DE4242776A1 - Cooling device, in particular multi-temperature cooling device - Google Patents

Description

The invention relates to a cooling device, in particular a multi temperature cooling device with a chiller and one thermally insulated housing, in which one by refrigerant lines interconnected evaporator system arranged net is, the evaporators forming the system individually in compartments which are thermally separated from one another are arranged, whose temperature through the refrigerant supply to each because evaporators control a valve unit leranordnung is influenced, the need for Refrigerant supply via temperature sensors in the compartments the controller arrangement is signaled.

From DE-PS 33 14 056 is a freezer with two over arranged compartments known that thermally from one another used separately and in different applications are cash. In a first variant, both subjects can be used as Freezer compartments are operated while a second variant provides the lower one as the freezer compartment and the higher one to operate as a normal refrigerator compartment. In a third  Variant is proposed, the underlying compartment as Ge insert the freezer compartment and keep the higher compartment still gene.

In addition to two evaporators, high cooling is used to cool the compartments an additional evaporator with less refrigeration stung provided, all by a single compressor Refrigerants are supplied, with the inflow of refrigerant control the individual evaporators via two valve arrangements with the help of three refrigerant circuits det. By one of the valve arrangements, namely the one the inputs of the evaporators arranged in series with the higher cooling capacity, there are two Refrigerant circuits can be formed, with a first valve position, both evaporators are flowed through by refrigerant and in a second valve position only the downstream one Evaporator is charged with refrigerant alone. The second of the valve assemblies is at the exit of the in line circuit of the evaporators with higher cooling capacity switched evaporator arranged and allows the cold inflow of funds to the additional evaporator, which is in the high the freezer compartment is installed in which also the height in the series connection of the evaporators rer cooling capacity is arranged upstream.

Should the freezer be a fridge and freezer combination are placed in the higher compartment Add additional evaporators to the refrigerant circuit blinded and the active, arranged in the lower compartment neten freezer evaporator downstream, while in the Freezer compartment evaporators located above overhead inac tiv is switched.  

In the event that when operating the device as a cooling and Ge freezer combination fresh quantities in the freezer compartment Guts is stored, which is to be frozen out, the Cooling capacity strong in the compartment operated as a normal refrigerator compartment reduced so that when the temperature is normal refrigerator compartment, the freezing process is temporarily interrupted must, causing the freezing performance to drop sharply. You want to To avoid this, the refrigeration system, whose filling quantity of the only operable freezer compartment evaporator is intended, get crowded.

The invention has for its object in a Kühlge advises with several thermally separated compartments different temperature to cool the compartments he required refrigeration circuits so that each subject regardless of another within the for its users defined temperature range is adjustable without that the cooling capacity is reduced in the individual compartments.

The object is achieved according to the invention in that at least three compartments with the evaporators assigned to them and this upstream valve unit for their control ten are provided, the compartment with the greatest cold performance if required with refrigerant alone is open, while each of the other subjects in the Be if necessary, always in series in front of the subject with the highest refrigeration capacity, with refrigerant applied is cash.  

The solution according to the invention is characterized on the one hand by this from that the freezer due to the fact that it is the other Subsequent subjects is always cooled, so that only a small additional own runtime necessary and the Freezing performance is high. On the other hand, each is the refrigerator cher separately adjustable, so that for your application required temperature range within narrow limits independently external influences, such as the Au surrounding the cooling unit outside temperature or the invitation of large quantities of fresh Chilled goods in one of the other compartments are kept. Au In addition, such an arrangement causes the cold most evaporator is connected downstream of the others This collects the entire refrigerant and thus the respective lig active refrigeration circuit made available without delay is.

According to a further preferred embodiment of the counter state of the invention it is provided that the number of Ven til units by the number 1 is less than the number of Evaporator, the valve units being electromagnetic operated 3/2-way valves are formed.

The advantage of such a solution is that still reasonable effort for the valves and their control provide safe control of the individual evaporators fer is guaranteed.

According to a next preferred embodiment of the counter state of the invention it is provided that the valve unit th are arranged in series with each other.  

Such a design is characterized by its low Expense on refrigerant lines.

The temperatures in the differently cooled compartments if after another advantageous embodiment of the subject of the invention it is provided that the valve units independently of one another the one of which the temperatures in the individual subjects evaluating regulators are controlled, the temperatures detected by temperature sensors and signaled to the controller become.

According to a further preferred embodiment of the The object of the invention is provided that except in that Compartment with the highest cooling capacity, each of the other compartments a fan is arranged, the air in this Fä Forcibly in both cooling and defrosting circulates, with the fan airflow through the cold performance of the respective evaporator generated convection current is superimposed.

Such a solution will, in the subjects mentioned, the e.g. B. as a cellar subject or as a 0 ° subject, one almost uniform temperature distribution within the company ches reached.

According to a further preferred embodiment of the counter state of the invention is provided that except in the subject with the greatest cooling capacity, in each of the other compartments Two temperature sensors are provided, one of which is the evaporator surface is arranged while the other the air temperature recorded in the compartment.  

The advantages of such a solution can be seen in the fact that in addition to automatic defrosting, maintenance the temperatures in these two subjects, especially if it is a 0 ° compartment or a cellar compartment, in narrow spaces Tolerance limits possible.

The invention is in the description below on game one shown in simplified form in the drawing 3-temperature cooling unit explained. Show it:

Fig. 1 is a 3-temperature household refrigerator, the thermally separate compartments can be closed at different temperatures with separate doors ver, in a spatial representation from the front and

Fig. 2 in a simplified, schematic representation, the refrigeration system used to maintain the temperature in the compartments of the 3-temperature cooling device, with its symbolically represented elements for the temperature control of the compartments.

Referring to FIG. 1, a household refrigerator 10 is shown, whose heat-insulated housing 11 is provided at its opening with voltage rand on Publ battered and separately openable doors 12 to 14. Through the doors 12 to 14 three in the interior of the housing 11 one above the other and by means of partitions thermally separated compartments 15 to 17 of different temperature can be closed, of which the overhead, lockable with the door 12 as a freezer compartment, the middle compartment 16 , the the door 13 is assigned, serves as a normal cooling compartment, while the below-lying compartment 17 is designed as a cellar compartment and can be closed with the door 14 . The different temperature in the individual compartments 12 to 14 is maintained with a refrigeration system explained in more detail below.

As shown in FIG. 2, the refrigeration system 18 which serves to cool the compartments 15 to 17 and which has an evaporator system connected to one another by refrigerant lines is equipped with a single refrigerant compressor 19 . The refrigerant medium compressor 19 is followed by a condenser 20 on the pressure side, which is arranged, for example, on the rear side facing away from the opening of the housing 11 . At the output of the condenser 20 , a dryer cartridge 21 connects, the output of which is connected to the input of a first valve unit 22 . One of the outputs of the first valve unit 22 is fluidically connected to the input of a second similar valve unit 22 , a series connection between them in the forming. Due to the still free outputs of the series connected to each other, designed as an electromagnetically operated 3/2-way valves valve units 22 , three different refrigeration circuits I, II and III are formed, which can be acted upon by refrigerant, the valve units 22 , the component Be of the refrigerant circuits I, II and III are used as control elements for the refrigerant supply to the respective refrigerant circuit and redirect the refrigerant flow arriving from the condenser 20 via the dryer cartridge 21 into one of the circuits. Each of the outputs of the Ventilein units 22 , which represent the entrance to the refrigerant circuits, each has a spiral-like, designed as a capillary throttle element 23 downstream. These lower the pressure of the refrigerant coming from the condenser 20 to the respective working pressure from the inside, equipped with different cooling capacities, which form the evaporator system forming evaporators 24 to 26 , the evaporator 24 , which is arranged only in the refrigeration circuit I, with the highest cooling capacity equipped and assigned to the freezer compartment 12 . Of the two other evaporators 25 and 26 , both of which have approximately the same cooling capacity, the evaporator 25 serving to maintain the temperature in the normal cooling compartment 16 is arranged together with the freezer evaporator 24 connected downstream in the cooling circuit III, while the evaporator 26 is the the cellar compartment 17 is assigned, together with the Ge freezer evaporator 24 , in series before this lying, arranged in the refrigeration cycle II.

Each of the refrigerant circuits I to III leads via the freezer compartment evaporator 24 , which is closed on the suction side to the compressor 19 via a refrigerant line (not specified) and, if necessary, when refrigeration is required in the freezer compartment 15 , can be acted upon by itself with refrigerant via the refrigerant circuit I. , while both the evaporator 25 in the normal cooling compartment 16 and in the ler compartment 17 , each lying in series in front of the evaporator 24 , can be acted upon via the refrigerant circuits II and III with liquid refrigerant, so that the freezer compartment 15 is always cooled. The cooling requirement in the compartments 15 and 16 is determined via the room air temperature sensor 27 in the form of air sensors and in the freezer compartment 14 via a sensor 28 arranged on the surface of the evaporator 24 . Their signals are fed via signal lines 29 to a controller arrangement 30 and evaluated by the latter. The controller arrangement 30 controls depending on the sensor signals, via electrical connecting lines 31 both the switching on and off of the refrigerant compressor 19 and the valve position of the valve units 22 , depending on which of the refrigerant circuits should be opened with refrigerant. In addition, fans 33 are also controlled via the controller arrangement 30 via electrical lines 32 , one of which is arranged in the normal cooling compartment 16 and the other in the basement compartment 17 and is used there to reduce the temperature stratification both in cooling operation and in defrosting operation, with their arrangement the convection current generated by the cooling capacity of the respective evaporator is supported. For the control of the defrosting operation, which is initiated as needed, temperature sensors, not shown, are provided in the cellar compartment 17 and in the normal cooling compartment 16 on the surfaces of the evaporators 25 and 26 arranged there, which end the defrosting process after reaching a predetermined temperature threshold.

It goes without saying that instead of the two valve arrangements 22 in the form of 3/2-way valves, simple shut-off valves can also be used, such a shut-off valve being arranged in front of the throttle elements 25 , for example, in each of the refrigerant circuits.

Claims (6)

1. Cooling device, in particular multi-temperature cooling device with a refrigeration machine and a heat-insulated housing, in which an evaporator system connected to one another by refrigerant lines is arranged, the evaporator system forming the system being arranged individually in thermally separated compartments, the temperature of which through a the refrigerant supply the respective evaporators can be influenced via a valve unit controlling the controller arrangement, the need for the supply of coolant to the controller arrangement being signaled via temperature sensors in the compartments, characterized in that at least three compartments ( 15 , 16 , 17 ) with the evaporators assigned to them ( 24 , 25 , 26 ) and these upstream to control the valve units ( 22 ) are provided and that the compartment ( 15 ) with the greatest cooling capacity can be acted upon by itself with refrigerant when necessary, while each of the other compartments ( 16 , 17th ) in the If necessary, each connected in series in front of the compartment ( 15 ) with the highest cooling capacity, can be charged with refrigerant. 2. Cooling device according to claim 1, characterized in that the number of valve units ( 22 ) by the number 1 is less than the number of evaporators ( 24 , 25 , 26 ), the valve units ( 22 ) as an electromagnetically operated 3/2 -Way valves are designed. 3. Cooling device according to one of claims 1 or 2, characterized in that the valve units ( 22 ) are arranged in series circuit to one another. 4. Cooling device according to one of claims 1 to 3, characterized in that the valve units ( 22 ) are controlled independently of one another, by a controller ( 30 ) evaluating the temperatures in the individual compartments ( 15 , 16 , 17 ), the Temperatures of temperature sensors ( 27 , 28 ) are detected and signaled to the controller ( 30 ). 5. Cooling device according to claim 1, characterized in that in addition to the compartment ( 15 ) with the greatest cooling capacity, in each of the other compartments ( 16 , 17 ) a fan ( 33 ) is arranged, which the air in these compartments ( 16th , 17 ) as well in cooling as in defrosting, the convection current generated by the cooling capacity of the respective evaporators ( 25 , 26 ) supporting, forcibly circulated. 6. Cooling device according to claim 1, characterized in that in addition to the compartment ( 15 ) with the greatest cooling capacity, in each of the other compartments ( 16 , 17 ) two temperature sensors are provided, one of which is formed as an air sensor ( 27 ) and the other is arranged on the surfaces of the United steamer ( 25 , 26 ).