. As a result of this only frictionally locking securement of the dryer insert, the dryer insert is not positioned or attached in a clearly defined way but instead can carry out movements within the collector, in particular as a result of vibrations due to the vehicle in which it is installed, which leads to undesired abrasion and noise.
The object of the present invention is to improve a condenser of the type mentioned at the beginning to the effect that it can be manufactured cost effectively and that, in particular the dryer/filter cartridge is positioned in the collector using simple means.
The means of achieving this object are obtained, with respect to a condenser, from the features of patent claim 1 and in a further inventive solution from the features of claim 3, and for an inventive method according to the features of patent claim 24, which relates to a method for manufacturing the condenser.
The dryer/filter cartridge is positioned with respect to the collector by means of a securing means which is easy to manufacture and is arranged at the circumference. This provides the advantage that after the condenser has been soldered the cartridge can easily be inserted into the collector through the open end side and pushed in until the securing means, which is preferably embodied as a circumferential or interrupted securing rib, engages or latches in a corresponding depression in the collector. The securing means can however also be formed by a plurality of fingers or projecting elements which are distributed along the circumference. The depression can be embodied here as an annular groove or as a bead in the pipe. The depression can also be embodied as a plurality of individual depressions.
When the cartridge is pushed in, the securing rib is preferably firstly deformed elastically until it reaches the depression in the collector and clicks into it. The cartridge is thus positioned and secured in the collector. The collector is then closed off in a nondetachable fashion by a lid, i.e. soldered, welded or bonded or closed off by a detachable stopper. The securing means in the form of a circumferential or interrupted securing rib can be attached to the plastic housing of the cartridge by injection molding and thus does not entail any additional fabrication expenditure.
In one advantageous development of the invention, the collector is composed of two parts, specifically a thin-walled pipe, manufactured from commercially available welded piping, and of an extruded profiled element, which can be processed by cutting. This profiled element therefore has not only the two overflow openings but also an annular groove which is formed in the inner wall and into which the securing rib clicks, thus ensuring the positioning of the cartridge in the collector.
According to one advantageous development of the invention, the securing means is embodied as an additional component in the form of an annular spring element which is secured to the cartridge at one end and is inserted by compression into the depression (annular groove or bead) in the collector at the other end, thus positioning the cartridge in the collector. The annular spring element may be a standard part which is secured axially to the cartridge, for example is inserted into an annular groove (in the manner of a piston ring) in the cartridge. This annular spring element positions the cartridge in the collector in a particularly secure way.
In an advantageous development of the invention there is provision for both the sealing lip and the securing rib to be embodied as one and the same part which is attached to the cartridge and is preferably embodied as a single-piece plastic injection molded part. This combined sealing and securing means in the form of a circumferential, elastically deformable lip is arranged between the two overflow openings in order to be able to fulfill its sealing function between the upper and lower parts of the collector.
Exemplary embodiments of the invention are illustrated in the drawing and will be described in more detail below:
a shows a detail of a collector,
Since the cage-like sleeve of the dryer cartridge 11 is composed of plastic, it cannot be soldered simultaneously to the condenser, and instead the cartridge 11 is inserted, after the soldering process, into the collector 3 which is then open at one end, i.e. for example the closure lid 9 is still missing. After the cartridge 11 has been inserted and positioned in the collector 3, said collector 3 is finally closed off by soldering, welding or bonding the lid 9 to the collector 3. Alternatively, the lid 10 can also be inserted last.
The cartridge 11 is installed in the collector 3 either from the upper or from the lower side of the collector 3, as already indicated above. The cartridge 11 is then pushed into the interior of the collector 3 until the securing rib 15, whose external diameter is preferably larger than the internal diameter of the collector 3 and is therefore elastically deformed, finally springs back when the annular groove 16 is reached and latches into the annular groove 16. As a result, the cartridge 11 is firmly positioned in the collector 3 by means of a latching connection. The missing closure lid is then inserted and nondetachably connected to the collector.
In a modification of the exemplary embodiments in
Furthermore, in their embodiments described above, the securing means can be attached by injection molding to virtually any desired location with respect to the axial extent of the dryer sleeve: when they are arranged in the upper region, i.e. in the region of the thin-walled pipe, a bead which is formed in the pipe is a simple attachment possibility for the securing ribs.
In the exemplary embodiment in
In the exemplary embodiment in
A combination of the securing means of the exemplary embodiments described above is also possible.
The rigid spacer elements 210 are embodied as projection-like elements which are connected to the cartridge or are formed integrally with it. They project in the radial direction and can bear or be supported against the inner wall of the pipe of the collector. In the exemplary embodiment in
The spacer elements 220 are of flexible design and according to the exemplary embodiment in
The spacer elements are distributed along the circumference of the cartridge and are preferably arranged at angular intervals of less than 180° up to more than 60°. This means that preferably three or more spacer elements are provided.
Instead of the spacer elements described above, an annular spacer element or a spacer element composed of spaced-apart pitch circle segments or circular segments can also be arranged.
Number | Date | Country | Kind |
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10213175.9 | Mar 2002 | DE | national |
10306192.4 | Feb 2003 | DE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP03/03043 | 3/24/2003 | WO |