CN103363762A - Refrigeration device with tiered evaporation stand - Google Patents

Abstract

The refrigeration device (1) comprises a coolable storage chamber (3) for receiving goods to be cooled, and a machine chamber (5) for receiving units of a refrigeration circuit for cooling the storage chamber. The refrigeration circuit is used for cooling the storage chamber (3). The machine chamber (5) has a machine chamber cover (7), on which at least one tiered evaporation stand (11) is formed for receiving the condensation water arising at the storage chamber (3).

Description

Refrigerating appliance with the vaporization layer frame

Technical field

The present invention relates to a kind of refrigerating appliance with the vaporization layer frame.

Background technology

In the development of modern household refrigerating appliance, a conclusive target is exactly to reduce the energy consumption of this refrigerating appliance.This mainly realizes in the following way, that is, not only reduce the running time of refrigeration system but also reduce the energy requirement that is used for the running refrigerating system by various measures.When refrigerating appliance moves, outside cooling chamber, be vaporized by prior art in the condensate water of the cooling chamber inner accumulation of refrigerating appliance.This realizes in the following way that usually namely, condensate water is collected in the gasifying disk, and this gasifying disk is arranged near the refrigerating appliance compressor (for example directly up or below).Compressor for example is arranged under cooling chamber in the machine chamber of refrigerating appliance.The heat extraction of compressor is conducive to the vaporization of condensate water at this.

DE102010003088A1 shows the refrigerating appliance with corresponding vaporization container.Running time seldom by refrigeration system and modern compressor at optimum design aspect the energy consumption, the problem that exists now is: the heat extraction of compressor usually is not enough to make reliably the condensing capacity vaporization of accumulation.Therefore, usually adopting the very high addition thereto of cost in the utensil efficiently, to guarantee the vaporization efficency when condensing capacity is very large.Therefore target is to find the measure of the condensate water vaporization that is conducive to accumulate, and does not produce significant fringe cost.

The known refrigerating appliance that has for the different measure of the intermediate storage of condensate water and vaporization under this background.For example, with gasifying disk (condensing vessel) contact ground or contactless type be placed on the compressor or under.Be well known that in addition: the pipe of heating tube, especially condenser, or electric heater unit, be placed in the gasifying disk or on, in order to heat this gasifying disk.By heating, the vaporization of condensed water is promoted in gasifying disk.Also be well known that: ventilating system is set, so that air circulation or saturated air transmitted out.Be well known that in addition, other additional intermediate store container is set, in order to can receive additional condensate water and create an additional surface that is provided for vaporizing (condensate water surface).

Disclosed for plate that settle at the refrigerator dorsal surface, that have some horizontal channels by DE6810043U, described horizontal channel is used for receiving and the vaporization condensate water.

A known refrigerating appliance also, described refrigerating appliance have the cladding system of the machine chamber that is provided for holding unit such as Compressor Group.Such cladding system in some market (as usually in the Asia) be user expectation and in some country even recommended by the legislator.This class cladding system usually is made of plastics with the spray to cast method.But solution also can be made up by metal sheet.Be known that such cladding system has a negative impact to vaporization efficency, because the air exchange difficult.Should damp and hot weather be arranged with main target market of the utensil of machine chamber cladding system, the cladding system of this damp and hot weather and machine chamber shows the especially difficulty for reaching vaporization efficency together.

Summary of the invention

Therefore, task of the present invention provides the refrigerating appliance of improvement, wherein especially improves the vaporization efficency of condensed water.

This task solves by the feature of independent claims.Favourable improved procedure is the theme of dependent claims.

According to a viewpoint, have by refrigerating appliance of the present invention: at least one is used for holding the storage chamber that can cool off that cools off thing; Machine chamber for the unit that holds refrigerating circuit, described refrigerating circuit is used for the cooling storage chamber, wherein, described machine chamber has the machine chamber cladding system, consists of at least one for the vaporization layer frame of the condensed water that is received in the generation of storage chamber place at this machine chamber cladding system.Described vaporization layer frame has one or more grooves for this reason, is used for receiving condensed water.Simultaneously, the vaporization layer frame can be set to the flat face formula liner plate on the machine chamber cladding system or consist of integratedly with the machine chamber cladding system and protrude from slightly thus described machine chamber cladding system.

Provide a series of advantage by refrigerating appliance of the present invention.The additional space of intermediate storage acquisition for a large amount of condensate water on the machine chamber cladding system.In addition, the surface that for example also (there air exchange improvement) obtains to add outside the machine chamber of closure is used for the vaporization of condensate water.The condensate water surface after all wants heated position to produce refrigerating appliance by described machine chamber.This is conducive to vaporization efficency.This measure relative cost is moderate, because the machine chamber cladding system after all will arrange.Can cancel for the additional very high measure of cost that improves vaporization efficency, thus, refrigerating appliance can be made inexpensively.This measure visually is difficult for discovering, because for the user, the change of configuration of machine chamber cladding system is not almost seen.The configuration of the summary microvariations of machine chamber cladding system makes it possible to achieve high same parts at this and uses, and this helps to reduce manufacturing cost.Opposite with the known vaporization crossbearer in being placed on the foaming shell zone, in the situation of described machine chamber cladding system, can be shaped in the both sides of member (medial/lateral of machine chamber cladding system) and utilize the vaporization layer frame.

The refrigerating circuit of refrigerating appliance for example comprises: the compressor that is used for compressed refrigerant vapor; Be used for condenser condensating refrigerant steam, that behind compressor, connect; With the cold-producing medium that is used for evaporating condensation, behind the condenser and the evaporimeter that before compressor, connects.Compressor and evaporimeter equally are equipped with for transmit heat between the liquid of the air of inputting and refrigerating circuit.

Refrigerating appliance especially is understood to Domestic refrigerator, namely be used for housework household management or use in catering field and in particular for food and/or beverage at the refrigerating appliance of determining the storage under the temperature, for example refrigerator, reach in freezer, refrigerating combination sideboard, household freezer or grape wine refrigeration cabinet.

According to an embodiment, be furnished with at least two vaporization layer framves stackedly up and down, be stacked in up and down and relate to the refrigerating appliance that can place on the meaning of the present invention with putting into operation.Thus, can realize very large evaporating face at a very little basal plane.In addition, in the situation that level becomes a mandarin, can realize very high vaporization efficency especially, because the air that each condensed water surface on each plane has been received moisture abreast becomes a mandarin.

According to an embodiment, these vaporization layer framves face machine chamber and open wide and/or deviate from machine chamber and be arranged on the machine chamber cladding system unlimitedly.Arrange if the vaporization layer frame deviates from machine chamber unlimitedly, can realize so to the air input of the improvement of vaporization layer frame.This can realize that moisture discharges and then obtain higher vaporization efficency better.The vaporization layer frame has following advantage towards the orientation of machine chamber: the water in the vaporization layer frame can prevent external action, especially dirt impact especially easily.

According to an embodiment, vaporization layer sets up to be counted to such an extent that be channel shaped.The configuration of channel shaped can be realized the trend of condensed water in the vaporization layer frame.The configuration of this channel shaped can be realized by milling or chipless shaping (for example in the die casting mode).Preferably, the vaporization layer frame has compares into several times length with width, thereby obtains following liquid level, and this liquid level is slenderly extended along refrigerating appliance, and this can be implemented in air and becomes a mandarin transverse to the good vaporization rate in the situation of this trend.

According to an embodiment, the machine chamber cladding system can be arranged on the refrigerating appliance with taking off.This can realize: settle a machine chamber cladding system of determining corresponding to desirable vaporization effect.Therefore, the refrigerating appliance weather conditions of adaptive its place to use for example.Can realize inexpensively the flexible program of refrigerating appliance by this modular structure.

According to an embodiment, the machine chamber cladding system is installed on the refrigerating appliance latchablely.This can realize: described machine chamber cladding system can be fastened on the refrigerating appliance by simply pressing.

According to an embodiment, the machine chamber cladding system has at least one ventilation orifice, especially ventilation seam.Air can be inputed to the vaporization layer frame by this ventilation orifice.The machine chamber cladding system can be realized at this: from the air of machine chamber with the very short path vaporization layer frame that directly leads.At this, air can turn to like this by the respective configuration (for example with form of nozzle) of machine chamber cladding system, so that the vaporization layer frame becomes a mandarin optimisedly.

According to an embodiment, the machine chamber cladding system is by plastics, and especially polypropylene, polyethylene or Merlon are made.These materials can be realized: even if the machine chamber cladding system also has enough elasticity and hardness in the situation of lasting liquid contact.

According to an embodiment, be provided with at least one additional vaporization crossbearer, be used for being received in the condensed water that the storage chamber place produces.Condensate water can be imported in the described vaporization crossbearer, also partially or completely is vaporized by intermediate storage there.The vaporization crossbearer has one or more grooves, is used for receiving condensed water.Vaporization crossbearer preference is as being arranged on the rear wall of refrigerating appliance as flat part.

According to an embodiment, be provided with at least one additional gasifying disk, be used for being received in the condensed water that the storage chamber place produces.Thus, the receiving ability for condensed water can further improve.Gasifying disk for example is arranged on the compressor of refrigerating circuit, thereby so that this gasifying disk heated by compressor.

According to an embodiment, the first overflow passage is set between vaporization crossbearer and gasifying disk is used for the downward guiding of condensed water from the vaporization crossbearer to gasifying disk.So condensed water can at first be imported in the vaporization crossbearer, also partially or completely is vaporized by intermediate storage there.Then the condensate water that stays is imported in the gasifying disk that for example is arranged on the compressor, and partially or completely is vaporized there.

According to an embodiment, the second overflow passage is set between gasifying disk and vaporization layer frame is used for the downward guiding of condensed water from gasifying disk to the vaporization layer frame.So the condensate water that stays can be guided in the layer frame of machine chamber cladding system and all or part of being vaporized there by described the second overflow passage.

According to an embodiment, vaporization layer frame and/or vaporization crossbearer and/or gasifying disk can heat.Can improve the vaporization efficency of corresponding assembly by heating.At this, electric heater unit can for example be set.Also can consider following heating element heater, these heating element heaters are heated by the assembly that has for example heated in machine chamber via heat bridge.

According to a viewpoint, be used for operation and comprise these method steps by refrigerating appliance of the present invention by method of the present invention: condensed water is imported the vaporization crossbearer; Condensed water is imported the gasifying disk from the vaporization crossbearer by the first overflow passage; Just condensed water imports the vaporization layer frame from gasifying disk by the second overflow passage.

According to an embodiment, for vaporization and condensation water, with vaporization layer frame and/or gasifying disk and/or the heating of vaporization crossbearer, in order to improve vaporization efficency.

Description of drawings

Other embodiment sets forth with reference to the accompanying drawings.Wherein:

Fig. 1 shows the refrigerating appliance according to first embodiment in the diagram;

Fig. 2 has illustrated the refrigerating appliance with the machine chamber cladding system that takes off in three-dimensional partial view;

Fig. 3 has illustrated the refrigerating appliance with the machine chamber cladding system in three-dimensional partial view;

Fig. 4 shows the vaporization layer frame according to the refrigerating appliance of an embodiment.

The specific embodiment

Fig. 1 shows the refrigerating appliance 1 according to the first embodiment in the diagram.Refrigerating appliance 1 have be used to hold the cooling thing, in the drawings the storage chamber 3 that can cool off shown in the top and be used for hold refrigerating circuit unit be arranged in this embodiment following machine chamber 5, described refrigerating circuit is for cooling off storage chamber 3.5 places are furnished with machine chamber cladding system 7 in machine chamber, are furnished with at least one for the vaporization layer frame 11 of the condensed water that is received in the generation of storage chamber 3 places on this machine chamber cladding system.In this embodiment, on refrigerating appliance 1, also be furnished with for the vaporization crossbearer 21 that receives condensed water.In addition, on compressor 31, be provided with gasifying disk 25 and under compressor, be provided with additional gasifying disk 33.Liquid flooding the first overflow passage 23 can be realized from vaporization crossbearer 21 to gasifying disk 25.Liquid flooding the second overflow passage 27 can be realized from gasifying disk 25 to vaporization layer frame 11.Liquid flooding the 3rd overflow passage 35 can be realized from vaporization layer frame 11 to additional gasifying disk 33.

Condensed water is imported in the vaporization crossbearer 21, and also partially or completely is vaporized by intermediate storage there.The condensed water that stays imports in the gasifying disk 25 that is arranged on the compressor 31 by the first overflow passage 23 in the present embodiment, and partially or completely is vaporized there.If necessary, the described vaporization in gasifying disk 25 can be by addition thereto, support such as condenser heating tube or electric heater unit.The condensed water that stays is directed to the vaporization layer frame 11 of machine chamber cladding system 7 from gasifying disk 25 by the second overflow passage 27, and all or part of being vaporized there.Then the condensed water that stays is imported in the additional gasifying disk 33 that is arranged under the compressor 31 by the 3rd overflow passage 35 in the present embodiment, and partially or completely is vaporized there.If necessary, in some utensil model situations, the described vaporization in the additional gasifying disk 33 can be passed through addition thereto, supports such as condenser heating tube or electric heater unit.According to the difference of required vaporization efficency, the supportive additional heating measure of gasifying disk 25 and additional gasifying disk 33 can be cancelled, and saves thus cost and space.

Fig. 2 has illustrated in three-dimensional partial view and has taken off machine chamber cladding system 7(and do not illustrate in Fig. 2) refrigerating appliance 1.Direction of visual lines is directed to the rear wall 29 of refrigerating appliance 1.On refrigerating appliance 1, in lower area, be provided with the machine chamber 5 be used to the unit that holds refrigerating circuit, described refrigerating circuit is used for not illustrating among storage chamber 3(Fig. 2 of cooling refrigeration utensil 1).The compressor 31 that is used for the refrigerating circuit of cooling storage chamber 3 is arranged in the machine chamber 5.The gasifying disk 25 that is used for the reception condensed water is arranged on the compressor 31 in machine chamber 5.Rear wall 29 at refrigerating appliance 1 is furnished with vaporization crossbearer 21.Vaporization crossbearer 21 laterally extends on rear wall 29.Condensed water can here be received by gasifying disk 25 and vaporization crossbearer 21.Vaporization crossbearer 21 provides following advantage: this vaporization crossbearer based on its on the rear wall 29 of refrigerating appliance 1 layout and ventilate well especially, and then provide high vaporization efficency.

Fig. 3 has illustrated the refrigerating appliance 1 with machine chamber cladding system 7 in three-dimensional partial view.Rear wall 29 at refrigerating appliance 1 is provided with machine chamber cladding system 7, thereby so that machine chamber 5 is capped.Machine chamber cladding system 7 is implemented as the steel grid here.Machine chamber cladding system 7 has a plurality of ventilation orifices 13, and these ventilation orifices improve the ventilation of machine chamber 5.

Fig. 4 shows the vaporization layer frame 11 by the refrigerating appliance 1 of an embodiment.This vaporization layer frame 11 is implemented as plastic injection piece.Vaporization layer frame 11 has in the present embodiment groove 12 and is used for receiving condensed water.These grooves 12 extend along vaporization layer frame 11.In the present embodiment, two grooves are arranged about in the of 12 stackedly.Vaporization layer frame 11 is set as follows, that is, settles machine chamber cladding system 7 thereon.For example be attached thereto the machine chamber cladding system is flat.

Reference numerals list

1. refrigerating appliance

3 storage chambers

5 machine chamber

7 machine chamber cladding systems

11 vaporization layer framves

13 ventilation orifices

21 vaporization crossbearers

23 first overflow passages

25 gasifying disks

27 second overflow passages

29 refrigerating appliance rear walls

31 compressors

33 additional gasifying disks

35 the 3rd overflow passages

Claims (15)

1. refrigerating appliance (1) has: at least one is used for holding the storage chamber (3) that can cool off that cools off thing; Machine chamber (5) for the unit that holds refrigerating circuit, described refrigerating circuit is used for cooling storage chamber (3), it is characterized in that, described machine chamber (5) has machine chamber cladding system (7), is configured with the vaporization layer frame (11) that at least one is used for being received in the condensed water that described storage chamber (3) locates to produce at described machine chamber cladding system.

2. by refrigerating appliance claimed in claim 1 (1), it is characterized in that, be furnished with at least two vaporization layer framves (11) stackedly up and down.

3. by claim 1 or 2 described refrigerating appliances (1), it is characterized in that described vaporization layer frame (11) faces the unlimited ground of described machine chamber (5) and/or deviates from described machine chamber (5) and is arranged on the described machine chamber cladding system (7) unlimitedly.

4. by one of aforementioned claim described refrigerating appliance (1), it is characterized in that described vaporization layer frame (11) designs to such an extent that be channel shaped.

5. by one of aforementioned claim described refrigerating appliance (1), it is characterized in that described machine chamber cladding system (7) can be arranged on the described refrigerating appliance (1) kayser.

6. by one of aforementioned claim described refrigerating appliance (1), it is characterized in that described machine chamber cladding system (7) has at least one ventilation orifice (13), especially ventilation seam.

7. by one of aforementioned claim described refrigerating appliance (1), it is characterized in that described machine chamber cladding system (7) is by plastics, especially polypropylene, polyethylene or Merlon are made.

8. by one of aforementioned claim described refrigerating appliance (1), it is characterized in that, be provided with at least one additional vaporization crossbearer (21), be used for being received in the condensed water that described storage chamber (3) is located to produce.

9. by one of aforementioned claim described refrigerating appliance (1), it is characterized in that, be provided with at least one additional gasifying disk (25), be used for being received in the condensed water that described storage chamber (3) is located to produce.

10. by refrigerating appliance claimed in claim 9 (1), it is characterized in that described gasifying disk (25) is arranged on the compressor (31) of described refrigerating circuit.

11. by claim 9 or 10 described refrigerating appliances (1), it is characterized in that, the first overflow passage (23) is set between described vaporization crossbearer (21) and described gasifying disk (25) is used for the downward guiding of condensed water from described vaporization crossbearer (21) to described gasifying disk (25).

12. by one of claim 9 to 11 described refrigerating appliance (1), it is characterized in that, the second overflow passage (27) is set between described gasifying disk (25) and described vaporization layer frame (11) is used for the downward guiding of condensed water from described gasifying disk (25) to described vaporization layer frame (11).

13. by one of aforementioned claim described refrigerating appliance (1), it is characterized in that described vaporization layer frame (11) and/or described gasifying disk (25) and/or described vaporization crossbearer (21) can heat.

14. be used for operation by the method for one of claim 1 to 13 described refrigerating appliance, have the following step:

(a) condensed water is imported in the vaporization crossbearer (21);

(b) condensed water is imported the gasifying disk (25) from described vaporization crossbearer (21) by the first overflow passage (23);

(c) condensed water is imported the vaporization layer frame (11) from described gasifying disk (25) by the second overflow passage (27).

15. by the described method of claim 14, it is characterized in that, for vaporization and condensation water, with described vaporization layer frame (11) and/or described gasifying disk (25) and/or described vaporization crossbearer (21) heating.

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