DE20317084U1 - Filter plug for air conditioning coolant circuit has a shaped plug of sintered material with a cylindrical body and tapering nose - Google Patents

Abstract

A filter plug for the coolant circuit in an air conditioning system is made of sintered material and has a cylindrical body (2) which fits inside a coolant pipe. One end of the plug has a tapering nose (3) which is set pointing upstream in the pipe. The tapering profile ends on a stub end and presents an enlarged surface area to the fluid flow. The filter removes particulate debris from the coolant as well as water crystals.

Description

The invention relates to a sieve sintered. Material for a refrigeration cycle with condenser, Evaporator and integrated desiccant.

The one integrated in a closed refrigeration cycle Refrigerant drying section, which is usually designed as a filter and liquid refrigerant flows through has the task of a possible one Residual moisture and possibly the smallest dirt particles or possible abrasion particles the desiccant from the liquid refrigerant to evade the dryness and stability of the interior Refrigeration circuit guaranteed is. Dryers or filter driers are used for this purpose, which essentially consist of a housing in which a desiccant and a strainer is provided in the direction of flow of the refrigerant after the dryer is stored to the smallest possible Dirt particles from the liquid refrigerant filter out.

Are known from the DE 297 14 545 U1 and from the DE 199 05 354 C2 also refrigeration circuits with condensers, evaporators, in which the desiccant is inserted directly into a section of the refrigerant-carrying tube in an expansion of the tube carrying the liquid refrigerant as a loose bed or as pressed molded parts and the sieve is arranged downstream of the desiccant in the direction of flow of the refrigerant.

These sieves consist of a fine mesh Metal mesh or from a disc-shaped sintered body, the after insertion the desiccant as a loose fill or pressed into the liquid refrigerant pipe as a desiccant molded part. The assembly of these screens, namely pressing into the tube is, on the one hand, relatively complex and conditional on usually additional Devices and on the other hand are certain manual skills necessary to the relatively small Sieves, for example for tube wall condensers, to be handled and pressed into the pipes in a stable position. Furthermore is the filter area very small due to the inside diameter of the liquid refrigerant pipes, so that local dislocations due to the separation of the smallest solid particles, cannot be excluded. The smallest local dislocations of the sieve can already have an adverse effect of stability of the internal refrigeration cycle to lead.

Object of the present invention is therefore the strainer for a refrigeration cycle mentioned at the beginning by improving that Installation of the strainer in the condenser cross-section is simplified and that of liquid refrigerant acted upon and flowed through the sieve surface is coarsened.

This object is achieved according to the invention solved, that this Sieve a molded body is that of a cylindrical part and an adjoining tapered Part exists. By such a shaped body an enlarged sieve body for Available to on the one hand is easier to handle when assembling the sieve and on the other hand without problems in connection with the conical part and without additional Aids are introduced into the pipe cross-section of a pipe carrying refrigerant can, even if the pipe cross-sections are very small, such as with rear wall condensers of cooling and freezers.

In addition, the tapered Part of the strainer that runs counter to the flow direction of the liquid refrigerant is inserted into the tube, an enlarged filter area for available that of the liquid refrigerant of the refrigerant circuit flows against and flows through becomes. Hence, possible Contamination from the "liquid refrigerant, which also exist due to the abrasion of the desiccant, for example can, large area the liquid refrigerant filtered off so that a possible local clogging of the sieve due to the filtered dirt the liquid refrigerant for the functional task of the sieve and the stability of the internal refrigeration cycle completely become insignificant.

According to a preferred embodiment of the Invention, the cylindrical part has an outer diameter which in Inside diameter of the liquid refrigerant leading Tube is sliding. This ensures that the strainer is open a very simple way easily stable in position in the pipe cross section can be inserted.

Advantageously, the sieve after inserting over the cylindrical part is clamped all around with the liquid refrigerant pipe fixed in position. Due to the circumferential jamming in connection with the sliding guide of the sieve in the inner diameter of the tube is reduced by a slight constriction of the Tube cross-section in the area of the cylindrical part of the sieve, which are carried out with simple means can be an absolutely positionally fixed and liquid-tight connection between Pipe section and the cylindrical part of the sieve, which the stability of the internal refrigeration cycle guaranteed.

The conical part of the sieve can be designed in a wide variety of geometric shapes. A cone or truncated cone has proven to be preferred geometric shapes, which are also best controllable in terms of sintering technology, but the shape of a pyramid or truncated pyramid is also conceivable. Which of these geometric shapes are preferred for a refrigeration cycle depends on the design of the refrigeration cycle itself. For example, for a refrigeration cycle with a very small pipe inside diameter, a cone with an acute angle is the easiest to install and also offers for this Pipe cross-section the possibility of the largest possible filter area.

To solve the above The object of the invention can also be a shaped body, that of a cylindrical part and a subsequent diameter-tapered part consists. It is advantageous if in this case the tapered part conical or pointed at the end facing away from the cylindrical part expires.

Also stands with a shaped body designed in this way an enlarged sieve body available, the for the Assembly of the sieve is easier to handle and can be done without additional aids into the liquid refrigerant premier Pipe inserted can be. If the dimensions of the cylindrical part are observed in relation to to the pipe inside diameter of the liquid refrigerant leading Rohres, as in the previously mentioned inventive execution, this sieve can also be inserted in a stable position and can be removed using the Rohres on the big cylindrical part fixed in position and liquid-tight in the same Way to be pinched. But also the other advantages described the above inventive design can be carried out in this way of the sieve essentially transferred become.

Further details of the invention result from the following detailed description and the attached Drawings in which preferred embodiments of the invention are illustrated.

The drawings show:

1 : a sieve formed as a shaped body with an outgoing part as a truncated cone;

2 : a section of the liquid-refrigerant pipe with a strainer as a molded body;

3 : a sieve formed as a shaped body with a subsequent reduced-diameter part.

This in 1 shown sieve 1 is preferably a shaped body which consists of a sintered metal which, after sintering, has microfine pores for penetrating the refrigerant. The shaped body of the sieve 1 itself consists of a cylindrical part 2 and a conically adjoining part 3 who, as in 1 shown, the shape of a truncated cone can also be in the form of a cone, a pyramid or a truncated pyramid, the angle of which depends on the inner tube cross section of the tube carrying liquid refrigerant 5 of a refrigeration cycle.

The cylindrical part 2 preferably has an outer diameter 4 on that in cooperation with the inside diameter 6 of the liquid refrigerant pipe 5 is slidably and having a length which is advantageously approximately equal to the W idth of the constriction 7 is over which the sieve 1 with the liquid refrigerant pipe 5 in the tube 5 is jammed.

The assembly of the inventive sieve 1 in the liquid refrigerant pipe 5 is very simple. For this purpose the sieve 1 , which is easy to handle due to the enlarged sieve body, after the introduction or filling of the desiccant as shaped pieces or granules with the conical part 3 against the flow direction 8th of the liquid refrigerant into the pipe leading the liquid refrigerant 5 inserted, with the sieve 1 about the outside diameter 4 of the cylindrical part 2 in the tube 5 fixed independently. After the sieve 1 has been brought into the intended position, the sieve 1 in the area of the cylindrical part 2 all around by a constriction 7 of the liquid refrigerant pipe 5 with the pipe 5 position stabilized and jammed tight. After jamming the sieve 1 then becomes the liquid refrigerant pipe 5 in a known way on the diameter 10 of the capillary to be tapered.

This in 3 shown sieve 1a is also a molded body, which consists of a sintered metal, which after sintering has microfine pores for penetrating the refrigerant. The shaped body of the sieve 1 in this case consists of the cylindrical part 2a that like the cylindrical part 2 of the sieve described above 1 trained and also in the network of the sieve 1a the same functional task as the cylindrical part 2 of the sieve 1 Fulfills.

On the cylindrical part 2a a tapered part closes 9 on, preferably at the free end with a conical outlet 11 is trained. Instead of the conical outlet 11 can the free end of the tapered part 9 also be designed with a pointed outlet. When assembling the sieve 1a becomes the tapered part 2a pushed against the direction of flow of the refrigerant into the pipe carrying the liquid refrigerant and then continue as in the assembly of the sieve 1 ,

Claims (8)

Sieve made of sintered material for a refrigeration cycle with a condenser, evaporator and integrated desiccant, characterized in that the sieve ( 1 ) is a shaped body that consists of a cylindrical part ( 2 ) and an adjoining conical part ( 3 ) consists. Screen according to claim 1, characterized in that the cylindrical part ( 2 ) an outer diameter ( 4 ) which has an inside diameter ( 6 ) of the liquid refrigerant pipe ( 5 ) is sliding. Screen according to claims 1 and 2, characterized in that the screen ( 1 ) over the cylindrical part ( 2 ) can be clamped in a fixed position all around with the liquid refrigerant pipe. Sieve according to one of claims 1 to 3, characterized in that the conical part ( 3 ) has the shape of a cone. Sieve according to one of claims 1 to 3, characterized in that the conical part ( 3 ) has the shape of a truncated cone. Sieve according to one of claims 1 to 3, characterized in that the conical part ( 3 ) has the shape of a pyramid or a truncated pyramid. Sieve made of sintered material for a refrigeration cycle with a condenser, evaporator and integrated desiccant, characterized in that the sieve ( 1a ) is a shaped body that consists of a cylindrical part ( 2a ) and a subsequent tapered part ( 9 ) consists. Sieve according to claim 7, characterized in that the tapered part ( 9 ) on the of the cylindrical part ( 2a ) tapered or pointed end.