DE646025C - Regulation of the temperature of refrigerators or the like operated with refrigerators. - Google Patents

Description

The invention * relates to a method for regulating the temperature of refrigerators operated refrigerators or the like with arbitrarily switched on and off thermostats and with a magnetically controllable energy source of the refrigeration apparatus and is essentially characterized in that the Energy source can be arbitrarily influenced by magnetic action and the one that occurs on it Change in the thermostat is used to cancel the magnetic effect again.

It is used in refrigerators that use thermostat-controlled refrigerators are often required that both defrosting and accelerated Ice freezing can be done with the simplest possible operation. Therefore they are different Devices have been proposed to be set up for ease of use are. It was also possible to temporarily cancel the effect of the thermostat on the refrigeration system, so that the refrigeration can be temporarily switched off for the purpose of defrosting or the ice can continue to freeze even though those that may have occurred in the cupboard or on the cold generator Temperatures are lower than those set on the thermostat. The difficulty with such facilities was previously to achieve an automatic restart of the thermostat effect, when the desired operations, d. H.

defrosting or accelerated ice freezing have ended. Were not special Facilities against it, so it happened that ζ. B. restarting when defrosting the energy source of the refrigerator was often forgotten, even if that Defrosting was completed a long time ago. Because of this, there could be unwanted fluctuations have not yet been completely avoided in the cabinet temperature.

The previously known devices that automatically activate the thermostat after defrosting to be reinstalled, were intricately built and expensive.

The invention now aims to provide a simplified method by which it Among other things, both a 5 "automatic insertion and a return to normal is possible the energy source of the refrigeration unit after defrosting is complete or accelerated To achieve ice freezing. According to the invention, magnetic forces are used for this purpose, which influence the energy source and the change that occurs when the energy source is changed can be canceled again in the thermostat system.

It has already been proposed to use the energy source, for example the gas flame a refrigeration device, to be magnetically secured by a thermocouple, so that when the gas flame is extinguished by train ο. like the one held open by the thermocouple

Gas valve closes automatically, so the magnetic effect comes directly from the heating flame is controlled and acts back on the heating flame, while according to the present Invention a thermostatically controlled temperature, e.g. B. the temperature of the refrigerator or its vaporizer, or both, cooperates with the magnetic action.

The invention is to be described in more detail in connection with ίο the accompanying drawing further distinguishing features will emerge.

In the figure a thermostat device is shown schematically, which for the Control of an electrically operated refrigerator is set up. At 10 becomes a Refrigerator indicated, in which a sensing element 11 of a known type is provided is, which is preferably in thermally conductive connection with the cold generator, d. H. with the Evaporator or its heat sink, is in the cabinet 10. Furthermore, with 12 is a Switching device for the electrical heating of the refrigeration apparatus that cools the cabinet designated. This switching device can, for. B. consist of a mercury-filled toggle switch of a known type, which receives the impulses of the thermostat by means of a lever rod 13. Of the Thermostat is enclosed in a housing 14 in the usual manner. In the housing 14 is a bellows 15 of a type known per se is provided, one end of which is attached to a screw connection 16 is fixed, which is adjustable with respect to the housing 14. The bellows is adjusted by rotating a drum 17, which is preferably provided with partial sections, in such a way that that when you turn the screw 16 and thereby the bellows 15 to the left or is moved to the right without being rotated, since the screw connection 16 with a groove in the Housing 14 is performed. In the chamber formed by the bellows device 15 opens the line 18 coming from the sensor body 11. This chamber as well as the Line 18 and the sensor body 11 are in usually filled with liquid and / or gas. Into the chamber of the bellows device 15 protrudes into a housing 19 which is firmly connected to the free end of the bellows. The housing 19 thus shifts in its longitudinal direction both during the rotation of the Drum 17 together with the screw connection 16, as well as by volume changes the length changes of the bellows caused by the sensor filling compared to the screw connection 16. The displacements are by a piston-like movable element 20 in the housing 19, which over a joint is firmly connected to the lever rod 13, transferred to this. The element 20 stands by two opposing springs 21 (outside), 22 (inside) with the "Wall of the housing 19 in connection. These springs are used, among other things, a damping • the toggling of the switch and a certain backlash in the settings to enable.

The device works in the following way; On the drum 17 is a certain selectable position of the lever rod 13 and thus the switch set. Who / h if the temperature of the sensing element 11 then changes, it shifts because of the factors already discussed Shifts in length of the bellows 15, the lever rod 13 in one or the other other direction, depending on the temperature change of the sensor body increasing or is falling. If z. B. the temperature in the refrigerator 10 over a certain amount increases, the filling of the sensor body expands accordingly, and the length of the Bellows 15 is enlarged. As a result, the housing 19 moves to the right. The switch 12 is now designed such that when the mentioned shift a exceeds certain limit caused by the setting of the drum 17, the switch turns on the power source. This activates the refrigeration system, and refrigeration begins. If then the temperature of the switch or the cold generator dropped to a temperature caused by the position of the drum 17 is, the bellows 15 has been shortened accordingly, d. H. the housing 19 so far to the left moved that the switch 12 by tilting the mercury breaker the current interrupts. It can be seen that when the drum 17 and thus the housing 19 and the piston 20 is in a position in which the switch 12 is very close to the changeover position, in which he turns on the energy source, a very small decrease in the sensor body temperature is sufficient to effect the changeover of the switch. On the other hand, if the drum is in another position, namely rotated in the opposite direction in which the If the switch is far from its switchover position, the sensor temperature must be adjusted accordingly decrease more to cause the switch 12 to turn off the heating source. These two layers of the drum therefore correspond to a higher or lower cabinet temperature. The limits of the two directions of rotation result, apart from any mechanical stop devices, by the highest or lowest occurring under the operating conditions of the system Temperature. If namely the length of the iao bellows 15 at these temperatures is not yet is big enough to put the switch in its

To tilt the switch-on position, or not short enough to close the switch from this position tip, the refrigeration system is permanently switched off or brought to full capacity in practice. It is these two settings of the drum 17 for the subject invention of special interest. This is because they correspond to those often used in practice with defrosting or ice freezing designated information of the control device of the refrigerator (Drum 17). Often they are marked with ο or turned off or with max. Or the like.

In the figure, the housing 19 is now provided according to the invention with two diametrically located iron pins 23, preferably mutually connected by iron, which are arranged in such a way that they are in the position corresponding to the disconnection of the power source when the drum 17 is set, ie on defrosting or 0, just get to the flat surface of an annular element 25. The ring-shaped element 25 consists of magnetic steel and is permanently magnetized to a certain amount. The steel ring, which can also be made up of segments, has its north and south poles at two diametrically located points, designated in the illustration in the usual manner with N and 5, which are opposite the two pegs 23. For the movement of the pin 23 against the magnet 25, groove-like recesses 23 ** are provided in the wall of the housing 14, through which the pins protrude. Such permanent magnets can have a considerable pole strength. It has already been assumed that the drum has been rotated until the power source of the refrigeration apparatus is switched off, ie for defrosting. As a result, the two pins 23 are grasped by the magnets 25 as armatures. It is now possible to choose the magnetic poles so strong that the pins 23 are still held by the magnets 25 when the drum is rotated back into the position that corresponds to the desired cabinet temperature after defrosting is complete. The magnetic forces then cause the bellows 15 to be compressed somewhat in accordance with the reverse rotation of the drum 17, so that its contents are somewhat compressed, which is absorbed by the elasticity of the bellows. In practice, this phenomenon means that in the case of devices according to the invention, the drum 17 can be temporarily set to interrupt the cooling capacity, ie defrosting, and then immediately reset to the degree of cold required in the cabinet after defrosting is complete, without the defrosting process being carried out is interrupted prematurely. Because of the adhesion of the armature 23 to the magnet 25, as mentioned, the switch 12 remains in the current interruption position. Defrosting begins, the temperature of the cold generator in the cabinet 10 gradually rising to zero and remaining at this temperature until the ice on the heat sink has melted. Then the temperature of the cold generator and the sensor body Ii rise above zero. If the device is designed accordingly, this increase in temperature is sufficient to cause an increase in pressure in the filling liquid of the thermostat system which is sufficiently great to break the armature 23 away from the magnet 25. As a result, the switch 12 switches on the heating source again, and the refrigeration apparatus comes into operation, and in fact it then works under the control of the thermostat without being disturbed by the magnet.

According to a further invention, a corresponding process can also be used for setting the drum 17 can be reached in its opposite limit position, which makes it possible to freeze or freeze the system. set the maximum cooling capacity temporarily and then open the drum again reset the cabinet to the intended temperature without freezing it is interrupted prematurely. For this purpose, two additional pins 26 are simply provided, which are in the same place of the housing 19 as the pin 23 can be fixed. The magnet 25 is so then, as can be seen from the figure, between the two from the relevant Anchors 23 and 26 formed by pins are arranged. The device thus made operates in the following manner. If the Drum 17 is set to ice freezing, the bellows 15 moves and thus the Lever rod 13 to the right so that armature 26 rests against magnet 25. These The position corresponds to the maximum cooling capacity of the refrigeration system by adding the Heat source kept engaged by the switch 12 or with appropriate training the toggle switch remains set to its highest level for multiple levels, too when the temperature in the cabinet is down to the lowest that can be achieved with the refrigerator sinks. The armature 26 now remains held by the magnet 25, even if the drum 17 is rotated back again, for. B. to the intended temperature in the cupboard after freezing. In the cold generator of the cabinet 10 now takes place as follows. The water to be frozen comes first cooled to zero, then its temperature remains constant until the water

is frozen. In contrast, the temperatures of the cold generator and of the sensor body 11 decrease continue until an equilibrium is reached where the temperature remains constant, until the water is frozen. Then these temperatures continue to drop, except for one caused by the performance of the refrigerator and the heat setting in the cabinet Amount. With this last-mentioned ίο temperature decrease, the sensor filling pulls itself together, while exerting a force that changes the location of the bellows 15 strives to shorten. If now the device is designed such that this the latter temperature decrease and the resulting contraction of the filling liquid With the armature 26 removed from the magnet 25, the bellows 15 takes the position of adjustment the drum 17 corresponding position, and the refrigerator continues to work under the usual control of the thermostat system.

In order to facilitate the adjustment and calibration of the thermostat system, especially that of the magnet 25, the magnet 25 is adjustable and provided with two diametrically located fastening screws 27, 28 which are intended to fix its set position. Since the poles JV and £ * lie on a diameter of the ring-shaped magnet 25, these also offer an opportunity for fine adjustment of the magnet, since it can be rotated about its axis. As a result, the position of the two poles JV and S is adjusted with respect to the relevant pins 26, 23, whereby the forces acting on them are changed accordingly. To facilitate the adjustment, the anchors 23, 26 can also be arranged to be adjustable, preferably individually.

The invention is not limited to the illustrated embodiment. Both the The thermostat itself as well as the magnet and its control can be used in different ways can be changed without abandoning the inventive concept. So z. B. the magnet as an electromagnet be designed, the thermostat device consist of any bimetal organ that electrical switch 12 be replaced by a gas valve in gas operation, etc., either as a snap valve turns the gas on and off or as a function of the temperatures valve is formed which allows more or less gas to pass through to the burner. With spring-loaded Bellows, where the control forces are large, it is advisable to combine the magnet and the bellows with lever rods, to be able to work with moderate magnetic forces. The essentials always remain nor that the armature 23, 26 temporarily by some impulsive force be led into an area where the field strength of the magnet is large enough to to hold on to it even after the impulse-giving force has ceased. This can be as in the described embodiment consist of manual power, but it can also be done by self-acting devices be generated. So z. B. opening or closing the cabinet door or other, Processes resulting from the operation of the cabinet give these impulses, preferably but depending on an ice layer on the evaporator or the presence of ice in the ice maker. In certain cases the armature can be fixed and the magnet can be movably arranged if, for. B. the thermostat device for such an arrangement is more suitable.

Furthermore, in order to make the magnetic force larger, the armature itself can be magnetized be e.g. B. consist of permanently magnetized steel. The magnet and that too Anchors may also be disposed within housing 14, with any devices must be arranged so that they are accessible for their adjustment. Furthermore, the anchor, in the embodiment shown is supported by the bellows 15, on the lever rod 13 are arranged so that this lever rod is also used to translate the magnetic force. Even if it The setting for defrosting and ice freezing using the setting drum is very convenient for the thermostat to take place, it may be advantageous to use a special push button or a other setting device to be provided for the processes mentioned.

The system can also be used advantageously for heating cabinets or roasting ovens because you often need particularly high temperatures for searing in the kitchen. In this case, the thermostat system is set to the desired frying temperature and by pressing the warm magnet a higher frying temperature is brought about. At the Baking, whereby the kitchen often uses a lower temperature first, is activated after setting no of the thermostat to the later desired temperature only the cold magnet is pressed.

Claims (10)

Patent claims: i. Regulation of the temperature of refrigerators operated with refrigerators or the like with arbitrarily switched on and off thermostats and with magnetically controllable energy source of the refrigeration apparatus, characterized in that iao the energy source arbitrarily Magnetic effect can be influenced and the subsequent change in the thermostat system is used to reduce the To cancel the magnetic effect again. 2. Regulation according to claim i, characterized in that to initiate the Magnetic influencing of the energy source an anchor against elastic forces of a solid, liquid or gaseous Body caused by ice formation ίο on the evaporator or an arbitrary one conditional impulse force is guided into an area of increasing field strength of a preferably permanent magnet. 3. Regulation according to claim 2, characterized in that the field strength of the Magnet is slightly larger than the opposing elastic forces of the thermostat, so that the armature through the magnet remains held for as long as to until the elastic forces of the thermostat become so great, due to the temperature rising during de-icing or falling during ice formation, that they detach the armature from the magnet. 4. Regulation according to claim 1 to 3, characterized in that the armature from permanently magnetized steel, with its poles each with a different name Work together pole of magnet. 5. Regulation according to claim 1 to 4, characterized in that the armature and the magnet are arranged within the housing of the thermostat. 6. Regulation according to claim 1 to 5, characterized in that the magnet outside the housing with this firmly connected and the anchor by groove-like Recesses of the housing is performed. 7. Regulation according to claim 1 to 6, characterized characterized in that the magnet is designed as a ring provided with an air gap is. 8. Regulation according to one of the preceding claims, characterized in that that the magnet can be adjusted relative to the armature, e.g. B. rotatable, is arranged. 9. Regulation according to claim, characterized characterized in that the thermostat system has two preferably individually adjustable armatures for defrosting and ice freezing. 10. Regulation according to one of the preceding claims, characterized in that When the magnetic lock is torn off by the change in shape of the thermostat, the system on the thermostat is arbitrary set temperature continues to work. 1 sheet of drawings