DE10237179B4 - Accumulator for a working on the "Orifice" principle air conditioning, in particular vehicle air conditioning - Google Patents

Abstract

Accumulator for a working on the "Orifice" principle air conditioning, in particular vehicle air conditioning, with
a) a metallic housing, which is closed by a welded-in lid and / or bottom and having an inlet and an outlet for refrigerant;
b) a desiccant-containing insert located at the bottom of the interior of the housing;
c) a line for mainly gaseous refrigerant, which communicates at one end with the upper portion of the interior of the housing, down to near the bottom of the housing, there has a small communicating with the interior of the housing bore and from there again rises to its other end, which is connected to the outlet for refrigerant,
characterized in that
d) on the inner surface of the peripheral wall (2) of the housing (1) a plurality of ribs (11) are provided, which have an extension component in the axial direction.

Description

• a) einem metallischen Gehäuse, das durch einen eingeschweißten Deckel und/oder Boden verschlossen ist und einen Einlass sowie einen Auslass für Kältemittel aufweist;
• b) einem im unteren Bereich des Innenraumes des Gehäuses untergebrachten, ein Trockenmittel enthaltenden Einsatz;
• c) einer Leitung für hauptsächlich gasförmiges Kältemittel, welche an einem Ende mit dem oberen Bereich des Innenraumes des Gehäuses kommuniziert, nach unten bis nahe an den Boden des Gehäuses führt, dort eine kleine, mit dem Innenraum des Gehäuses kommunizierende Bohrung aufweist und von dort wiederum zu ihrem anderen Ende aufsteigt, welches mit dem Auslass für Kältemittel verbunden ist.

The invention relates to an accumulator for working on the "orifice" principle air conditioning, in particular vehicle air conditioning, with

• a) a metallic housing, which is closed by a welded-in lid and / or bottom and having an inlet and an outlet for refrigerant;
• b) a desiccant-containing insert located at the bottom of the interior of the housing;
• c) a line for mainly gaseous refrigerant, which communicates at one end with the upper portion of the interior of the housing, down to near the bottom of the housing, there has a small communicating with the interior of the housing bore and from there again rises to its other end, which is connected to the outlet for refrigerant.

at According to the "Orifice" principle working air conditioners If the dryer / accumulator downstream of the evaporator. The end gaseous coming from the evaporator refrigerant consists of a gas and a liquid phase. especially the liquid Phase contains Moisture and with the refrigerant with transported oil. The task of the dryer / accumulator is, inter alia, the refrigerant The moisture (water) to withdraw, but the oil back into the refrigerant circuit attributed and Furthermore the liquid from the gaseous Phase separate.

Out Environmental reasons finds recently Increasingly the idea of attention, as a refrigerant in such air conditioners Use carbon dioxide. However, this means that all refrigerants are leading Components of the conditioner including the accumulator very much high operating pressures Need to stand up, those in the order of magnitude can be from 120 bar. To check the Tightness of the air conditioner temporarily reach these components even much higher Test pressures, the up to double the above value.

An accumulator of the type mentioned is from the DE 195 05 108 A1 known. In this, a peripheral wall of the housing is used, which has the same thickness everywhere. If this known accumulator was used with carbon dioxide as the refrigerant, the mechanical stability would be ensured only with a very thick peripheral wall, which is connected to a correspondingly high weight.

task The present invention is an accumulator of the above so that it is suitable for use with carbon dioxide as a refrigerant suitable is.

These Task is inventively characterized solved, that on the inside surface the peripheral wall of the housing a plurality of axially parallel ribs are provided, the one Have extension component in the axial direction.

On In this way, the peripheral wall of the housing can be kept thinner. This will Material and weight saved, especially when using the accumulator according to the invention in vehicle air conditioners of great importance is.

The formation of ribs on casings or pipes is basically known in the art and can serve different purposes. So is out of the DE 32 15 601 A1 a trained as a double tube cooler heat exchanger has become known between the outer and inner tubes axially extending ribs are provided which form longitudinal channels. These have the task of dissipating in the event of a leak medium and thus prevent the contact of the media in heat exchange with each other. In the DE 44 04 357 C2 are formed on a metallic heat exchange tube outer ribs ring or helically formed, which cause an enlargement of the surface of the heat exchange tube. In both these cases, the ribs do not serve to increase the stability against high operating pressures.

A particularly preferred embodiment the invention is characterized in that the lid and / or bottom additionally on the peripheral wall of the housing is secured by a positive connection.

These Embodiment of the accumulator according to the invention leaves So when you record the forces of the internal pressure the lid and / or the floor are exercised, not exclusively on the welding but primarily a form fit. The welding has in this case rather the function of a seal as that of a force receiving Connection. The positive connection can be designed so that it easily also very high forces can record. Since the welding itself moderately relieved is the danger is significantly reduced that it is leaking.

For this purpose, the ribs may each have at least one recess into which a projection of the lid or bottom is introduced by first axial movement and then rotation. The peripheral wall reinforcing rib is on Due to their recess at the same time part of the lid and / or bottom connecting to the peripheral wall positive connection.

Especially is preferred if the at least one rib on the inner surface of the Peripheral wall of the housing in the upper part of the peripheral wall merges into a smooth surface. As a result, although the weight savings made possible by the rib a bit limited; the smooth inner surface However, in the upper region of the peripheral wall of the housing prevents in cooperation with an inlet molding a direct current short between the inlet and the outlet.

Appropriate way the housing is made Aluminum. This material combines mechanical in a special way stability and low weight in itself. In addition, it can be by hot pressing process easily.

One embodiment The invention will be explained in more detail with reference to the drawing; it demonstrate

1 the side view of an accumulator according to the invention;

2 in axial section, the empty housing of the accumulator of 1 ;

3 the top view of the housing of 2 ;

4 the bottom view of the housing of the 2 and 3 ;

5 an axial section through a housing of the 1 to 4 bottom closing off;

6 the side view of the bottom of the 5 ;

7 the top view on the bottom of the 5 and 6 ;

8th an axial section through the fully assembled accumulator according to the invention.

As in particular the 2 and 8th it can be seen, the accumulator comprises a housing open from the bottom down 1 that is a substantially cylindrical peripheral wall 2 and an integrally molded upper top wall 3 has. To the top wall 3 is an upstanding, in cross-section approximately square connection head 4 molded, as this in particular the 3 can be seen. Of the 8th in which the housing 1 in a different axial section than in 2 is shown that in the connection head 4 from the bottom a first axis-parallel blind hole 5 is introduced, in which a right angle extending, from the side surface of the connection head 4 (see 1 ) introduced blind bore 6 opens. The blind bore 6 is in the side surface of the connection head 4 adjacent area with a connecting thread 7 provided, in which a connecting cable (not shown) can be screwed. The blind holes 5 and 6 form an inlet for refrigerant, which in this case consists of high pressure carbon dioxide.

Parallel to the blind hole 5 is in the connection head 4 , also from the interior of the case 1 ago, a second, stepped blind bore 8th incorporated. Also in this blind hole 8th opens at a right angle to this running, from the side surface of the connection head 4 ago incorporated blind bore 9 , The blind bore 9 is in her the side surface of the connection head 4 adjacent area with a connecting thread 10 provided, to which a refrigerant pipe can be connected. The blind holes 8th and 9 serve as an outlet for the accumulator.

How the particular 2 and 8th show possesses the peripheral wall 2 of the housing 1 in its upper, the connection head 4 adjacent area 2a a greater wall thickness than in its lower, the open end adjacent area 2 B , In the upper, thicker area 2a is the inner surface of the peripheral wall 2 for reasons which will be discussed later, smooth; in the area below 2 B In contrast, the inner surface of the peripheral wall 2 a plurality of radially inwardly projecting, axially parallel ribs 11 on, whose thickness is such that they smooth up in the thicker area 2a the peripheral wall 2 pass.

One can see the design of the inner surface of the peripheral wall 2 also so understand that in their lower range 2 B a plurality of the wall thickness reducing axially parallel grooves is introduced.

Near the bottom, the open end of the case 1 adjacent ends are the ribs 11 each through a recess 12 interrupted, whose meaning is clear below.

The housing 1 is made of aluminum and is manufactured in a hot pressing process, with the blind holes 5 . 6 . 8th and 9 in the connection head 4 and the recesses 12 in the ribs 11 are subsequently machined.

For closing the lower, open end of the housing 1 serves a lid 13 in the 5 to 7 is shown in more detail. The lid 13 is a circular in plan view molding with a lower, substantially cylindrical area 14 , to which an upstanding hollow cylindrical collar 15 is formed. At an axial distance from the cylindrical area 14 wears the collar 15 a plurality of radially outwardly projecting protrusions 16 , The number of protrusions 16 and their width in the circumferential direction corresponds to the number and width of the spaces between the ribs 11 on the inner surface of the peripheral wall 2 of the housing 1 , Conversely, the number of spaces between the projections corresponds 16 and their width in the circumferential direction of the number and the width of the ribs 11 on the inner surface of the peripheral wall 2 of the housing 1 ,

The outer diameter of the cylindrical area 14 of the soil 13 corresponds to the diameter of the inner surface of the peripheral wall 2 of the housing 1 in a slightly enlarged area adjacent to the open end 2c (see 2 ). The outer diameter of the collar 15 corresponds to the clear width, which is the interior of the housing 1 in the area of the ribs 11 owns, while the larger diameter, on which the outer boundary surfaces of the projections 16 lie, the diameter of the inner surface of the peripheral wall 2 of the housing 1 in the area between the ribs 11 equivalent.

The floor 13 can be at the open end of the case 11 be fixed in the following manner due to the embodiment described above:
The floor 13 will with the collar 15 and the projections formed thereon 16 ahead into the bottom of the case 1 introduced, with the angular position of the soil 13 opposite the housing 1 such is that the protrusions 16 in the spaces between the ribs 11 can penetrate. If the cylindrical area 16 at the step of the inner surface of the housing 1 is applied, which is the enlarged diameter area 2c the inner surface closes up, there are the projections 16 of the soil 13 in the same axial height as the recesses 12 which the ribs 11 interrupt. Now, the projections 16 of the soil 13 by a rotation in the recesses 12 be introduced. The floor 13 is now by positive engagement at the bottom of the housing 1 attached.

Before however during assembly of the accumulator the soil 13 in the manner described on the housing 1 is attached in the interior of the housing 1 housed an insert, the overall reference numeral 17 carries and in 8th is shown. The use 17 combines in itself the building components mentioned in the above DE 195 05 108 A1 with the reference numerals 5 and 21 are designated, so the local use and the local dip tube. Its function essentially corresponds to these components, so that in this respect supplementary to the DE 195 05 108 A1 Reference is made.

The use 17 includes an inlet tube 18 extending from the top of the interior of the case 1 extends axially down, there in a bowl-like transition region 19 goes over, in turn, with an axially parallel from bottom to top extending outlet pipe 20 communicates. The upper end of the outlet pipe 20 is tight with the blind hole 8th connected while on the top end of the inlet pipe 18 an inlet molding 21 is attached, over which the inlet pipe 18 with the interior of the housing 1 and thus with the blind hole 5 can communicate and prevents a direct flow short circuit between the inlet and the outlet.

At the lowest point of the transition area 19 is an axial through hole 22 provided over which the inlet pipe 18 or the outlet tube 20 with the under the transition area 19 lying interior of the housing 1 communicated. Below the transition area 19 there is a sieve cage 23 with relatively large windows, which are covered by screens, not shown in the drawing.

The inlet pipe 18 and the outlet pipe integrally formed thereon 20 eccentrically enforce a cartridge housing 24 , in the upper annular end face 25 and lower annular end surface 26 a large number of perforations is introduced. The annular space between the cartridge housing 24 and the one from the inlet pipe 18 and the outlet pipe 20 formed unit is filled with a loose bed of a desiccant (molecular sieve material), as well as the subject of the DE 195 05 108 A1 the case is.

The entire application 17 is by a coil spring 27 pressed up, which on the one hand on the ground 13 and on the other hand on the lower end wall 26 of the cartridge housing 24 supported.

When assembling the accumulator described above, proceed as follows:
First, the Rohgehäuse, as already mentioned, made of aluminum in a hot pressing process. Then the blind holes are machined 5 . 6 . 8th . 9 and the recesses 12 in the ribs 11 brought in. Now the prefabricated use 17 in the interior of the case 1 used, with the upper end of the outlet pipe 20 in the diameter-expanded range of blind hole 8th of the connection head 4 is introduced.

The spiral spring 27 is over the screen cage 23 pushed.

Now the ground is 13 in the manner already described above from below into the open end of the housing 1 introduced the accumulator and axially secured by rotation. Finally, the gap between the peripheral wall 2 of the housing 1 and the floor 13 tightly welded.

The function of the accumulator described essentially corresponds to that described in the DE 195 05 108 A1 is described with the exception that is used as a refrigerant under high pressure carbon dioxide. This carbon dioxide flows over the blind holes 6 . 5 in the interior of the case 1 one. The gaseous phase of the carbon dioxide passes over the inlet molding 21 in the inlet pipe 18 of the insert 17 a, wherein due to the smooth inner surface of the peripheral wall 2 in the upper area 2 B Turbulences are largely avoided. The gaseous carbon dioxide flows through the inlet pipe 18 down, is through the transition area 19 deflected by 180 degrees, it being the through hole 22 overflows. It sucks in a known manner to oil, which in the lowermost region of the interior of the housing 1 , above the ground 13 , stands. The gaseous refrigerant flows, now enriched by oil droplets, through the outlet pipe 20 and the blind holes 8th . 9 from the accumulator.

The liquid phase of the over the blind holes 6 . 5 entering carbon dioxide falls in the interior of the housing 1 down and through the perforations in the upper front 25 of the cartridge housing 24 in the desiccant located there and is here freed of moisture. The liquid, boiling carbon dioxide fills the entire lower interior of the housing 1 out, taking it just above the ground 13 overlying standing sump.

Because of the ribs 11 that the peripheral wall of the housing 1 in the thinner area 2 B reinforce, and due to the positive fit, by the in the recesses 12 the ribs 11 engaging projections 16 of the soil 13 is effected, the accumulator is able to withstand high operating and test pressures.

Claims (5)

Accumulator for an "orifice" principle air conditioning system, in particular a vehicle air conditioning system, with a) a metallic housing which is closed by a welded-in lid and / or bottom and has an inlet and an outlet for refrigerant; b) a desiccant-containing insert located at the bottom of the interior of the housing; c) a line for mainly gaseous refrigerant, which communicates at one end with the upper portion of the interior of the housing, down to near the bottom of the housing, there has a small communicating with the interior of the housing bore and from there again rises to its other end, which is connected to the outlet for refrigerant, characterized in that d) on the inner surface of the peripheral wall ( 2 ) of the housing ( 1 ) several ribs ( 11 ) are provided, which have an extension component in the axial direction. Accumulator according to claim 1, characterized in that the lid and / or bottom ( 13 ) in addition to the peripheral wall ( 2 ) of the housing ( 1 ) by a positive connection ( 12 . 16 ) is secured. Accumulator according to claim 2, characterized in that each rib ( 11 ) a recess ( 12 ) into which a projection ( 16 ) of the lid or floor ( 13 ) is introduced by first axial movement and then rotation. Accumulator according to one of the preceding claims, characterized in that the ribs ( 11 ) on the inner surface of the peripheral wall ( 2 ) of the housing ( 1 ) in the upper area ( 2a ) of the peripheral wall ( 2 ) into a smooth surface. Accumulator according to one of the preceding claims, characterized in that the housing ( 1 ) consists of aluminum.