DE10101681A1 - Control of refrigerant distribution in refrigerator-freezer unit, employs spring-loaded diverter valve responding indirectly to compressor pressure - Google Patents

Abstract

The device varies the distribution ratio of refrigerant between the two circuits, as a function of compressor speed and the resultant refrigerant pressure differential arising at a flow resistance.

Description

The invention relates to a method for controlling the distribution ratio of the Refrigerant quantity with a fridge-freezer combination speed-controlled compressor.

So far, there are predominantly in fridge-freezer combination devices uncontrolled compressors used. Either there is a compressor which with both cooling circuits according to a defined distribution ratio Refrigerant flows through in parallel. When the two are connected in series Cooling circuits determine, among other things, the conditions in the Expansion spaces of the cooling medium the cooling capacity. Furthermore there is Variants that use a changeover valve. So there is the possibility regulate both cooling circuits separately. A two-compressor solution is that most expensive way to implement separate control of the two cooling circuits. There speed-controlled compressors have a higher efficiency already partially used in freezers and cabinets.

The realization of an independent controllability between the fridge and freezer is currently with a changeover valve or a motor-operated Proportional valve given. Is a speed-controlled compressor in Connection with a fixed distribution ratio of the cooling capacity between the used individual cooling circuits, so there is the disadvantage of not independent controllability. For example, it cannot have a super freeze function (Cold storage) can be implemented. There is a switchover valve the possibility of independent controllability, but it takes advantage of long running time of the compressor per cooling circuit is lost. Since always between the cooling circuits must be switched, the temperature is therefore subject of the fridge and freezer part of a hysteresis. This also occurs among other things ice formation in the freezer compartment. Furthermore, a changeover valve requires - including control - a high financial outlay. The switchover using a motorized proportional valve would be technical  seen the most convenient way to combine a fridge-freezer regulate, but here there is an immense additional effort to book, which is would not be enforceable on the market. In the course of the life of a refrigerator Freezer combination devices are very many of a changeover valve To perform switching cycles. Therefore, this part causes some Failure rate on devices. Furthermore, such a type of valve requires one Wiring and assembly work.

The object of the invention is therefore to specify a method which it enables, from the refrigerant pressure of a speed-controlled compressor a distribution valve a variation of the distribution ratio of the cooling capacity between the refrigerator and freezer.

According to the invention, this object is achieved by the features of the patent claim 1 solved.

With a fixed distribution ratio of the amount of refrigerant that the cooling or Flow through the freezer compartment occurs in the undisturbed, stationary state of the Operation specified temperatures in the two cold rooms. This Temperatures also depend on the ambient temperature of the Fridge-freezer. However, at least one parameter gives way from the ideal state, for example by bringing in warm dishes, so there is a need to use the compressor speed to determine the amount of refrigerant and to vary the distribution ratio thereof in the two cold rooms. This Adjustment of the cooling or Freezer temperature can be caused by the user. So must the regulation ensures that each of the both compartments receives the required cooling capacity. This is guaranteed by that the compressor speed is traversed on a working straight line, which is a Relationship between distribution ratio and cooling capacity indicates. ever the more different the requirements for cooling capacity are, the greater it becomes Deviation of the compressor speed from the standard operating point. Around It is important to keep fluctuations within a technically sensible framework  advantageously to provide the working line with a hysteresis, in which the standard operating point lies within the area which the hysteresis curve spans. The period within which the hysteresis curve is traversed is freely selectable. They should not be too short to be highly efficient to ensure the cooling circuit. On the other hand, too long Control periods an excessive temperature hysteresis in the refrigerator and freezer caused. Furthermore, by cyclically switching off the compressor a further degree of freedom to the process on the work straight won become. This is also advantageous for defrosting the evaporator of the cooling section. By implementing an algorithm in the regulation of the device, which in the first time after commissioning the device a target / actual Comparison between the target characteristic of the distribution valve and the measured Temperatures in the fridge and freezer compartment, this can vary Valves are corrected from the setpoint by an offset factor. hereby are only subject to low requirements in terms of manufacturing accuracy put this valve.

Any physical effect can be used to implement this valve which is suitable to act against the refrigerant pressure and that to change the flow distribution ratio. A simple device with a spring can be used here as well as gravitation, against which this Refrigerant flows. At higher flow rates of the refrigerant for example, the Coriolis force can also be used.

Furthermore, it can also be designed in connection with one Distribution valve uses an electrical or electromechanical control component become. As a result, both the position, the slope and the hysteresis of the Characteristic curve can also be influenced within wide limits. This can even be the case that an electromagnetically operated switching valve mechanically so simple that no complete switching between the two branches is possible. This can affect seals  to be dispensed with and there are only significantly less precise, and thus less expensive, parts necessary.

It is also possible to increase the speed of the compressor speed To use generation of certain states. For example, it can by a very rapid increase in compressor speed in connection with the cooling section is switched off by a mechanically designed distribution valve become. Only when the speed falls below a specified speed "Locking" released again. It is therefore possible to use the cooling or Switch the freezer compartment on and off separately. A distribution valve designed in this way can z. B. contain a magnetic plunger, which with a fast movement, caused by a very rapid increase in compressor speed, one Affected further magnets attached to the outside of the valve, so that this in turn carries out a "locking process" in the freezer compartment drain. Such a distribution valve is advantageously mechanically integrated into the Compressor assembly integrated. Furthermore, it is also possible to use this Integrate distribution device in the compression chamber of the compressor.

Embodiments of the invention are described below with reference to Diagrams and illustrations explained in more detail.

Fig. 1 shows the distribution ratio between the freezer and refrigerator capacity as a function of the compressor speed when controlled by a non-linear characteristic.

FIG. 2 shows an embodiment of a distribution valve according to FIG. 1.

Fig. 3 shows the distribution ratio between the freezer and refrigerator capacity as a function of the compressor speed when controlled by a linear characteristic with hysteresis.

FIG. 4 shows an embodiment of a distribution valve according to FIG. 3.

The first variant of the invention is explained in more detail with reference to FIGS. 1 and 2.

By increasing the speed of the compressor, the dynamic pressure of the Coolant at the rear end of the tappet and pushes it against the Back pressure of the spring continues into the housing. Remains until the working point A1  the distribution ratio of the amount of coolant in the freezer to the refrigerator almost constant since the effective cross-sections of the two drains, from the Viewed from the input side, do not change. Between working points A1 and A2 the plunger pushes in front of the freezer compartment drain and constricts it. The effective cross-section of the outflow from the cooling section remains constant. The distribution ratio of the amount of coolant is thus reduced in favor of the refrigerator compartment. After exceeding the working point A2, the pushes itself Tappet in front of the inlet opening of the overflow channel and thus narrows the effective cross section for the flow of the coolant to the cooling part. Furthermore the cross-section of the drain for the freezer compartment also increases. Consequently the distribution ratio of the amount of coolant increases in favor of Freezing part. Above a specified speed of the compressor (e.g. 90% of the Maximum speed) is the plunger against the resistance of the spring completely against the Drain pressed for the refrigerator. This can then be used as a "super freeze function" will be realized. In this state, the freezer compartment is at full capacity operated to provide cold storage for freezing large quantities Perform food. During this period is between Operating states maximum speed and for example 20% of the Maximum speed to switch to the average for the refrigerator compartment to provide the required cooling capacity. The working point A would be the one given working temperature.

. 3 and 4 show a second variant of the invention of FIG. Increasing the speed of the compressor increases the back pressure of the coolant at the rear end of the tappet and pushes it further into the housing against the back pressure of the spring. Up to working point A3, the distribution ratio of the amount of coolant in the freezer section to the refrigerator section remains constant, since the effective cross sections of the two outlets do not change. After the working point A3 has been exceeded, the spring-loaded flaps expand due to the high coolant pressure and push the plunger in further. This suddenly shifts the distribution ratio of the freezer compartment to the refrigerator compartment towards higher values. The working point A4 has thus been reached. If the compressor speed is then reduced again, one is on the upper straight line, which has a higher value of the quotient from the freezer compartment output to the refrigerator compartment output. If you drop below the operating point A6, the flaps fold back in and the distribution ratio of the freezer compartment to the refrigerator compartment suddenly shifts to smaller values. The operating point A1 is hereby reached. To z. B. to achieve a distribution ratio which corresponds to the working point A, the hysteresis curve is to be traversed at longer time intervals so that this working point is established on average over time. Working points A2 and A5 can be used for this purpose, for example. A super freeze function can also be implemented in this way. The hysteresis can also be implemented by fluidic feedback, by magnets or other devices.

Claims (20)

1. A method for controlling the refrigerant distribution between the refrigerator / freezer parts of a fridge-freezer with a speed-controlled compressor, characterized in that a flow distribution element is used, which is a function of the compressor speed, and thus the refrigerant pressure generated at a flow resistance, a change the distribution ratio of the amount of refrigerant between the refrigeration circuits. 2. Device for performing the method according to claim 1, characterized characterized in that the flow distribution element has a plunger which depending on the generated by the speed-controlled compressor Refrigerant pressure is pressed against the force of a spring and spatially is displaceable, so that this changes the distribution of the discharge quantity of the refrigerant to the cooling compartments. 3. Device for performing the method according to claim 1, characterized characterized in that to change the distribution ratio of the amount of refrigerant the refrigerant pressure in the flow distribution element at least partially against the Gravity of the ram acts. 4. The method according to claim 1, characterized in that the speed of the Compressor moves on a hysteresis curve. 5. A device for performing the method according to claim 1, characterized characterized in that the plunger of the flow distribution element at least is partially elastically deformable. 6. Device for performing the method according to claim 1, characterized characterized in that the housing of the flow distribution element, or parts of which are elastically deformable. 7. Device for performing the method according to claim 1, characterized characterized in that the compression space or other parts of the  speed-controlled compressor, the flow distribution element or parts thereof include. 8. Device for performing the method according to claim 1, characterized characterized in that the flow distribution element with only one inflow and a drain is formed, and only as a variable flow resistance for the The fridge or freezer compartment works. 9. Device for performing the method according to claim 1, characterized characterized in that the flow distribution element for controlling additional Cooling compartments has at least 3 drains. 10. The method according to claim 1, characterized in that the Rise speed of the speed of the compressor is used to get a Change in the characteristics of the flow distribution element or Cause refrigeration cycle. 11. Device for performing the method according to claim 1, characterized characterized in that the plunger and / or other parts of the Flow distribution element is influenced by means of a magnetic coil. 12. The method according to claim 1, characterized in that from a Comparison of the target / actual temperatures in the cooling compartments Deviation factor is calculated, which acts on the control. 13. The method according to claim 1, characterized in that by the one / Switch-off ratio of the compressor a shift in the working point is produced. 14. Device for performing the method according to claim 1, characterized characterized in that the flow distribution element has several plungers. 15. A device for performing the method according to claim 1, characterized characterized in that the plunger of the flow distribution element made of magnetic and / or magnetizable material. 16. Device for performing the method according to claim 1, characterized characterized in that the plunger of the flow distribution element from several Individual parts.   17. The method according to claim 1, characterized in that the predominant Change in the distribution ratio of the refrigerant quantity by one movement the plunger is caused by an electromagnet, and the speed of the compressor only slightly on the change in the distribution ratio of the Amount of refrigerant acts. 18. Device for performing the method according to claim 1, characterized characterized in that the plunger generates a fluidic hysteresis. 19. The method according to claim 1, characterized in that for support the control the defrost heating of the freezer compartment and / or Lighting device of the refrigerator compartment is switched on. 20. Device for performing the method according to claim 1, characterized characterized in that the flow distribution element in each case from the entrance to the Outputs has a flow bypass, so that only a part the amount of refrigerant through the controllable part of the flow distribution element flows.