DE102007020708A1 - Condenser for use in air conditioning system, has flow openings for coolant present between wall of coolant filtering device and inner side of wall of accumulator, or another flow openings arranged in wall of coolant filtering device - Google Patents

Abstract

The condenser has a coolant filtering device (10) arranged in an accumulator and provided as a basket-like operation part with a sealant, support bars (12) and a close-meshed filter (13). A tube is passed through the coolant filtering device. Flow openings for a coolant are present between a wall (15) of the coolant filtering device and an inner side of a wall of the accumulator or other flow openings (40) are arranged in the wall (15), where the wall (15) is arranged transverse to a longitudinal direction of the accumulator.

Description

The The invention relates to a capacitor with a device for filtering of refrigerant and with the other features of the preamble of claim 1.

State of the art:

The capacitor described in the preamble with a device for filtering is from the EP 1 533 580 A1 known.

Of the known capacitor with the device is for in the said publication provided flow the collector or the capacitor ideally suited. There flows the refrigerant above the device or in the area a flow deflection on the device via a Piping into the collector, flows through the device, is filtered and flows below it another pipe back to the manifold or to Capacitor. Must for a specific other use case the flow through the condenser or the collector changed However, the known device is not applicable.

In the WO 03/081147 an identical flow through the condenser or the collector is provided, which is why the local device is not suitable for some other flow pattern.

From the U.S. Patent No. 5,159,821 a condenser with a different Durchströmweg is known. There, the refrigerant flows into the bottom of the collector and after a forced flow of a dryer and the filter screen at the bottom of the collector again from. The pressure loss in the refrigerant is therefore quite high, which is undesirable.

Of the Invention is based on the object, a capacitor with a To propose a device for filtering refrigerant, in which other flows or connections let realize the collector or the capacitor.

The object is achieved with a capacitor having a device for filtering refrigerant of the type mentioned above with the characterizing features of claim 1. Because - according to the invention - the one pipe is passed through the device for filtering refrigerant and because between a wall of the device and the wall of the collector at least a first flow opening for refrigerant is present, another flow pattern of the collector and / or the Condenser realized, which is advantageous for many applications of the capacitor. Alternatively or in addition to the first flow openings, second flow openings may also be formed in the wall of the device. By means of the invention it has become possible, for example, to connect both pipelines, that is to say the supply line and the return line, to the bottom or to the cover of the collector. The collector can be - seen in terms of flow - within the Durchströmweges of the capacitor or he can - also fluidically seen - are located downstream of the Durchströmweg of the capacitor, as in the US 5,159,821 is provided. Compared to the solution in the US patent, the pressure loss in the refrigerant was significantly reduced because the forced flow of the dryer was eliminated. The invention not only allows other flow paths to be formed, but also provides a different design of the piping or the physical connection of the collector to the manifold and the collector itself

In located in the dependent claims 2-14 Numerous refinements and developments that as to be considered in detail in this section.

These Embodiments and further training go beyond also from the following description of an embodiment made with reference to the accompanying drawings becomes. The description of the embodiment may be additional Features and their benefits that may be even as essential features can turn out.

The 1 shows a device for filtering refrigerant.

The 2 shows this device installed in a collector of the capacitor.

The 3 shows the collector from the outside.

The 4 shows a section of the capacitor.

In the 1 is merely a device for filtering refrigerant 10 see you before in a collector 30 a capacitor 60 which is part of an air conditioner, is installed. The device for filtering refrigerant 10 is made of plastic. It is structured as follows: Below, near the ground 31 of the collector 30 , there is a ring 14 with an integrated sealing lip 11 , so that the device for filtering refrigerant 10 is open at the bottom. Above is the filter unit consisting of the support struts 12 and the close-meshed filter 13 , Upstairs, to the room 40 out, ( 2 ) in which the drying agent is located, the device for filtering refrigerant 10 through a wall 15 with a downwardly facing annular edge 15a limited. At the circumference of the wall 15 the device 10 are outside a number of partial investments 16 provided, which is the device for filtering refrigerant 10 on the wall of the collector 30 support. In the illustrated embodiment, the partial investments 16 as protrusions 16 educated. Because the cross section of the collector 30 is round, arise through these projections 16 several first flow openings 36 between the inside of the wall 39 of the collector 30 and the wall 15 the device 10 , Through these first flow openings 36 the refrigerant flows out of the collector on the way back 30 through, continues through the close-meshed filter, where residues can deposit, and enters the return pipe 33 , In the illustrated embodiment are on the wall 15 the device for filtering refrigerant 10 four projections 16 three would be enough, or it could be more than four. The partial investments 16 work together with the sealing lip 11 as stabilization of the device 10 in the collector 30 , To stabilize the position of the device 10 serve also dents 35 after the installation of the device for filtering refrigerant 10 in the wall of the collector 30 - just above the seat of the sealing lip 11 - be attached. The device 10 is not interchangeable in this embodiment, since it has been found that the interchangeability is not necessary. ( 2 or 3 ) Above, on the wall 15 the device, are an assembly aid 18 ( 1 ) and the flow deflection 20 appropriate. The mounting aid 18 is for the insertion of the device for filtering refrigerant 10 in the collector 30 needed.

In an embodiment not shown, the wall is also 15 with additional struts and a close-meshed filter 13 been trained. The filter area is smaller here. Merely to make this execution understandable, were in the 1 two round, second flow openings 40 for the backflow in the wall 15 indicated. It could also be in another embodiment instead of the projections 16 another circumferential sealing lip 11 be provided. Or it will only be the wall 15 including assembly aid 18 , Flow deflection 20 , Sealing lip 11 , Filters 13 and support strut 12 intended. So that the refrigerant is not with full force on the desiccant 70 in the room 40 bounces, here was a flow deflection 20 with the wall 15 integrated. From the prior art baffles were known to prevent the refrigerant directly to the drying agent 70 meets. If the currents are too strong, the desiccant may crumble over time. By the flow deflection according to the invention 20 holding the wall of the collector 30 As a baffle plate, this destructive power is mitigated, thus also achieved that the device 10 does not need to be replaced because there are fewer residues. The flow deflection 20 is an integral part of the device 10 for filtering refrigerant. In the wall 15 the device for filtering refrigerant 10 there is an opening 23 , In this opening 23 becomes the pipe 33 through which the refrigerant (KM) enters the collector 30 flows in, plugged in. The pipe 33 ends in the area of the side walls 21 and 24 the flow deflection 20 , The slope attached above 22 then redirects the refrigerant. It is about the angle w against the axis of the tube 33 inclined. The angle w can be chosen arbitrarily, but has proven to be particularly advantageous, a value of about 45 °.

In the 2 is also shown how this flow deflection 20 works. That from the condenser 60 flowing refrigerant KM is through the pipe 33 the collector 30 through its bottom 31 fed. The pipe 33 provides as a riser that the refrigerant to the device 10 eccentrically, as shown, or can be passed centrally or centrally. The refrigerant then flows, deflected by the flow deflection 20 , in the room 40 , In this room 40 the refrigerant KM is dried and the liquid refrigerant is separated from the remaining gaseous components. Through the pipe 32 which returns the refrigerant to the condenser 60 , in its sub-cooling zone, supplies, only liquid refrigerant should reach. But before it's in the ground 31 the collector located pipe 32 flows, the refrigerant needs the flow openings 36 and the device for filtering refrigerant 10 , in particular the close-meshed filter 13 , happen. The preferred flow path of the refrigerant is in 2 illustrated by means of dashed arrows.

In 3 is the collector 30 to be seen from the outside as a whole. The device 10 , below the dryer 70 , was not drawn here to make other details more visible. The capacitor 60 , the pipes 33 and 32 , the floor 31 of the collector 30 , as well as the collector 30 are soldered together. Only after soldering is the device used to filter refrigerant 10 used with the aid of a tool, not shown. Then the drying agent 70 , which is in a suitable container, in the collector 30 introduced. Finally, the collector 30 at its upper end by a suitable releasable cover 37 locked. The drying agent 70 is replaceable if necessary, the device 10 however, it is preferably not interchangeable as mentioned above. In the 3 was the outline of the one Sam by a dashed perimeter melrohres 63 drawn in the capacitor. As is well known, a second manifold, not shown, is located at the other end of the condenser tubes 61 in the 4 were indicated. In the collection tube shown 63 were also partitions 65 indicated that a meandering flow through groups of condenser tubes 61 between the headers 63 effect, wherein the first gaseous refrigerant is gradually cooled by means of cooling air and liquefied. In this embodiment, the return of the refrigerant is in the condenser 60 provided for its subcooling. In an embodiment not shown, the already supercooled refrigerant flows over the pipeline 33 back into the known refrigerant circuit, not shown. It can also be seen that the length of the collector 30 is much smaller than the length of the manifold 63 , The difference length is approximately through the piping 32 . 33 busy. On the outside of the collector 30 There are rail-like guides 34 in which made of sheet metal strips, provided on both sides with a layer of solder joints 38 clamped, which when soldering a firm connection between the collector 30 and the manifold 63 of the capacitor 60 produce. The collector 30 is an extruded tube, with the guides 34 can be produced by extrusion.

In 4 is a perspective insight into the collector 30 given. The collector 30 is located in the immediate vicinity of the collecting pipe 63 of the capacitor 60 , This one is made of flat ears 61 and intermediate cooling air fins 62 built up. Clearly recognizable is the inventive idea, the tube 33 through the device for filtering refrigerant 10 pass through and in the flow deflection 20 to end.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• EP 1533580 A1 [0002]
• WO 03/081147 [0004]
• - US 5159821 [0005, 0007]

Claims (14)

Capacitor with a device ( 10 ) for filtering refrigerant (KM) of an air conditioning system, which is in one with a collecting pipe ( 63 ) of the capacitor ( 60 ) via pipeline (s) ( 33 . 32 ) associated collectors ( 30 ), which has a bottom ( 31 ) and a lid ( 37 ), the device ( 10 ) as a basket-like insert with sealant ( 11 ), Flow control means ( 20 ) and with filter media ( 13 ), characterized in that the one pipeline ( 33 ) by the device for filtering refrigerant ( 10 ) is guided, and that either between an approximately transversely to the longitudinal direction of the collector arranged wall ( 15 ) of the device ( 10 ) and the inside of the wall ( 39 ) of the collector ( 30 ) at least a first flow opening ( 36 ) is present for refrigerant, or that in the wall ( 15 ) of the device ( 10 ) at least one second flow opening ( 40 ) is arranged. Condenser according to claim 1, characterized in that the refrigerant on the way back from the collector ( 30 ) the filter means ( 13 ) flows through, wherein the first and / or the second flow openings ( 36 . 40 ) Return openings are. Capacitor according to claims 1 or 2, characterized in that the flow deflection means ( 20 ) in continuation of the pipeline ( 33 ) on the wall ( 15 ) of the device are arranged. Condenser according to claim 3, characterized in that the flow deflection means ( 20 ) the flow on the wall ( 39 ) of the collector ( 30 ) to steer. Capacitor according to claims 3 or 4, characterized in that the flow deflection means ( 20 ) consist of a tube and lying at the end of the tube baffle. Condenser according to claim 1, characterized in that the at least one first flow opening ( 36 ) can be formed by the fact that the surface of the wall ( 15 ) of the device not with the cross section of the collector ( 30 ) matches. Capacitor according to Claim 6, characterized in that the wall ( 15 ) the device partial, circumferentially distributed systems ( 16 ) on the inside of the wall of the collector ( 30 ), wherein a plurality of return openings ( 36 ) between the wall ( 39 ) of the collector ( 30 ) and the wall ( 15 ) of the device are formed. Condenser according to claim 1, characterized in that both pipelines ( 33 . 32 ) either in the ground or in the lid ( 37 ) of the collector ( 30 ), Condenser according to one of the preceding claims, characterized in that in the collector ( 30 ) not with the device ( 10 ) connected dryer ( 70 ) is arranged in a flow-through container, wherein the dryer ( 70 ) is replaceable, the device ( 10 ) but preferably not interchangeable in the collector ( 30 ) is attached. Capacitor according to one of the preceding claims, characterized in that the collector ( 30 ) is significantly shorter than the manifold ( 63 ) of the capacitor. Condenser according to one of the preceding claims, characterized in that the pipelines ( 33 . 32 ) about the difference length between the collector ( 30 ) and the manifold ( 63 ). Capacitor according to one of the preceding claims, characterized in that the collector ( 30 ) as an extruded tube with a continuous guide rail ( 34 ) is formed on its outside. A capacitor according to claim 12, characterized in that the continuous guide rail ( 34 ) fasteners attached thereto ( 38 ), wherein the connecting pieces ( 38 ) of the soldering connection of the collector ( 30 ) with the manifold ( 63 ) serve. Capacitor according to Claim 13, characterized in that the connecting pieces ( 38 ) are formed and preferably provided on both sides with a layer of solder sheet metal strip with a raised connecting portion, which at the manifold ( 63 ) are solderable.