CN103261821B - Refrigerator, in particular domestic refrigerator - Google Patents

Abstract

The invention relates to a refrigerator, in particular domestic refrigerator, having a series of condensation-water channels (17) which are arranged one above the other, are intended for collecting and evaporating condensation water which forms in the refrigerating chamber (16) of the refrigerator, and of which at least one condensation-water channel (17) is closed on both end sides (21) and has a channel wall (19) which extends in the longitudinal direction (x) of the channel and projects outwards from the refrigerator. According to the invention, the wall (19) of the condensation-water channel (17), this wall extending in the longitudinal direction (x) of the channel, has, over the course of its upper edge, an overflow edge (23), which is set back by a vertical offset (Delta h).

Description

Refrigerating appliance, especially Domestic refrigerator

The present invention relates to a kind of refrigerating appliance according to claim 1 summation.

Refrigerating appliance especially Domestic refrigerator here, namely in the family for family expenses or the refrigerating appliance that also can use in catering industry, and be particularly useful at the temperature determined, deposit daily life consumption food and/or beverage, such as, as refrigerator, reach in freezer or refrigerating combination sideboard or storage wine cabinet.

The dew formed in the refrigerating chamber of refrigerating appliance usually to guide from the refrigerating chamber utensil back side externally by dew pipeline and is collected in evaporating pan at the utensil back side.In this evaporating pan, collected dew can be evaporated in environment when using the used heat of the compressor reducer of refrigerant loop and/or condenser.Substitute evaporating pan, can arrange the dew groove that some rank shapes are arranged stackedly on the utensil back side, these dew grooves are interconnected in flow technique.

By the known a kind of this kind of refrigerating appliance of DE 6 810 043 U1, this refrigerating appliance has this dew groove arranged stackedly, the dew collected in these dew grooves and formed in the refrigerating chamber of evaporation at refrigerating appliance.Each this dew groove on two end face sides close, wherein, a cell wall that groove longitudinal direction extends from substrate outwardly.

Each in the dew groove shown in DE 6 810 043 U1 have each one towards utensil side surface direction, the flood-level rim of end face side, thus the dew of surplus can drip to dew groove in the bottom laterally from the dew groove of top.The flood-level rim of side is alternately arranged on side, left side or side, right side respectively, and each dew groove is then closed in horizontally-opposed end watertight.Thus, by time curved flow path of the flow direction the replaced dew given in advance of each dew groove, thus, the geometry complicated generally of evaporative component is formed.In addition, have problems when refrigerating appliance is slightly tilting, that is, dew groove each watertight the side closed forms dead angle, dew is not gathered in this dead angle with discharging possibility.

Task of the present invention is, provides a kind of refrigerating appliance, especially Domestic refrigerator, and this refrigerating appliance has geometrically simple evaporative component, and wherein, even if when this utensil is slightly tilting, dew also can be discharged downwards.

This task is solved by the feature of claim 1.Advantageous modification of the present invention is disclosed in the dependent claims.

Refrigerating appliance according to the present invention has the dew groove that row are arranged stackedly, and dew can be assembled and evaporate in these dew grooves.At least one in these dew grooves close on two end face sides and have extend on groove longitudinal direction, from refrigerating appliance cell wall outwardly.According to the present invention, should the cell wall that extend on groove longitudinal direction have in the edge trend on top with the flood-level rim of a highly dislocation retraction.Thus, dew can be in lower flood-level rim by these and discharges downwards.Dew amount on the estimation and determining, the length of this flood-level rim and highly dislocation can change.Preferably, flood-level rim substantially extends on groove longitudinal direction in the whole length of dew groove.Dew groove can be arranged on the utensil back side of refrigerating appliance usually.At this place, the dew of gathering can utilize the used heat of compressor reducer/condenser to be evaporated in environment.

With regard to enough evaporation efficiencies advantageously, do not have larger dead angle to be formed when refrigerating appliance is slightly tilting, dew can be gathered in this dead angle without discharge possibility.Under this background advantageously, dew groove is arranged in a horizontal plane under refrigerating appliance vertical installment state, not used for the flowing drop of dew.Therefore, with substantially extend in the whole length of dew groove, flood-level rim that position is lower combines, even if also can overflow enough water yields from each dew groove when tilting.

When large-scale production in process technology advantageously, evaporative component geometry according to the present invention is formed simply, has both reduced that mould expends, material consumption thus, also reduces component and expends.In addition, for saving material advantageously, evaporative component is provided with enough large stiffness by itself.For this reason, dew groove can be strengthened by the wall end segments improved on the angular zone of side.On these wall end segments are arranged on cell wall respectively two ends in end face side and can by step transition to being arranged in middle flood-level rim.Two sides of cell wall, the wall end segments that improves preferably crosses on angular zone with end face side.In order to improve stiffness of structural member further, end face side and wall end segments can exceed flood-level rim with already mentioned height dislocation.

In order to stablize this evaporative component, dew groove can material in the same manner and/or single type to be molded on matrix, especially to erect on the plate arranged one.Here, dew groove can with matrix compound be configured to working of plastics.In this configuration, rearwardly projecting cell wall can with plate shape matrix common gauge dew collecting chamber.

Cell wall can be configured with tilting draining sidewall in outside, wherein, be configured to wedge shape by the dew collecting chamber of cell wall gauge in moulding.Superfluous dew can be discharged along draining sidewall.The draining sidewall of cell wall can through the draining edge transition of level in plate shape matrix.Therefore, first the dew of spilling flow through the direction of draining sidewall to the draining edge of vertical lower, continues subsequently to flow in the dew groove be in below this draining edge.For the tank making the dew of drippage be in below draining edge by this completely receives, advantageously, the dew groove of below is with the draining edge of the dew groove of a surplus above side exceeds.The end face side mutually opposing on groove longitudinal direction of dew groove preferably extends when tilting upwards separated from one anotherly.

The evaporative component implemented with above-mentioned geometric properties can realize the embodiment of mirror symmetry, and this embodiment is favourable with regard to stiffness of structural member and simple moulding.Here, the axis of symmetry is corresponding to the axis extended in vertical direction of stacked the dew groove arranged.In addition, the component geometry of above explanation can make dew groove geometry form in the same manner.

Plate shape matrix preferably not only carries dew groove, but also dual-use function ground is formed as outer wall pieces, this outer wall pieces with determine the cavity that the common gauge of the internal container of refrigerating chamber is filled with heat barrier foam.In corresponding stable configuration situation, plate shape matrix also can use as the structural detail of the load-carrying of refrigerating appliance body simultaneously.Such structural detail can extend as crossbeam and is interconnected by these side outer walls between the side outer wall of refrigerating appliance.By this way, apparatus body just can sufficiently be reinforced before foaming process.

By accompanying drawing, one embodiment of the present of invention are described below.Accompanying drawing illustrates:

Fig. 1 illustrates the angular zone of the bottom at the utensil back side of refrigerating appliance with the body portion view amplified;

Fig. 2 illustrates according to dew groove of the present invention with details diagram;

Fig. 3 illustrates this dew groove with partial view; With

Fig. 4 illustrates the generalized section of the vertical section along Fig. 1 with three-dimensional view.

The body portion view of the machine chamber 1 being in the utensil back side of refrigerating appliance shown in Figure 1.Between two side outer walls 3 that machine chamber 1 is bound to refrigerating appliance as retracting.The compressor 5 shown in Figure 1 of refrigerant loop is furnished with in machine chamber 1.The upper side of machine chamber 1 passes through roof 7 only shown in Figure 4 to upper control limit.The roof 7 of level trend is transitioned in the mode be not shown specifically here and one is erected to, in the plate 9 namely vertically arranged.Plate 9 is configured to the structural member carried, and the mounting flange 11 of the rear side of the outer wall 3 that this structural member is opposed with on the direction x of utensil both sides is respectively threaded.On utensil vertical direction z, plate 9 is connected such as be made up of hardboard, a vertical wall elements 13.In addition, a shaping dew outlet 14 in about middle of the upside of plate 9, the outlet of this dew is connected with dew pipeline 15 only shown in Figure 4 in flow technique.

The refrigerant loop of refrigerating appliance also has miscellaneous part except compressor 5, i.e. condenser, expansion mechanism and evaporimeter, and this evaporimeter is coupled with the clear refrigerating chamber 16 illustrated in the diagram on thermal relationship.The reason of these parts also for clarity as other refrigerant loop parts is not shown in figures.Condenser is slightly assemblied on the utensil back side compartment of terrain in known manner in vertical plane and with the vertical wall element 13 of refrigerating appliance.At this, condenser roughly extends on the height of the roof 7 of assembly room 1 in vertical plane.

As carrying structural members plate 9 by can be simply shaping plastic material manufacture.In addition, plastic plate 9 it on the y of constructional depth direction backward towards side on carry a series of stacked dew groove 17 arranged, be molded on plate shape matrix 9 identical the and single type of these dew groove materials.That promote evaporation, large water meter area is formed due to a large amount of dew grooves 17.

These dew groove 17 entire infrastructures are formed in the same manner.Like this, according to the partial view of the amplification of Fig. 2, each in groove 17 have one on the y of constructional depth direction rearwardly projecting cell wall 19, this cell wall is molded on plate shape matrix 9 with heeling condition by angle [alpha].Cell wall 19 and plate shape matrix 9 are formed in the dew collecting chamber in wedge shape in moulding jointly, in this dew collecting chamber, keep dew.The cell wall 19 of each dew groove 17 extends past the almost whole width of plate shape matrix 9 respectively on utensil side direction x.At this, dew groove 17 under the at right angle setting state of refrigerating appliance flatly, namely not used for the dew remained on wherein flowing drop arrange.

As illustrated further by Fig. 1 and 2, dew groove 17 has closed end face side 21 respectively on its end.In addition, shown in Figure 2, the cell wall 19 that utensil side direction x extends of each dew groove 17 has a flood-level rim 23 of retracting highly dislocation Δ h (Hoehenversatz) downwards in the edge trend on top.The flood-level rim 23 of this retraction substantially extends past the whole length of each dew groove 17 on groove longitudinal direction x.In order to reinforce the angular zone 24 formed between cell wall 19 and end face side 21, the both sides respectively on cell wall 19 are arranged on the end segments 25 that side is improved.Therefore, in the edge trend on the top of cell wall 19, flood-level rim 23 is transitioned in the end segments 25 of this raising on a step in side.At this, the wall end segments 25 of raising highlights flood-level rim 23 together with end face side 21 with already mentioned height dislocation Δ h.

Formed the draining sidewall 27 in outside according to Fig. 2 with the tilting cell wall 19 of angle [alpha], the dew of spilling can be discharged to the dew groove 17 be under it on this draining sidewall.Draining sidewall 27 is transitioned in plate shape matrix 9 on the draining edge 29 of level, and this draining edge extends on the direction x of utensil both sides with length 1 in fig. 2.

As already mentioned, owing to forming a dew collecting chamber in wedge shape in moulding with the tilting cell wall 19 of angle [alpha], this dew collecting chamber is closed on side by same that form, leg-of-mutton end face side 21.According to Fig. 2, the end face side 21 formed like this is not vertically upright, but the mutually opposing end face side 21 of dew groove 19 extends vertically upward separated from each other.Correspondingly, the cross-sectional area of dew collecting chamber was upwards both also widened on the y of constructional depth direction on the direction x of utensil both sides.

The right flank of dew groove 19 is only shown in fig. 2.The left surface of dew groove 19 is implemented as mirror image in contrast to this, or rather, becomes mirror image relative to the vertical centering control axis M shown in Figure 1 of plate shape matrix 9.In addition, whole dew grooves 19 of matrix 9 are also formed in size and geometry in the same manner.Thus, dew groove 19 can with illustrate in figs 2 and 3, the frame mode stacked ground stepwise layout of intersecting.

The length 1 at the draining edge 29 of the dew groove 17 of top is implemented be less than the cross section be open upwards descending the dew collecting chamber of the dew groove 17 of layout at it above on utensil side direction x based on given geometry situation shown in figure 2.Therefore, the end face side 21 of the dew groove 17 below each cross with a surplus a respectively on the direction x of utensil both sides above the draining edge 29 of dew groove 17.Therefore, though in extreme circumstances while transporting (such as) dew because the extreme of refrigerating appliance is tilting, end face side 21 is crossed in flowing, also guarantee that the dew overflowed can be discharged in the dew groove 17 be arranged under it completely.

The lower angular zone at the back side of apparatus body is shown with sectional view in the diagram.Therefore, plate shape matrix 9 forms outer wall pieces respectively together with vertical wall elements 13 and roof 7, and the internal container 31 of these outer wall pieces and gauge refrigerating chamber 16 determines the cavity of filling with heat barrier foam 33 jointly.Internal container 31 is manufactured by plastics by deep drawing methods in known manner.Exported 14 by the dew pipeline 15 that the refrigerating chamber 16 of its gauge is shown by a dotted line according to Fig. 4 with the dew be integrated in plate shape matrix 9 to be connected, thus, the dew formed in refrigerating chamber 16 can export 14 by dew and first drop onto on the uppermost dew groove 17 of plate shape matrix 9.

List of reference signs

Claims (11)

1. refrigerating appliance, there is a series of dew groove (17) arranged stackedly, for collecting and evaporating the dew formed in the refrigerating chamber (16) of refrigerating appliance, at least one dew groove (17) in these dew grooves is closed and has one groove longitudinal direction (x) is upper and to extend on two end face sides (21), from refrigerating appliance cell wall (19) outwardly, wherein, the cell wall (19) of described dew groove (17) has a flood-level rim (23) of retracting with highly misplace (Δ h) in the edge trend on top, it is characterized in that, described dew groove (17) in the upper mutually opposing end face side (21) of groove longitudinal direction (x) with an angle (β) tilting upwards separated from one another to extend, and, when at least two stacked arrange dew groove (17), the dew groove (17) of below exceeds the draining edge (29) of the dew groove (17) of top with a surplus (a) on groove longitudinal direction (x).

2. refrigerating appliance according to claim 1, is characterized in that, described flood-level rim (23) substantially extend past the whole length of described dew groove (17) on groove longitudinal direction (x).

3., according to the refrigerating appliance of claim 1 or 2, it is characterized in that, described flood-level rim (23) with described height misplace (Δ h) retract from the top edge of the end face side (21) of described dew groove (17).

4. according to the refrigerating appliance of claim 1 or 2, it is characterized in that, the top of described cell wall (19) edge trend in, described flood-level rim (23) on groove longitudinal direction (x) by a step transition to raising wall end segments (25) in.

5. refrigerating appliance according to claim 4, is characterized in that, the wall end segments (25) of described raising and the end face side (21) of described cell wall (19) cross on angular zone (24).

6. the refrigerating appliance any one of claim 1,2 and 5, is characterized in that, is molded on a matrix (9) the identical and/or single type of described dew groove (17) material.

7. refrigerating appliance according to claim 6, it is characterized in that, described cell wall (19) is molded on described matrix (9) with heeling condition with having an angle (α), and/or this cell wall (19) forms a tilting draining sidewall (27) in moulding in outside, the dew overflowed is discharged along this draining sidewall, and this draining sidewall (27) is transitioned in described matrix (9) on a draining edge (29).

8. the refrigerating appliance any one of claim 1,2,5 and 7, it is characterized in that, described dew groove (17) is implemented as about axis (M) mirror symmetrical, and/or this dew groove (17) geometry is formed in the same manner.

9. the refrigerating appliance any one of claim 1,2,5 and 7, is characterized in that, described dew groove (17) is arranged in the plane of a level under refrigerating appliance vertical installment state, that is not used for the flowing drop of dew.

10. refrigerating appliance according to claim 6, it is characterized in that, described matrix (9) is the outer wall pieces of refrigerating appliance body, the cavity that this outer wall pieces is filled with heat barrier foam (33) with the common gauge of the internal container (31) limiting refrigerating chamber (16).

11. refrigerating appliances according to claim 6, is characterized in that, described matrix (9) is interconnected as the side outer wall (3) of fastening element by refrigerating appliance.