DE202006007921U1 - Fridge and / or freezer - Google Patents

Abstract

Cooling and / or Freezer, especially furniture, like fridge, Freezer and the like, with a refrigerant circuit (3), the a compressor (4), a condenser (5), a capillary tube (6) and an evaporator (7), wherein the capillary tube (6) of at least one capillary tube holder in a predetermined position, preferably at the condenser (5) or a tube (9) connected thereto, characterized that the capillary tube holder as a vibration damper (8) for damping Capillary tube vibrations is formed.

Description

The The present invention relates to a refrigerator and / or freezer, in particular -Furniture, like fridge, Freezer and the like, with a refrigerant circuit, the one Compressor, a condenser, a capillary tube and an evaporator, wherein the capillary tube at least one capillary tube holder in a predetermined position, preferably at the condenser or a pipe connected thereto.

Such refrigerators and / or freezers can be improved in several ways. One aspect here is the noise emission. Even if various measures for noise reduction and reduction have been proposed and such devices are already running very quietly, they are continuously the subject of further efforts to eliminate unwanted noise sources and to ensure a silent operation. A source of such unwanted noise emissions is the at least one capillary tube of the refrigerant circuit, through which the refrigerant is conveyed. So is out of the DE 201 04 425 U1 For example, known to set in the expansion section of the refrigerant circuit a silencer in the form of a metal fiber plug on the mouth of Kapillarroh res to minimize occurring in the gas expansion region behind the capillary tube noise. However, it has been found that such measures can not eliminate all the noise emissions resulting from the capillary tube.

Of the The present invention is therefore based on the object, an improved To provide refrigerator and / or freezer avoids the disadvantages of the prior art and the latter in advantageously continues training. In particular, a further reduction undesirable noise emissions achieved in manufacturing technology easy to realizing way become.

According to the invention this Task through a cooling and / or freezer according to claim 1 solved. Preferred embodiments of the invention are the subject of the dependent claims.

It So it is proposed, unwanted Kapillarrohrschwingungen through a vibration damper which simultaneously forms a capillary tube holder, around the capillary tube exactly in a desired, predetermined position to keep. The capillary tube holder is in particular as solid mass damper formed, which sits on the capillary tube and by its mass or its anchoring to a suitable base unwanted vibrations of the capillary tube attenuates. By combining a capillary tube holder and one inside integrated vibration damper can in manufacturing technology simple way without additional components and without additional Space required a further noise minimization be achieved. additional Capillary tube holder can be saved. In particular, this can be prevented that, for example, by pressure fluctuations of the refrigerant in the capillary tube implied capillary vibrations on the Transfer condenser be avoided, thereby resulting noise can be avoided.

Of the the capillary tube holding vibration damper can in principle various device components be anchored, advantageously a component of the refrigerant circuit so to speak as a foundation for the capillary tube holder and damper is used. In a further development of the invention, the capillary tube holding vibration damper at the liquefier be attached. In particular, the vibration damper holding the capillary tube is on one with the condenser attached pipe, upstream or downstream of the condenser can be arranged. According to one further execution the invention sits on the capillary tube holding vibration damper a frame heating pipe, which is connected to the condenser and a humidity-critical area of the unit heated.

Around a stable attachment and exact positioning of the capillary tube as well as a surface, vibration technology favorable To achieve force application, the damper has in development of the invention at least two mutually substantially parallel receiving channels, in which on the one hand the capillary tube and on the other hand the further tube of the Refrigerant circuit sits where the damper that Capillary tube holds.

Around easy to assemble later, can at least one of the several receiving channels for the capillary tube and another Pipe of the refrigerant circuit be formed in the form of a receiving slot, so that the damper on the respective tube can be pushed until this in the receiving slot form-fitting sitting. Advantageously, the damper is elastic, so the damper can be clipped onto the respective tube with said receiving slot is and the pipe in addition to form fit even by traction in the receiving slot is held. When pushed onto the respective pipe widens the receiving slot on elastically until the tube at the bottom of the receiving slot stands up and spring back the already passed slot wall sections.

In particular, all receiving channels can be in the form of such elastic receiving slots forms, so that the damper on the one hand on the capillary tube and on the other hand on the mounting tube can be pushed transversely. The receiving slots are advantageously aligned to different peripheral portions. According to one embodiment of the invention, the two receiving slots can be rotated by at least about 90 ° to each other. Other embodiments are of course possible in terms of the angular offset between the receiving slots, especially if more than two receiving slots for receiving, for example, two capillary tubes and a tube of the cooling circuit are provided.

Around a full enclosure of the capillary tube and the mounting tube on which the damper is mounted is to ensure can be a tube wrap or enclosure of more than 180 °, advantageously about 225 ° or more, be provided, i. the respective pipe is on more than half its circumference enclosed by the material of the damper and holder.

advantageously, can the recording channels forming receiving slots on the slot bottom a preferably circular segment-shaped cross-sectional expansion own, in which the respective tube are inserted accurately can. When sliding the damper on the respective tube, the damper is initially expanded elastically, so that the too narrow receiving slot fits over the pipe. Upon reaching the cross-sectional widening at the slot bottom moves the expanded receiving slot at least one piece far back together, so that the tube is precisely embedded in the cross-sectional widening is.

In principle, could be provided be that damper is formed in several parts. This could be used to special to provide adapted mounting parts. In development of the invention however, the damper is formed in one piece. This simplifies the production on the one hand and assembly. On the other hand, a homogeneous distribution of material damping technology Cheap impact by artificial Vibration nodes are avoided. In development of the invention is the damper from a solid solid body, in which only the receiving slots or -ausnehmungen for the capillary tube and the further tube are provided, on which the Capillary tube by means of the damper is attached.

In Further development of the invention is the damper as an extruded profile educated. In particular, the damper can be manufactured as endless material be cut to the appropriate damper length. This can do that Damper element simple adapted to different installation situations. Especially Depending on the installation situation, the available one or just the necessary length of the capillary tube from the damper be enclosed.

Basically the damper made of different materials. According to a preferred embodiment of Invention consists of the damper from a polymer, in particular a soft plastic, having a has sufficient mass and has favorable damping properties. In a further development of the invention, the damper made of PVC.

As executed can the damper length to the adapted to each installation situation and design of the refrigerant circuit become. To have a sufficient damper effect However, in the development of the invention, the ratio of Damper length to capillary tube outside diameter greater than Be 10, preferably even more than 25.

To an advantageous embodiment The invention may be the damper also more than two recording channels possess, after one execution of the Invention two or more receiving channels for several capillary tubes as well another recording channel for the pipe of the refrigerant circuit, on the damper is attached, can be provided. Likewise, however, multiple recording channels for several Pipes of the refrigerant circuit be provided so that the damper on more than one pipe of the refrigerant circuit is fastened. Advantageously, the at least one receiving channel for the at least one capillary tube has a smaller depth into the damper body in as possess the at least one receiving channel for the at least a pipe of the refrigerant circuit, where the damper is attached.

The Invention will be described below with reference to a preferred embodiment and associated Drawings closer explained. In the drawings show:

1 : a schematic representation of a refrigerator and its refrigerant circuit,

2 : A perspective view of a designed as a vibration damper capillary tube holder, by means of which the capillary tube of the refrigerant circuit from 1 is held on a pipe connected to the condenser of the refrigerant circuit,

3 : a top view of the damper off 2 and the two tubes passing through it,

4 : a perspective view of a As a vibration damper formed capillary tube holder according to a further embodiment of the invention, in which two capillary tubes are attachable to the capillary tube holder,

5 : An end view of the capillary tube holder 4 , and

6 : similar to a front view 5 a further capillary tube holder, to which two capillary tubes and two fastening tubes can be fastened.

The in 1 shown refrigerator 1 includes a device body 2 , in the interior of which a cooling compartment and possibly also a freezer compartment may be provided in a manner known per se, as well as a refrigerant circuit 3 comprising a compressor arranged in a device body niche 4 , a liquefier 5 , a capillary tube 6 as well as an evaporator 7 , It is understood that 1 the arrangement of the components of the refrigerant circuit 3 only schematically shows and other configurations are possible, even to the extent that additional additional components, such as other capillary tubes, two evaporators for a refrigerating compartment and a freezer compartment, or connected to the condenser Ver further tube components, such as frame heating pipes, solenoid valves and the like provided could be.

To go from the capillary tube 6 no vibrations, for example, as a result of pressure fluctuations of the refrigerant in the capillary tube 6 , on the liquefier 5 to transmit and prevent a resulting noise emission is the capillary tube 6 , as the 2 and 3 show, with a designed as a mass damper vibration damper 8th provided, which simultaneously forms a capillary tube holder and the capillary tube 6 on another pipe 9 attached and holds exactly in a predetermined position. The named pipe 9 may in particular be a frame heating tube, wherein the tube 9 typically a considerably larger, for example more than twice the outer diameter of the capillary tube 6 , owns.

The vibration damper 8th consists of a one-piece solid material body, which consists in the illustrated embodiment of soft PVC and is designed as an extruded profile, which is first produced as a continuous material and then cut to the appropriate length. In a typical installation situation, the damper 8th have a length in the range of 1 cm to 20 cm, preferably 5 cm to 15 cm, but the length is adapted to the vibration potential of the installation situation and may also assume other values.

The vibration damper 8th has roughly considered overall - an approximately cylindrical shape whose outer diameter is at least more than 5 × greater than the outer diameter of the capillary tube 6 ,

The vibration damper 8th has two receiving slots 10 and 11 in which on the one hand the capillary tube 6 and on the other hand, the other tube 9 plugged. The two receiving slots 10 and 11 are aligned parallel to each other, but to different peripheral portions of the vibration damper 8th open. In the illustrated embodiment, the openings of the receiving slots 10 and 11 offset by about 90 ° to each other, see. 2 ,

The vibration damper 8th is so far elastically formed that he with the receiving slots 10 and 11 in the manner of clips on the capillary tube 6 and the other tube 9 can be pushed under elastic deformation. Is the respective bottom of the receiving slots 10 and 11 achieved, the flanks of the receiving slots spring 10 and 11 back, so that the tubes in the receiving slots, which form a bed for the respective tube, so to speak, are enclosed over a circumferential range of more than 180 °.

As 4 shows, on the vibration damper 8th also several capillary tubes 6 be attached. The vibration damper 8th This has a total of three receiving slots 10a . 10b and 11 , As in the previously described embodiment, it is seated in the receiving slot 11 the other tube 9 the refrigerant circuit to which the vibration damper 8th is attached. The two other receiving slots 10a and 10b are on the other hand for receiving two capillary tubes 6 intended. As 5 shows is the receiving slot 11 for the further tube 9 overall larger dimensions than the two other receiving slots 10a and 10b for the capillary tubes, wherein advantageously the slot bottom of the receiving slot 11 centrally approximately in the middle in the cross section of the vibration damper 8th lies. The receiving slots 10a . 10b and 11 each have at their slot bottom a circular segment-shaped cross-sectional expansion, in which the respective tube 6 respectively. 9 is wrapped in the intended, inserted into the respective receiving slot position. The diameter D or d of this cross-sectional widenings on the slot bottom is advantageously adapted to the diameter of the respective tubes to be received, so that the diameter d at the slot bottom of the receiving slots 10a and 10b for the capillary tubes is smaller than the diameter D of the cross-sectional widening of the receiving slot 11 for the further tube 9 ,

As 6 shows, according to a further embodiment of the invention not only a plurality of capillary tubes 6 , but also several more pipes 9 at the vibration damper 8th be attached. At the in 6 drawn design for this purpose are two receiving slots 11a and 11b provided, in each case another tube 9 can be inserted, wherein advantageously in the in 6 drawn execution of these receiving slots 11a and 11b symmetrical to each other, in the illustrated embodiment, opposite each other in cross-section of the vibration damper 8th are arranged. The capillary tube receiving slots 10a and 10b are also arranged opposite each other, to the receiving slots 11a and 11b but offset by 90 °.

As the 5 and 6 can show the receiving slots 10 for the capillary tube or the capillary tubes 6 have a smaller depth than the receiving slots 11 for the further tube 9 ie the capillary tubes 6 sit on the circumference of the vibration damper 8th away less deep in the material of the shock.

Claims (13)

Refrigerator and / or freezer, in particular furniture, such as refrigerator, freezer and the like, with a refrigerant circuit ( 3 ), a compressor ( 4 ), a liquefier ( 5 ), a capillary tube ( 6 ) and an evaporator ( 7 ), wherein the capillary tube ( 6 ) of at least one capillary tube holder in a predetermined position, preferably on the condenser ( 5 ) or an associated pipe ( 9 ), characterized in that the capillary tube holder as a vibration damper ( 8th ) is designed for damping of Kapillarrohrschwingungen. Cooling and / or freezing appliance according to the preceding claim, wherein the vibration damper ( 8th ) forms a mass damper. Cooling and / or freezing appliance according to one of the preceding claims, wherein the damper ( 8th ) two mutually substantially parallel Aufnahmeka channels ( 10 . 11 ), in which the capillary tube ( 6 ) and another tube ( 9 ) are held positively. Cooling and / or freezing appliance according to one of the preceding claims, wherein the damper ( 8th ) is elastically formed and at least one receiving slot ( 10 . 11 ), with which the damper ( 8th ) on a pipe ( 6 . 9 ) is elastically clipped. Refrigerator and / or freezer according to the two preceding claims, wherein the two receiving channels of two to different sides open receiving slots ( 10 . 11 ) are formed. Cooling and / or freezing appliance according to one of the preceding claims, wherein the damper ( 8th ) is formed in one piece. Cooling and / or freezing appliance according to one of the preceding claims, wherein the damper ( 8th ) is designed as an extruded profile. Cooling and / or freezing appliance according to one of the preceding claims, wherein the damper ( 8th ) has a cutaway continuous profile. Cooling and / or freezing appliance according to one of the preceding claims, wherein the damper ( 8th ) consists of soft plastic, in particular polyvinyl chloride. Cool- and / or freezer according to one of the preceding claims, wherein a ratio of Damper length to capillary tube outside diameter greater than 10, preferably more than 25. Cooling and / or freezing appliance according to one of the preceding claims, wherein the damper ( 8th ) has an axial length in the range of 1 cm to 25 cm, preferably 5 cm to 15 cm. Cooling and / or freezing appliance according to one of the preceding claims, wherein the damper ( 8th ) the capillary tube ( 6 ) at one with the condenser ( 5 ), upstream or downstream of the condenser ( 5 ) pipe ( 9 ) holds. Cooling and / or freezing appliance according to one of the preceding claims, wherein the damper ( 8th ) the capillary tube ( 6 ) on a frame heating pipe. Cooling and / or freezing appliance according to one of the preceding claims, wherein the capillary tube ( 6 ) has a capillary tube section extending through a compressor inlet and extending from the damper ( 8th ) is held.