CN1806155A

CN1806155A - Refrigeration device comprising controlled de-humidification

Info

Publication number: CN1806155A
Application number: CNA2004800163592A
Authority: CN
Inventors: 赫尔穆特·科诺帕
Original assignee: BSH Bosch und Siemens Hausgeraete GmbH
Current assignee: BSH Hausgeraete GmbH
Priority date: 2003-06-11
Filing date: 2004-06-09
Publication date: 2006-07-19
Also published as: US20070137227A1; DE10326329A1; WO2004109205A1; EP1636530A1; EP1636530B1; CN101893363A; DE20321771U1

Abstract

The invention relates to a no-frost refrigeration device comprising at least one storage compartment (1), an evaporator (5), which is alternately activated and deactivated and which is located in a chamber (8) that is separated from the storage compartment (1) and a fan (9) for circulating air between the storage compartment (1) and the chamber (5) of the evaporator (5). Wherein, the average circulation power of the fan (9) during an activation phase of the evaporator can be varied.

Description

Modular refrigerating appliance with controlled dehydrating unit

The present invention relates to a kind of frostless formula modular refrigerating appliance and a kind of method of work that is used for this utensil.

In this modular refrigerating appliance, evaporimeter be arranged on one with the separated chamber of storage lattice that is used for refrigerating thing, and by a kind of like this mode, promptly, by the ventilation blower on the evaporimeter make be cooled be blown in the storage lattice with the air that is dried and from the storage lattice relative warm, the malaria of sucking-off send in the described chamber, realize the heat exchange between described chamber and the storage lattice, cool off the storage lattice by this heat exchange.At this, these storage lattice not only are cooled, and are dehumidified.Moisture content is condensate on the evaporimeter.By this dehumidifying, stop under the climate relationship of sternness, when especially this modular refrigerating appliance was used in the warm environment of high air humidity, condensed water was condensate in the storage surface in the storage lattice and refrigerates on the thing.But if the dehydrating unit of the food of being preserved by this reinforcement is dried, such advantage be not may become shortcoming in the very severe environmental condition.

Therefore exist a kind of frostless formula modular refrigerating appliance and be used for the demand of a kind of method of work of this utensil, it makes the flexible adaptive possibility that becomes of weather conditions of this modular refrigerating appliance and its surrounding environment.

This task solves by a kind of modular refrigerating appliance or a kind of method with the described feature of claim 10 with the described feature of claim 1.

The circulating power of the ventilation blower by changing this modular refrigerating appliance makes the hot-fluid that produces in the storage lattice of modular refrigerating appliance and the given temperature deviation between the evaporimeter also change between the storage lattice of modular refrigerating appliance and evaporimeter simultaneously.Therefore that is: the reduction of circulating power causes heat exchange to reduce and causes the stronger cooling of evaporimeter.The cooling of this enhancing causes through the other air quilt of evaporimeter dry consumingly.Simultaneously, if connect evaporimeter and ventilation blower, the reducing of circulating power causes that the cooling raio of storage lattice carries out more lentamente when high circulating power, and like this, be extended the turn-on time of evaporimeter.Such prolongation has remedied the circulating power that reduces and has caused, and catches more moisture content in the process in the connection stage of evaporimeter when low circulating power during than high circulating power.

The transformable circulating power of evaporimeter can be implemented thus with simple method, and promptly the ventilation blower in the evaporimeter connection stage can temporarily cut out.Preferably, a control circuit that is used to control the work of evaporimeter and ventilation blower is set, this control circuit is established, and reduces its average circulating power so that make this ventilation blower work off and on and compare with continuous work thus when connecting evaporimeter.

A selector switch can be set on this modular refrigerating appliance, this selector switch make the user can regulate desirable be used for the duty factor of intermittently working of ventilation blower and manually make the drying effect of modular refrigerating appliance thus and demand suitable.In a comfortable configuration, this control circuit is connected on the weather sensor of humidity of air of the humidity of at least one environment temperature that is used to gather climate parameter such as modular refrigerating appliance, atmosphere or inner space and is provided with like this, so that according at least one climate parameter control duty factor of being gathered by such sensor.

According to other a configuration, the ventilation blower in the connection stage of this evaporimeter can be adjusted on the rotating speed of different not vanishing, so that make the adaptive demand of average circulating power.At this, a selector switch that allows the user to the rotating speed of the expectation of control circuit this ventilation blower given in advance of ventilation blower also can be set, or this control circuit can be connected at least one weather sensor, so that automatically control the circulating power of ventilation blower according to a desired value given in advance of a climate parameter of being gathered by this sensor and air humidity.

The invention still further relates to a kind of method that is used to make the modular refrigerating appliance work of the above-mentioned type, have following steps:

A) humidity value in the storage lattice of assessment modular refrigerating appliance,

B) select to be used for the circulating power of ventilation blower according to the humidity value assessed;

C) utilize selected circulating power to make ventilation blower work.

A this assessment preferably air humidity of directly carrying out in related storage lattice is measured.Like this, especially possible is to consider the influence of the work of evaporimeter and ventilation blower to the air humidity in the storage lattice when selecting circulating power.In principle, also possible is, selects circulating power according to the temperature of parameter such as the environment that is associated with this air humidity and the air humidity in the air humidity assessment storage lattice and according to the result of this assessment.

Other feature and advantage of the present invention are from below with reference to obtaining the explanation of accompanying drawing to embodiment.

Fig. 1 is according to a schematic diagrammatic sketch of frostless formula modular refrigerating appliance of the present invention.

Fig. 2 is according to the time diagram of a job of the evaporimeter of first configuration of the present invention and ventilation blower; And

Fig. 3 is used for a time diagram that is similar to Fig. 2 of second configuration of the present invention.

Fig. 1 is the schematic diagrammatic sketch of a combination modular refrigerating appliance, has realized the present invention on this modular refrigerating appliance.Two humidity provinces of refrigeration lattice 1 and freezer 2 formation modular refrigerating appliances.A refrigerant closed circuit comprises a compressor 3 and a heat exchanger 6, the refrigerant that this compressor will be compressed in succession pumping by two evaporimeters 4,5 freezer 2 and refrigeration lattice 1, before refrigerant entered this compressor 3 again, the refrigerant that is depressurized in these evaporimeters 4,5 flow through this heat exchanger.Configuration is arranged on by in a heat insulation wall 7 and the refrigeration lattice separated chamber 81 for the evaporimeter 5 of refrigeration lattice 1.This chamber 8 is communicated with by air intlet and air outlet slit with refrigeration lattice 1, wherein, is provided with a ventilation blower 9 that is used for the air between forced circulation chamber 8 and the refrigeration lattice 1 in of these mouthfuls.

A control circuit 10 is connected and is connected with ventilation blower 9 with compressor 3 by some control circuits with a temperature sensor 12 that is arranged in the refrigeration lattice, and this control circuit can or be turned off compressor 3 and ventilation blower 9 according to the temperature connection that is detected by temperature sensor 12, and connects 3 connections of overcompression machine or turn off evaporimeter 4,5.In addition, this control circuit 10 is connected with an air humidity sensor 13 that is arranged in the refrigeration lattice 1.In this control circuit 10, can be provided with one can be by the selector switch 11 of user's operation, and this selector switch makes and can regulate for the desired value of the air humidity in the refrigeration lattice 1.

As flexible program, refrigeration in the lattice 1 air humidity sensor 13 can air humidity sensor and/or a sensor that is used for the environment temperature of modular refrigerating appliance of face replace refrigerating especially by one can infer the air humidity in the refrigeration lattice 1 because its measured value makes.

Fig. 2 shows the working method of control circuit 10 in conjunction with the time graph of a plurality of running parameters of modular refrigerating appliance.Curve 3 ' has illustrated the duty of compressor 3.At moment t ₀, this compressor 3 is closed; In case temperature sensor 12 detects temperature upper limit and is exceeded, then at t ₁Constantly connect this compressor 3, this is connected and continues up at t always ₂In time, is engraved in the lowest temperature of refrigeration in the lattice 1 and is lower than, and from this constantly, the heating again of refrigeration lattice 1 is up at t ₄Carve the new connection stage of beginning compressor 3.

From t ₀To t ₁, the air humidity by sensor 13 surveyed of refrigeration in the lattice 1 is on constant, low level.Along with connecting compressor 3, ventilation blower 9 is also at t ₁Constantly start working, as illustrating by curve 9 '.The curve 5 ' that passes through of evaporimeter 5 illustrates the temperature of stating, from an initial value T ₀Drop to a value T ₁From causing the airborne moisture content of circulation to be condensate on the evaporimeter 5 by ventilation blower 9, so that this air humidity 13 ' is up to the t that closes ventilation blower 9 ₂Descend lentamente constantly.For example because the door of this modular refrigerating appliance is opened and warm, malaria enters from the outside, humidity 13 ' is from t ₃Rising sharp constantly increases.If compressor 3 is at t ₄Constantly be switched on again, control circuit 10 identify strong drying be essential and off and on one according to t ₄The air humidity that is constantly detected and the duty factor selected makes ventilation blower 9 operations.This average circulating power ratio that causes ventilation blower 9 is at time interval t ₁To t ₂During this time little, thus the heat exchange between evaporimeter 5 and the refrigeration lattice 1 slows down slowly.So t ₄To t ₅Turn-on time be longer than t at interval ₁To t ₂The time interval, and the temperature T that during this time interval, is reached of evaporimeter 5 ₂Be lower than T ₁The temperature T that this is low ₂Cause, at the air of evaporimeter 5 by-pass flow warps by dry effectively, and since the on-time that compressor 3 is prolonged reach low air humidity value at last again.

This duty factor---this control circuit 10 makes ventilation blower work with this sky factor during the connection stage of evaporimeter---is a jump function under the simplest situation, and it has value 1 and have value less than 1 not vanishing for high air humidity for low air humidity; Also can adopt a jump function or a continuous function that is used to control with a plurality of duty factor values that reduce with the increase of air humidity.

In one second configuration of the present invention, this control circuit 10 is designed like this, so that regulate the different rotating speed of ventilation blower 9 according to measured air humidity.The working method of this configuration shown in Figure 3.If air humidity is low, then with maximum (top) speed operation, and time graph, evaporator temperature and the air humidity of connection and dwell period are identical with situation at Fig. 2 in the connection stage of evaporimeter 4 for ventilation blower 9.Therefore, the curve of Fig. 3 is at moment t ₄Curve indifference with former Fig. 2.At t ₄Constantly, this control circuit 10 is according to a rotating speed selecting ventilation blower 9 in this constantly measured high air humidity value, and this rotating speed is less than its maximum (top) speed.Duration of work at this compressor and this ventilation blower, air humidity continues to reduce, and correspondingly, the rotating speed of being selected according to measured air humidity by this control circuit 10 of this ventilation blower 9 raises, with the increase along with the circulating power of ventilation blower 9, the temperature of this evaporimeter 5 is also at t ₄To t ₅The time interval most on increase continuously.

At dry situation fast shown in Fig. 2 and Fig. 3, wherein single connection stage t ₄To t ₅Enough be used for making the air humidity of refrigeration lattice to turn back to desired value.Certainly, dry run also can be divided into a plurality of connection stages in succession.

In Fig. 2 and Fig. 3, based on the largest loop power of ventilation blower 9 respectively corresponding to the desired low air humidity value in the refrigeration lattice, thereby by reducing the drying that circulating power reaches enhancing.But what meet purpose fully is, determines the parameter of ventilation blower 9 like this, and average circulating power should be reached so that desirable air humidity is utilized ventilation blower.This allows to surpass this average power and strengthen heat exchange between refrigeration lattice 1 and the evaporimeter 5 by improving circulating power, thus the duration in the connection stage of compressor 3 is shortened and in this connection stage the high relatively temperature owing to evaporimeter 5 weaken its drying effect.Also possible thus is if air humidity drops to below the desirable value, on purpose to improve the air humidity in the refrigeration lattice 1.

Claims

1. frostless formula modular refrigerating appliance, it has at least one storage lattice (1), one and is arranged on and preserves evaporimeter (5) in the chamber (8) that lattice (1) separate, that alternately connect and close and a ventilation blower (9) that is used to make the air circulation between the chamber (8) of preserving lattice (1) and evaporimeter (5), it is characterized in that, in the connection stage of evaporimeter (5), can change the average circulating power of described ventilation blower (9).

2. frostless formula modular refrigerating appliance according to claim 1 is characterized in that, described ventilation blower (9) at evaporimeter (5) but the connection stage in temporary close.

3. frostless formula modular refrigerating appliance according to claim 2, it is characterized in that, a control circuit (10) that is used to control the work of described evaporimeter (5) and described ventilation blower (9) is set, so that make described ventilation blower (9) work when having connected off and at described evaporimeter (5).

4. frostless formula modular refrigerating appliance according to claim 3 is characterized in that, is provided with a selector switch, adjustable saving in the duty factor of the work at intermittence of ventilation blower (9) on described selector switch.

5. frostless formula modular refrigerating appliance according to claim 3 is characterized in that, described control circuit (10) is regulated duty factor with at least one weather sensor (13) coupling connection and according at least one by the climate parameter that described sensor (13) is detected.

6. frostless formula modular refrigerating appliance according to claim 1 is characterized in that described ventilation blower (9) can be adjusted on the rotating speed of different not vanishing in the stage of the connection of evaporimeter (5).

7. frostless formula modular refrigerating appliance according to claim 6, it is characterized in that, a control circuit (10) that is used to control the work of evaporimeter (5) and ventilation blower (9) is set, so that make ventilation blower (9) with a job in the rotating speed of a plurality of selectable not vanishing when having connected at evaporimeter (5).

8. frostless formula modular refrigerating appliance according to claim 7 is characterized in that, is provided with a selector switch, adjustable saving in the rotating speed of the work of ventilation blower on this selector switch.

9. frostless formula modular refrigerating appliance according to claim 7 is characterized in that, described control circuit (10) is regulated rotating speed with at least one weather sensor (13) coupling connection and according to the climate parameter that is detected by described sensor (13).

10. be used to drive method, have step according to one of aforesaid right requirement described modular refrigerating appliance:

A) be evaluated at the humidity value of preserving in the lattice (1);

C) drive ventilation blower with selected circulating power.

11. method according to claim 10 is characterized in that the air humidity of being assessed is high more, then described circulating power is by selectively low more.