EP1929219A1 - Cooling device with a water drain - Google Patents

Cooling device with a water drain

Info

Publication number
EP1929219A1
EP1929219A1 EP06793202A EP06793202A EP1929219A1 EP 1929219 A1 EP1929219 A1 EP 1929219A1 EP 06793202 A EP06793202 A EP 06793202A EP 06793202 A EP06793202 A EP 06793202A EP 1929219 A1 EP1929219 A1 EP 1929219A1
Authority
EP
European Patent Office
Prior art keywords
pipe
groove
refrigerating appliance
appliance according
opening
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP06793202A
Other languages
German (de)
French (fr)
Other versions
EP1929219B1 (en
Inventor
Michaela Malisi
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
BSH Hausgeraete GmbH
Original Assignee
BSH Bosch und Siemens Hausgeraete GmbH
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by BSH Bosch und Siemens Hausgeraete GmbH filed Critical BSH Bosch und Siemens Hausgeraete GmbH
Publication of EP1929219A1 publication Critical patent/EP1929219A1/en
Application granted granted Critical
Publication of EP1929219B1 publication Critical patent/EP1929219B1/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25DREFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
    • F25D21/00Defrosting; Preventing frosting; Removing condensed or defrost water
    • F25D21/14Collecting or removing condensed and defrost water; Drip trays
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25DREFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
    • F25D2321/00Details or arrangements for defrosting; Preventing frosting; Removing condensed or defrost water, not provided for in other groups of this subclass
    • F25D2321/14Collecting condense or defrost water; Removing condense or defrost water
    • F25D2321/141Removal by evaporation
    • F25D2321/1411Removal by evaporation using compressor heat
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25DREFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
    • F25D2321/00Details or arrangements for defrosting; Preventing frosting; Removing condensed or defrost water, not provided for in other groups of this subclass
    • F25D2321/14Collecting condense or defrost water; Removing condense or defrost water
    • F25D2321/146Collecting condense or defrost water; Removing condense or defrost water characterised by the pipes or pipe connections

Definitions

  • the present invention relates to a refrigerator with a water drain line through which moisture that collects in the course of the operation of the refrigerator on a cold surface in the interior, can flow.
  • a conduit passes through and must be sealed against the insulating material layer of the apparatus, on the one hand, to prevent insulation material from penetrating the inside of the conduit and into the interior of the apparatus during assembly of the apparatus, on the other hand to exclude water from the line enters the insulation material and affects their thermal insulation effect.
  • a known from DE 197 55 292 A1 solution is to form the drain line in the form of an integrally formed on the inner container drain nozzle, which penetrates the insulation material layer and the outer container of the refrigerator.
  • This one-piece nozzle must intersect the insulating material layer in the shortest possible way, so that it can form a cold bridge between the interior and the environment of the refrigerator. This entails the risk that condensation deposits on a section of the drain neck projecting over the outer skin, which, if the neck does not close tightly to the outer skin, can seep into the insulating material.
  • a refrigeration device in which an integrally formed on the inner container outlet pipe outside, on the side of the insulating material layer, a flared end portion of a drain pipe is adhered.
  • a funnel has a collecting cone arranged in the interior of the discharge nozzle and an adjoining pipe section which passes through an opening of the discharge nozzle and engages in the discharge pipe adjoining the outside thereof. With the help of the funnel, running condensation water is kept away from the adhesive connection between the drain pipe and the pipe.
  • An object of the present invention is to provide a condensate drainage system of a refrigeration apparatus having a heat-insulating housing surrounding an internal space and comprising a solid outer wall, a fixed inner wall and an insulating material layer sandwiched between these walls minimum number of individual parts can be mounted close to at least one of the walls.
  • the water drain comprises a pipeline which is inserted through an opening of at least one of the walls, and in that the edge of the opening engages in a circumferential groove of the pipeline.
  • the edge of the opening between the opposite side walls of the groove is clamped or at least kept free of play in order to achieve a reliable seal.
  • the groove is preferably bounded on one side by a rib whose cross-section gradually narrows on its side facing away from the groove, so that the pipe from this side of the rib introduced into the opening of the wall and thereby progressively compressed can be until the rib has passed the opening.
  • the rib is hollow. This facilitates on the one hand the radial upsetting of the rib during assembly of the pipeline, on the other hand it is easily possible by elastic deformation of the edge of the opening facing wall of the hollow rib, despite dimensional tolerances to keep the wall clamped in the groove.
  • the rib is preferably located between the groove and an end of the tubing adjacent the groove.
  • the pipe preferably passes through the opening in an outwardly sloping orientation, so that water that has reached the pipeline, in this also drains off automatically.
  • the groove expediently extends in a plane which intersects the axis of the pipeline at the level of the groove at an uneven angle.
  • the opening of the wall is expediently of elliptical shape.
  • a collecting container for water with an outlet pipe engaging in the drain pipe is preferably arranged in the interior.
  • the length of a portion of the pipeline extending in the insulating material layer is preferably at least twice the thickness of the insulating material layer in order to prevent the pipeline from forming a cold bridge.
  • the pipeline is formed by a corrugated tube, in particular of a flexible plastic.
  • a corrugated tube can be conveniently mounted one after the other in the inner and outer walls of the refrigerator housing before the space between them is filled with insulating material.
  • the flexibility of the pipeline is preferably higher in the vicinity of the groove than in a middle section of the pipeline away from the groove, in order to prevent it from extending approximately meandering between the inner and outer walls.
  • FIG. 1 shows a schematic section through an inventive refrigeration device.
  • Figure 2 is a plan view of a usable in the refrigerator pipe.
  • Fig. 4 are each an enlarged detail of the pipe of Fig. 2;
  • Fig. 5 is a sectional view of the inner wall of the refrigerator crossing
  • Fig. 1 shows a schematic vertical section through an inventive refrigerator.
  • the refrigeration device has a body 1 and a door 2, each of which is conventionally formed by a solid outer wall 3 and an inner wall thermoformed from plastic, in the case of the body 1 as an inner container 4, and an insulating foam layer 5 enclosed between these parts.
  • the interior of the inner container 4 is divided by a likewise heat-insulating partition 6 into an evaporator chamber 7 and a storage chamber 8.
  • An air inlet passage 9, passes through the air from the storage chamber 8 in the evaporator chamber 7, is on one of the door 2 facing edge of the partition. 6 educated.
  • An evaporator 10 is accommodated in the evaporator chamber 7 in a collecting tray 11.
  • the drip tray 1 1 has a rear wall in an opening, not shown in the figure, to which a fan is mounted. In the figure, only a housing 12 can be seen, which surrounds the fan. The fan pushes air from the evaporator chamber 7 into an air duct 19 which extends along the rear wall 18 of the inner container 4 and is separated from the storage chamber 8 by a perforated cover 20.
  • Condensation water which expires at a defrost of the evaporator 10 of this is collected in the drip tray 1 1 and passes through a drain pipe 13 to a pipe 14, which is located in the interior of the rear wall 18 down to a niche 15 in the lower rear region of the body 1, in which a compressor 16 and in FIG. not shown condenser are housed.
  • a pipe 14 On the compressor 16, an evaporation tray 17 is mounted, in which the pipe 14 opens.
  • FIGS. 3 and 4 are sections through the inlet and outlet region of the pipeline 14, respectively, and FIG. 5 is a section showing the pipeline 14 anchored to the inner vessel 4.
  • the pipe 14 is a one-piece made of a moderately flexible plastic, z. As polypropylene, molded corrugated hose. Adjacent to an inlet end 21 of the pipe 14, two obliquely oriented to the tube axis ribs 22, 23 are formed, which define a groove 24 between them. On both sides of the ribs 22, 23, two cylindrical portions 25, 26 are formed, wherein, as better seen in the enlarged view of Fig.
  • the cylindrical portion 25 adjacent to the inlet end 21 has a slightly smaller diameter than the portion 26 and the rib 22 has a tapered flank 27 tapering towards the cylindrical portion 25.
  • the diameter of the portion 25 is dimensioned so that it can be easily inserted through an opening 35 (see FIG. 5) in the inner container 4.
  • the outer diameter of the rib 22 is larger than that of the opening of the inner container, but the conical shape of the flank 27 allows the rib 22 to be slightly inwardly compressed and to elastically expand the opening of the inner wall 4 so that the rib 22 can pass through the opening 35.
  • the width of the groove 24 corresponds exactly to the wall thickness of the inner container 4, so that after passage of the rib 22, the edge of the opening 35 engages without play in the groove 24.
  • the width of the groove 24 may also be kept slightly smaller than the wall thickness of the inner container 4. In this case, it may be necessary to slightly pull the ribs 22, 23 apart to stretch the groove 24 and lock the inner container to it, but then the inner container 4 is clamped between the facing flanks of the groove 24 and more particularly reliably sealed.
  • a section 28 connects, which has a smaller wall thickness than the portions 25, 26 and which is formed from short corrugated segments and thereby relatively easily flexible.
  • a central portion 29 is formed of wider segments and accordingly stiffer.
  • a short-segment flexible section 30 and to this via a cone 31 a cylindrical portion 32 at.
  • a groove between a last segment of the portion 30 and the cone 31 is designated 38.
  • the cone 31 and the cylindrical section 32 have a greater wall thickness than the sections 28, 29, 30 and are accordingly more rigid than the latter.
  • a valve 33 is locked, the task of which is to pass condensate to the outside, but to suppress a backflow of air through the pipe 14 into the interior of the refrigerator.
  • Fig. 5 shows in longitudinal section the upstream region of the pipeline 14.
  • the inner container 4 is engaged in the groove 24, and due to the oblique orientation of the groove 24, the pipe 14 slopes down through the inner wall 4.
  • this opening 35 has a slightly elliptical cross-section with a vertically oriented long axis.
  • the elliptical shape of the opening 35 causes the circular cross-section pipe 14 can undeformed pass through the wall 4 only in the downward orientation shown in the figure or a mirror-image, toward the back of the body rising orientation.
  • the downstream end of the conduit 14 is anchored in an opening 37 of a cross member 36 which extends between two side walls across the niche 15 and forms part of the outer wall 3 in a manner similar to the upstream end in the inner container 4.
  • the edges of the opening 37 are in the immediately adjacent to the cone 31 adjacent groove 38 (see Fig. 4) locked.

Abstract

The invention relates to a cooling device comprising a heat-insulating housing (1, 2) which surrounds an inner chamber (7,8) and which comprises a solid outer wall (3), a solid inner wall (4) and an insulating material layer (5) which is integrated between said walls, in addition to a water drain which extends through the two walls (3, 4) and the insulating material layer (5). Said invention is characterised in that the water drain comprises a pipe (14) which extends through an opening of at least one of the walls (3, 4), and that the edge of the opening engages in a peripheral groove of the pipe.

Description

Kältegerät mit Wasserablauf Refrigerating appliance with water drain
Die vorliegende Erfindung betrifft ein Kältegerät mit einer Wasserablaufleitung, durch die Feuchtigkeit, die sich im Laufe des Betriebs des Kältegeräts an einer kalten Oberfläche in dessen Innerem sammelt, abfließen kann. Eine solche Leitung durchquert die Isolations- materialschicht des Gerätes und muss gegen diese abgedichtet sein, einerseits, um zu verhindern, dass während der Montage des Geräts Isolationsmaterial in das Innere der Leitung und in den Innenraum des Geräts eindringt, andererseits, um auszuschließen, dass Wasser aus der Leitung in das Isolationsmaterial gelangt und deren Wärmedämmwirkung beeinträchtigt.The present invention relates to a refrigerator with a water drain line through which moisture that collects in the course of the operation of the refrigerator on a cold surface in the interior, can flow. Such a conduit passes through and must be sealed against the insulating material layer of the apparatus, on the one hand, to prevent insulation material from penetrating the inside of the conduit and into the interior of the apparatus during assembly of the apparatus, on the other hand to exclude water from the line enters the insulation material and affects their thermal insulation effect.
Eine aus DE 197 55 292 A1 bekannte Lösung beruht darin, die Ablaufleitung in Form eines einstückig am Innenbehälter angeformten Ablaufstutzens auszubilden, der die Isolationsmaterialschicht und den Außenbehälter des Kältegeräts durchdringt. Dieser einteilige Stutzen muss die Isolationsmaterialschicht auf einem möglichst kurzen Weg kreuzen, so dass er eine Kältebrücke zwischen dem Innenraum und der Umgebung des Kältegeräts bilden kann. Dies bringt die Gefahr mit sich, dass sich an einem über die Außenhaut vorstehenden Abschnitt des Ablaufstutzens Kondenswasser niederschlägt, das, wenn der Stutzen nicht dicht an die Außenhaut anschließt, in das Isolationsmaterial einsickern kann.A known from DE 197 55 292 A1 solution is to form the drain line in the form of an integrally formed on the inner container drain nozzle, which penetrates the insulation material layer and the outer container of the refrigerator. This one-piece nozzle must intersect the insulating material layer in the shortest possible way, so that it can form a cold bridge between the interior and the environment of the refrigerator. This entails the risk that condensation deposits on a section of the drain neck projecting over the outer skin, which, if the neck does not close tightly to the outer skin, can seep into the insulating material.
Um eine solche Kältebrücke zu vermeiden, ist es wünschenswert, die Ablaufleitung nicht auf dem kürzesten Wege durch die Isolationsmaterialschicht zu führen. Eine längere Ablaufleitung erfordert jedoch die Verwendung eines vom Innenbehälter getrennten Rohrs, das an diesen dicht angeschlossen werden muss. Aus DE 93 09 600 U1 ist ein Kältegerät bekannt, bei dem an einen am Innenbehälter angeformten Ablaufstutzen außen, auf der Seite der Isoliermaterialschicht, ein aufgeweiteter Endabschnitt eines Ablaufrohrs angeklebt ist. Ein Trichter hat einen im Inneren des Ablaufstutzen angeordneten Auffangkonus und einen daran anschließenden Rohrabschnitt, der eine Öffnung des Ablaufstutzens durchquert und in das außen daran anschließende Ablaufrohr eingreift. Mit Hilfe des Trichters wird ablaufendes Tauwasser von der Klebeverbindung zwischen Ablaufstutzen und Rohr fern gehalten. Im Innenraum des Kältegeräts befindet sich ein Auffangeinschub mit einem Abflussstutzen, der in den Konus des Trichters hineinragt, so dass der Trichter das aus dem Einschub ablaufende Wasser auffängt und in das Ablaufrohr leitet. Die Tatsache, dass der Auffangkonus des Trichters an jedem Punkt nach innen abschüssig sein muss, um hinein fließendes Wasser abführen zu können, zwingt dazu, den Trichter und das Ablaufrohr mit einem beträchtlichen Gefälle anzuordnen und dementsprechend schräg die Öffnung in den Ablaufstutzen zu schneiden, an die das Ablaufrohr anschließt.In order to avoid such a cold bridge, it is desirable not to lead the drain line through the shortest path through the insulating material layer. However, a longer drain line requires the use of a separate pipe from the inner container, which must be connected to this tight. From DE 93 09 600 U1 a refrigeration device is known, in which an integrally formed on the inner container outlet pipe outside, on the side of the insulating material layer, a flared end portion of a drain pipe is adhered. A funnel has a collecting cone arranged in the interior of the discharge nozzle and an adjoining pipe section which passes through an opening of the discharge nozzle and engages in the discharge pipe adjoining the outside thereof. With the help of the funnel, running condensation water is kept away from the adhesive connection between the drain pipe and the pipe. In the interior of the refrigerator there is a collecting drawer with a discharge spout, which is in the cone of the funnel protrudes so that the funnel catching the running out of the drawer of water and passes into the drain pipe. The fact that the catch cone of the funnel has to be inwardly sloping at each point to allow water to drain into it forces the funnel and the downcomer to be arranged with a considerable slope and, accordingly, to obliquely cut the opening in the downcomer which connects the drainpipe.
Eine Aufgabe der vorliegenden Erfindung ist, bei einem Kältegerät mit einem wärmeisolierenden Gehäuse, das einen Innenraum umgibt und eine feste äußere Wand, eine feste innere Wand und eine zwischen diesen Wänden eingeschlossene Isoliermaterialschicht umfasst, einen Ablauf für Kondenswasser zu schaffen, der mit geringem Aufwand und minimaler Zahl an Einzelteilen dicht an wenigstens einer der Wände montierbar ist.An object of the present invention is to provide a condensate drainage system of a refrigeration apparatus having a heat-insulating housing surrounding an internal space and comprising a solid outer wall, a fixed inner wall and an insulating material layer sandwiched between these walls minimum number of individual parts can be mounted close to at least one of the walls.
Die Aufgabe wird dadurch gelöst, dass der Wasserablauf eine Rohrleitung umfasst, die durch eine Öffnung wenigstens einer der Wände durchgesteckt ist, und dass der Rand der Öffnung in eine umlaufenden Nut der Rohrleitung eingreift.The object is achieved in that the water drain comprises a pipeline which is inserted through an opening of at least one of the walls, and in that the edge of the opening engages in a circumferential groove of the pipeline.
Vorzugsweise ist der Rand der Öffnung zwischen den einander gegenüberliegenden Seitenwänden der Nut eingeklemmt oder zumindest spielfrei gehalten, um eine zuverlässige Dichtung zu erzielen.Preferably, the edge of the opening between the opposite side walls of the groove is clamped or at least kept free of play in order to achieve a reliable seal.
Um den Zusammenbau zu erleichtern, ist die Nut an einer Seite vorzugsweise durch eine Rippe begrenzt, deren Querschnitt an ihrer von der Nut abgewandten Seite allmählich verengt, so dass die Rohrleitung von dieser Seite der Rippe her in die Öffnung der Wand eingeführt und dabei fortschreitend gestaucht werden kann, bis die Rippe die Öffnung passiert hat.In order to facilitate the assembly, the groove is preferably bounded on one side by a rib whose cross-section gradually narrows on its side facing away from the groove, so that the pipe from this side of the rib introduced into the opening of the wall and thereby progressively compressed can be until the rib has passed the opening.
Vorzugsweise ist die Rippe hohl. Dies erleichtert zum einen das radiale Stauchen der Rippe bei der Montage der Rohrleitung, zum anderen ist es durch eine elastische Verformung der dem Rand der Öffnung zugewandten Wand der hohlen Rippe leicht möglich, trotz Abmessungstoleranzen die Wand in der Nut geklemmt zu halten. Um die Länge des Stücks der Rohrleitung, das durch die Öffnung gezogen werden muss, um die Rohrleitung in der Öffnung zu verrasten, gering zu halten, ist die Rippe vorzugsweise zwischen der Nut und einem der Nut benachbarten Ende der Rohrleitung angeordnet.Preferably, the rib is hollow. This facilitates on the one hand the radial upsetting of the rib during assembly of the pipeline, on the other hand it is easily possible by elastic deformation of the edge of the opening facing wall of the hollow rib, despite dimensional tolerances to keep the wall clamped in the groove. In order to minimize the length of the piece of tubing which must be drawn through the opening to lock the tubing in the opening, the rib is preferably located between the groove and an end of the tubing adjacent the groove.
Die Rohrleitung durchsetzt die Öffnung vorzugsweise in einer nach außen abschüssigen Orientierung, so dass Wasser, das bis in die Rohrleitung gelangt ist, in dieser auch selbsttätig abfließt.The pipe preferably passes through the opening in an outwardly sloping orientation, so that water that has reached the pipeline, in this also drains off automatically.
Um die Rohrleitung in einer solchen abschüssigen Orientierung zu fixieren, insbesondere in einer vertikalen Wand, erstreckt sich die Nut zweckmäßigerweise in einer Ebene, die die Achse der Rohrleitung in Höhe der Nut unter einem nichtrechten Winkel schneidet.In order to fix the pipeline in such a sloping orientation, in particular in a vertical wall, the groove expediently extends in a plane which intersects the axis of the pipeline at the level of the groove at an uneven angle.
Um die Orientierung der Rohrleitung an der Wand festzulegen, ist die Öffnung der Wand zweckmäßigerweise von elliptischer Form.In order to determine the orientation of the pipe to the wall, the opening of the wall is expediently of elliptical shape.
Um zu gewährleisten, dass Wasser aus dem Innenraum zuverlässig in die Ablaufleitung gelangt, ist in dem Innenraum vorzugsweise ein Auffangbehälter für Wasser mit einem in die Rohrleitung eingreifenden Ablaufstutzen angeordnet.In order to ensure that water from the interior reliably enters the drain line, a collecting container for water with an outlet pipe engaging in the drain pipe is preferably arranged in the interior.
Die Länge eines in der Isoliermaterialschicht verlaufenden Abschnitts der Rohrleitung beträgt vorzugsweise wenigstens das zweifache der Stärke der Isolationsmaterialschicht, um zu verhindern, dass die Rohrleitung eine Kältebrücke bildet.The length of a portion of the pipeline extending in the insulating material layer is preferably at least twice the thickness of the insulating material layer in order to prevent the pipeline from forming a cold bridge.
Vorzugsweise ist die Rohrleitung durch einen Wellschlauch, insbesondere aus einem flexiblen Kunststoff, gebildet. Ein solcher Wellschlauch kann bequem nacheinander in innerer und äußerer Wand des Kältegerätegehäuses montiert werden, bevor der Zwischenraum zwischen ihnen mit Isoliermaterial ausgefüllt wird.Preferably, the pipeline is formed by a corrugated tube, in particular of a flexible plastic. Such a corrugated tube can be conveniently mounted one after the other in the inner and outer walls of the refrigerator housing before the space between them is filled with insulating material.
Die Biegsamkeit der Rohrleitung ist vorzugsweise in der Nähe der Nut jeweils höher als in einem von der Nut entfernten Mittelabschnitt der Rohrleitung, um zu verhindern, dass diese etwa mäandemd zwischen innerer und äußerer Wand verläuft. - A -The flexibility of the pipeline is preferably higher in the vicinity of the groove than in a middle section of the pipeline away from the groove, in order to prevent it from extending approximately meandering between the inner and outer walls. - A -
Weitere Merkmale und Vorteile der Erfindung ergeben sich aus der nachfolgenden Beschreibung von Ausführungsbeispielen unter Bezugnahme auf die beigefügten Figuren. Es zeigen:Further features and advantages of the invention will become apparent from the following description of embodiments with reference to the accompanying figures. Show it:
Fig. 1 einen schematischen Schnitt durch ein erfindungsgemäßes Kältegerät;1 shows a schematic section through an inventive refrigeration device.
Fig. 2 eine Draufsicht auf eine in dem Kältegerät verwendbare Rohrleitung;Figure 2 is a plan view of a usable in the refrigerator pipe.
Fig. 3 undFig. 3 and
Fig. 4 jeweils ein vergrößertes Detail der Rohrleitung aus Fig. 2; undFig. 4 are each an enlarged detail of the pipe of Fig. 2; and
Fig. 5 eine Schnittdarstellung der die Innenwand des Kältegeräts kreuzendenFig. 5 is a sectional view of the inner wall of the refrigerator crossing
Rohrleitung.Pipeline.
Fig. 1 zeigte einen schematischen vertikalen Schnitt durch ein erfindungsgemäßes Kälte- gerät. Das Kältegerät hat einen Korpus 1 und eine Tür 2, die jeweils in herkömmlicher Weise durch eine feste Außenwand 3 und eine aus Kunststoff tiefgezogene Innenwand, im Falle des Korpus 1 als Innenbehälter 4 bezeichnet, und eine zwischen diesen Teilen eingeschlossene isolierende Schaumstoffschicht 5 gebildet sind. Das Innere des Innenbehälters 4 ist durch eine ebenfalls wärmeisolierende Trennwand 6 unterteilt in eine Verdampferkammer 7 und eine Lagerkammer 8. Ein Lufteinlassdurchgang 9, durch den Luft aus der Lagerkammer 8 in die Verdampferkammer 7 gelangt, ist an einem der Tür 2 zugewandten Rand der Trennwand 6 gebildet. Ein Verdampfer 10 ist in der Verdampferkammer 7 in einer Auffangschale 1 1 aufgenommen. Die Auffangschale 1 1 hat in einer Rückwand eine in der Fig. nicht gezeigte Öffnung, an der ein Ventilator angebracht ist. In der Fig. ist lediglich ein Gehäuse 12 zu sehen, das den Ventilator umgibt. Der Ventilator drückt Luft aus der Verdampferkammer 7 in einen Luftkanal 19, der sich entlang der Rückwand 18 des Innenbehälters 4 erstreckt und von der Lagerkammer 8 durch eine durchbrochene Abdeckung 20 getrennt ist.Fig. 1 shows a schematic vertical section through an inventive refrigerator. The refrigeration device has a body 1 and a door 2, each of which is conventionally formed by a solid outer wall 3 and an inner wall thermoformed from plastic, in the case of the body 1 as an inner container 4, and an insulating foam layer 5 enclosed between these parts. The interior of the inner container 4 is divided by a likewise heat-insulating partition 6 into an evaporator chamber 7 and a storage chamber 8. An air inlet passage 9, passes through the air from the storage chamber 8 in the evaporator chamber 7, is on one of the door 2 facing edge of the partition. 6 educated. An evaporator 10 is accommodated in the evaporator chamber 7 in a collecting tray 11. The drip tray 1 1 has a rear wall in an opening, not shown in the figure, to which a fan is mounted. In the figure, only a housing 12 can be seen, which surrounds the fan. The fan pushes air from the evaporator chamber 7 into an air duct 19 which extends along the rear wall 18 of the inner container 4 and is separated from the storage chamber 8 by a perforated cover 20.
Tauwasser, das bei einem Abtauen des Verdampfers 10 von diesem abläuft, wird in der Auffangschale 1 1 aufgefangen und gelangt durch einen Ablaufstutzen 13 zu einer Rohrleitung 14, die sich im Innern der Rückwand 18 abwärts bis zu einer Nische 15 im unteren rückwärtigen Bereich des Korpus 1 erstreckt, in der ein Verdichter 16 und ein in der Fig. nicht gezeigter Verflüssiger untergebracht sind. Auf den Verdichter 16 ist eine Verdunstungsschale 17 montiert, in die die Rohrleitung 14 mündet.Condensation water, which expires at a defrost of the evaporator 10 of this is collected in the drip tray 1 1 and passes through a drain pipe 13 to a pipe 14, which is located in the interior of the rear wall 18 down to a niche 15 in the lower rear region of the body 1, in which a compressor 16 and in FIG. not shown condenser are housed. On the compressor 16, an evaporation tray 17 is mounted, in which the pipe 14 opens.
Fig. 2 zeigt isoliert die Rohrleitung 14. Fig. 3 und 4 sind jeweils Schnitte durch den Einlass- bzw. Auslassbereich der Rohrleitung 14, und Fig. 5 ist ein Schnitt, der die an dem Innenbehälter 4 verankerte Rohrleitung 14 zeigt. Die Rohrleitung 14 ist ein einteilig aus einem mäßig flexiblen Kunststoff, z. B. Polypropylen, geformter Wellschlauch. Benachbart zu einem Einlassende 21 der Rohrleitung 14 sind zwei schräg zur Rohrachse orientierte Rippen 22, 23 geformt, die zwischen sich eine Nut 24 begrenzen. Beiderseits der Rippen 22, 23 sind zwei zylindrische Abschnitte 25, 26 geformt, wobei, wie besser in der vergrößerten Darstellung der Fig. 3 zu erkennen, der zum Einlassende 21 benachbarte zylindrische Abschnitt 25 einen etwas kleineren Durchmesser als der Abschnitt 26 hat und die Rippe 22 eine sich zu dem zylindrischen Abschnitt 25 hin verjüngende kegelförmige Flanke 27 hat. Der Durchmesser des Abschnitts 25 ist so bemessen, dass er bequem durch eine Öffnung 35 (siehe Fig. 5) im Innenbehälter 4 durchgesteckt werden kann. Der Außendurchmesser der Rippe 22 ist größer als der der Öffnung des Innenbehälters, doch ermöglicht es die Kegelform der Flanke 27, die Rippe 22 etwas einwärts zu stauchen und die Öffnung der Innenwand 4 elastisch aufzuweiten, so dass die Rippe 22 die Öffnung 35 passieren kann. Die Breite der Nut 24 entspricht exakt der Wandstärke des Innenbehälters 4, so dass nach Durchgang der Rippe 22 der Rand der Öffnung 35 spielfrei in die Nut 24 eingreift. Die Breite der Nut 24 kann auch etwas kleiner als die Wandstärke des Innenbehälters 4 gehalten sein. In diesem Fall kann es erforderlich sein, die Rippen 22, 23 etwas auseinander zu ziehen, um die Nut 24 zu dehnen und den Innenbehälter an ihr einrasten zu lassen, doch ist dann der Innenbehälter 4 zwischen den einander zugewandten Flanken der Nut 24 eingeklemmt und besonders zuverlässig abgedichtet.2 shows in isolation the pipeline 14. FIGS. 3 and 4 are sections through the inlet and outlet region of the pipeline 14, respectively, and FIG. 5 is a section showing the pipeline 14 anchored to the inner vessel 4. The pipe 14 is a one-piece made of a moderately flexible plastic, z. As polypropylene, molded corrugated hose. Adjacent to an inlet end 21 of the pipe 14, two obliquely oriented to the tube axis ribs 22, 23 are formed, which define a groove 24 between them. On both sides of the ribs 22, 23, two cylindrical portions 25, 26 are formed, wherein, as better seen in the enlarged view of Fig. 3, the cylindrical portion 25 adjacent to the inlet end 21 has a slightly smaller diameter than the portion 26 and the rib 22 has a tapered flank 27 tapering towards the cylindrical portion 25. The diameter of the portion 25 is dimensioned so that it can be easily inserted through an opening 35 (see FIG. 5) in the inner container 4. The outer diameter of the rib 22 is larger than that of the opening of the inner container, but the conical shape of the flank 27 allows the rib 22 to be slightly inwardly compressed and to elastically expand the opening of the inner wall 4 so that the rib 22 can pass through the opening 35. The width of the groove 24 corresponds exactly to the wall thickness of the inner container 4, so that after passage of the rib 22, the edge of the opening 35 engages without play in the groove 24. The width of the groove 24 may also be kept slightly smaller than the wall thickness of the inner container 4. In this case, it may be necessary to slightly pull the ribs 22, 23 apart to stretch the groove 24 and lock the inner container to it, but then the inner container 4 is clamped between the facing flanks of the groove 24 and more particularly reliably sealed.
An den zylindrischen Abschnitt 26 schließt sich ein Abschnitt 28 an, der eine geringere Wandstärke als die Abschnitte 25, 26 hat und der aus kurzen gewellten Segmenten gebildet und dadurch relativ leicht biegsam ist. Ein mittlerer Abschnitt 29 ist aus breiteren Segmenten gebildet und dementsprechend steifer. Hieran schließt sich wieder ein kurzsegmentiger biegsamer Abschnitt 30 und an diesen über einen Konus 31 ein zylindrischer Abschnitt 32 an. Eine Nut zwischen einem letzten Segment des Abschnitts 30 und dem Konus 31 ist mit 38 bezeichnet. Der Konus 31 und der zylindrische Abschnitt 32 haben eine größere Wandstärke als die Abschnitte 28, 29, 30 und sind dementsprechend biegesteifer als letztere. Wie in der Vergrößerung der Fig. 4 zu sehen, ist in einer Aufweitung des zylindrischen Abschnitts ein Ventil 33 verrastet, dessen Aufgabe es ist, Kondenswasser nach außen durchzulassen, einen Rückstrom von Luft durch die Rohrleitung 14 ins Innere des Kältegeräts aber zu unterdrücken.To the cylindrical portion 26, a section 28 connects, which has a smaller wall thickness than the portions 25, 26 and which is formed from short corrugated segments and thereby relatively easily flexible. A central portion 29 is formed of wider segments and accordingly stiffer. This is followed again by a short-segment flexible section 30 and to this via a cone 31 a cylindrical portion 32 at. A groove between a last segment of the portion 30 and the cone 31 is designated 38. The cone 31 and the cylindrical section 32 have a greater wall thickness than the sections 28, 29, 30 and are accordingly more rigid than the latter. As can be seen in the enlargement of Fig. 4, in a widening of the cylindrical portion, a valve 33 is locked, the task of which is to pass condensate to the outside, but to suppress a backflow of air through the pipe 14 into the interior of the refrigerator.
Fig. 5 zeigt in einem Längsschnitt den stromaufwärtigen Bereich der Rohrleitung 14. Der Innenbehälter 4 ist in der Nut 24 eingerastet, und aufgrund der schrägen Orientierung der Nut 24 verläuft die Rohrleitung 14 abschüssig durch die Innenwand 4. Um sicherzustellen, dass sich während des Zusammenbaus die Ablaufleitung nicht in der Öffnung 35 um ihre Achse dreht, hat diese Öffnung 35 einen leicht elliptischen Querschnitt mit vertikal orientierter langer Achse. Die elliptische Form der Öffnung 35 bewirkt, dass die im Querschnitt runde Rohrleitung 14 nur in der in der Fig. gezeigten abschüssigen Orientierung oder einer spiegelbildlichen, zur Rückseite des Korpus hin ansteigenden Orientierung unverformt die Wand 4 passieren kann. Jede Drehung der Rohrleitung 14 um eine Oberflächennormale der Wand 4 erzwingt eine elastische Verformung des Querschnitts der Rohrleitung 14, so dass die Rohrleitung 14 die in der Fig. gezeigte abschüssige Orientierung stabil beibehält. Der Ablaufstutzen 13 der Auffangschale 1 1 ragt in die Rohrleitung 14 hinein, so dass keine Gefahr eines Zurücklaufens von Wasser aus der Rohrleitung 14 in die Verdampferkammer 7 besteht.Fig. 5 shows in longitudinal section the upstream region of the pipeline 14. The inner container 4 is engaged in the groove 24, and due to the oblique orientation of the groove 24, the pipe 14 slopes down through the inner wall 4. To ensure that during assembly the drain line does not rotate in the opening 35 about its axis, this opening 35 has a slightly elliptical cross-section with a vertically oriented long axis. The elliptical shape of the opening 35 causes the circular cross-section pipe 14 can undeformed pass through the wall 4 only in the downward orientation shown in the figure or a mirror-image, toward the back of the body rising orientation. Each rotation of the pipe 14 about a surface normal of the wall 4 forces elastic deformation of the cross section of the pipe 14, so that the pipe 14 stably maintains the downward orientation shown in the figure. The outlet pipe 13 of the drip tray 1 1 projects into the pipe 14 so that there is no risk of water returning from the pipe 14 into the evaporator chamber 7.
Das stromabwärtige Ende der Rohrleitung 14 ist in einer Öffnung 37 einer Traverse 36, die sich zwischen zwei Seitenwänden über die Nische 15 hinweg erstreckt und einen Teil der Außenwand 3 bildet, in ähnlicher Weise verankert wie das stromaufwärtige Ende im Innenbehälter 4. Die Ränder der Öffnung 37 sind in der unmittelbar zu dem Konus 31 benachbarten Nut 38 (siehe Fig. 4) verrastet.The downstream end of the conduit 14 is anchored in an opening 37 of a cross member 36 which extends between two side walls across the niche 15 and forms part of the outer wall 3 in a manner similar to the upstream end in the inner container 4. The edges of the opening 37 are in the immediately adjacent to the cone 31 adjacent groove 38 (see Fig. 4) locked.
Da sich die Rohrleitung 14 einstückig aus der Verdampferkammer 7 bis in die Nische 15 hinein erstreckt, besteht keine Gefahr, dass Feuchtigkeit aus der Rohrleitung 14 in die Schaumstoffschicht 5 gelangt. Durch die Verrastung der Nuten 24, 38 am Innenbehälter 4 bzw. der Traverse 36 ist jeweils eine schaumdichte Verbindung gewährleistet, die sowohl ein Lecken von Isolierschaum während der Montage als auch das Eindringen von Feuchtigkeit in die Schaumstoffschicht 5 während des Betriebs des Geräts verhindert. Since the pipe 14 integrally extends from the evaporator chamber 7 into the niche 15, there is no risk that moisture from the pipe 14 enters the foam layer 5. By locking the grooves 24, 38 on the inner container 4 and the traverse 36 a foam-tight connection is ensured in each case, which prevents both leakage of insulating foam during assembly and the ingress of moisture into the foam layer 5 during operation of the device.

Claims

Patentansprüche claims
1 . Kältegerät mit einem wärmeisolierenden Gehäuse (1 , 2), das einen Innenraum (7,8) umgibt und eine feste äußere Wand (3), eine feste innere Wand (4) und eine zwischen diesen Wänden eingeschlossene Isoliermaterialschicht (5) umfasst, sowie mit einem Wasserablauf, der sich durch die zwei Wände (3, 4) und die Isoliermaterialschicht (5) erstreckt, dadurch gekennzeichnet, dass der Wasserablauf eine Rohrleitung (14) umfasst, die durch eine Öffnung (35, 37) wenigstens einer der Wände (3, 4) durchgesteckt ist, und dass der Rand der Öffnung (35, 37) in eine umlaufende Nut (24, 38) der Rohrleitung (14) eingreift.1 . Refrigerating appliance with a heat-insulating housing (1, 2) surrounding an interior space (7, 8) and comprising a solid outer wall (3), a fixed inner wall (4) and an insulating material layer (5) enclosed between these walls, and a water drain extending through the two walls (3, 4) and the insulating material layer (5), characterized in that the water drain comprises a duct (14) passing through an opening (35, 37) of at least one of the walls (3 , 4), and in that the edge of the opening (35, 37) in a circumferential groove (24, 38) of the pipe (14) engages.
2. Kältegerät nach Anspruch 1 , dadurch gekennzeichnet, dass der Rand der Öffnung (35) zwischen einander gegenüberliegenden Flanken der Nut (24) spielfrei gehalten ist.2. Refrigerating appliance according to claim 1, characterized in that the edge of the opening (35) between opposite flanks of the groove (24) is held without play.
3. Kältegerät nach Anspruch 1 oder 2, dadurch gekennzeichnet, dass die Nut (24) an einer Seite durch eine Rippe (22) begrenzt ist, deren Querschnitt sich an ihrer von der Nut (24) abgewandten Seite allmählich verengt.3. Refrigerating appliance according to claim 1 or 2, characterized in that the groove (24) is bounded on one side by a rib (22), whose cross-section gradually narrows at its side remote from the groove (24) side.
4. Kältegerät nach Anspruch 3, dadurch gekennzeichnet, dass die Rippe (22) hohl ist.4. Refrigerating appliance according to claim 3, characterized in that the rib (22) is hollow.
5. Kältegerät nach Anspruch 4 oder 5, dadurch gekennzeichnet, dass die Rippe (22) zwischen der Nut (24) und einem der Nut benachbarten Ende (21 ) der Rohrleitung (14) angeordnet ist.5. Refrigerating appliance according to claim 4 or 5, characterized in that the rib (22) between the groove (24) and one of the groove adjacent end (21) of the pipe (14) is arranged.
6. Kältegerät nach einem der vorhergehenden Ansprüche, dadurch gekennzeichnet, dass die Rohrleitung (14) die Öffnung (35) in einer nach außen abschüssigen Orientierung durchsetzt.6. Refrigerating appliance according to one of the preceding claims, characterized in that the pipe (14) passes through the opening (35) in an outwardly sloping orientation.
7. Kältegerät nach Anspruch 6, dadurch gekennzeichnet, dass die Nut (24) sich in einer Ebene erstreckt, die die Achse der Rohrleitung (14) in Höhe der Nut (24) unter einem nichtrechten Winkel schneidet. 7. Refrigerating appliance according to claim 6, characterized in that the groove (24) extends in a plane which intersects the axis of the pipe (14) at the level of the groove (24) at an uneven angle.
8. Kältegerät nach Anspruch 7, dadurch gekennzeichnet, dass die Öffnung (35) von elliptischer Form ist.8. Refrigerating appliance according to claim 7, characterized in that the opening (35) is of elliptical shape.
9. Kältegerät nach einem der vorhergehenden Ansprüche, dadurch gekennzeichnet, dass in dem Innenraum (7) ein Auffangbehälter (1 1 ) mit einem in die Rohrleitung (14) eingreifenden Ablaufstutzen (13) angeordnet ist.9. Refrigerating appliance according to one of the preceding claims, characterized in that in the interior space (7) a collecting container (1 1) with a in the pipe (14) engaging drain pipe (13) is arranged.
10. Kältegerät nach einem der vorhergehenden Ansprüche, dadurch gekennzeichnet, dass die Länge eines in der Isoliermaterialschicht (5) verlaufenden Abschnitts (28, 29, 30) der Rohrleitung (14) wenigstens das Zweifache der Stärke der Isolationsmaterialschicht (5) ist.10. Refrigerating appliance according to one of the preceding claims, characterized in that the length of a in the insulating material layer (5) extending portion (28, 29, 30) of the pipe (14) is at least twice the thickness of the insulating material layer (5).
1 1 . Kältegerät nach einem der vorhergehenden Ansprüche, dadurch gekennzeichnet, dass die Rohrleitung (14) durch einen Wellschlauch gebildet ist.1 1. Refrigerating appliance according to one of the preceding claims, characterized in that the pipe (14) is formed by a corrugated hose.
12. Kältegerät nach einem der vorhergehenden Ansprüche, dadurch gekennzeichnet, dass die Biegsamkeit der Rohrleitung (14) in einem der Nut (24) benachbarten Abschnitt (28) höher ist als in einem von der Nut (24) entfernten Mittelabschnitt (29) der Rohrleitung (14). 12. Refrigerating appliance according to one of the preceding claims, characterized in that the flexibility of the pipe (14) in one of the groove (24) adjacent portion (28) is higher than in one of the groove (24) remote central portion (29) of the pipeline (14).
EP06793202.0A 2005-09-12 2006-09-04 Cooling device with a water drain Active EP1929219B1 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DE200520014380 DE202005014380U1 (en) 2005-09-12 2005-09-12 Refrigerating appliance with water drain
PCT/EP2006/065984 WO2007031427A1 (en) 2005-09-12 2006-09-04 Cooling device with a water drain

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EP1929219A1 true EP1929219A1 (en) 2008-06-11
EP1929219B1 EP1929219B1 (en) 2016-11-09

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EP (1) EP1929219B1 (en)
CN (1) CN101263353B (en)
DE (1) DE202005014380U1 (en)
RU (1) RU2401399C2 (en)
WO (1) WO2007031427A1 (en)

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Publication number Priority date Publication date Assignee Title
DE202006013228U1 (en) * 2006-08-29 2006-10-26 BSH Bosch und Siemens Hausgeräte GmbH House hold appliance e.g. cooling device, has water discharge pipe extending through gap, and spigot projecting into gap and formed in inner wall, where end of pipe is form-fit and/or frictionally held at spigot in liquid-tight manner
CN102384623B (en) * 2011-10-24 2013-08-14 合肥美的荣事达电冰箱有限公司 Refrigerator and drain pipe subassembly for same
EP3034972A1 (en) * 2014-12-18 2016-06-22 Indesit Company S.p.A. Refrigeration appliance, in particular for household use, and manufacturing method thereof
CN106595166A (en) * 2016-11-10 2017-04-26 青岛海尔智能技术研发有限公司 Refrigerator

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Publication number Priority date Publication date Assignee Title
DE1043357B (en) * 1954-08-19 1958-11-13 Gen Electric Drip gutter for refrigerators
JPH1089836A (en) * 1996-09-12 1998-04-10 Matsushita Refrig Co Ltd Drainage system for refrigerator
JP3679934B2 (en) * 1998-09-30 2005-08-03 株式会社東芝 Hose fixing structure in refrigerator

Non-Patent Citations (1)

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Title
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CN101263353B (en) 2011-05-04
WO2007031427A1 (en) 2007-03-22
RU2008106304A (en) 2009-10-20
EP1929219B1 (en) 2016-11-09
RU2401399C2 (en) 2010-10-10
DE202005014380U1 (en) 2006-01-05
CN101263353A (en) 2008-09-10
WO2007031427A8 (en) 2008-04-03

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