DE1008759B - Method and device for operating cooling systems - Google Patents

Description

Method and device for operating cooling systems The invention refers to a procedure and. a device for operating. Cooling Systems.

The purpose of the present invention is to reduce the thermal. Efficiency. to improve in such systems by periodically defrosting the ice layer becomes, whereby with thick layers of ice and thus unfavorable efficiency the period duration is shortened. At the same time there is less wear and tear on the moving parts. Parts how compressor and engine are achieved, and at the same time operating costs are due Reduced electricity savings.

There are cooling systems known, which also periodically remove the ice defrost. With the known systems. becomes the length of the period. but either independently from. the ice layer constant, for example - set to 5 minutes in 24 hours, or it is z. B. defrosted after a certain number of openings of the door.

These known methods have the disadvantage that the influence of the Humidity is not taken into account at all. The defrosting process should! namely adapted exactly to the thickness of the ice layer that forms on the cooling coils be, d. i.e., at a high. Humidity in the cooling system builds up quickly a thicker layer of ice than when the air humidity is low.

However, the known methods do not allow these different To take operating conditions into account., And thereby cannot improve of thermal. Achieve efficiency as in the present invention.

You can see the differences even more clearly when you look at the process to the effect that the one. Procedure from a pure. Timing run out and after certain time intervals. trigger the defrosting process. A. other known Procedure uses the number of door openings, so one. purely mechanical operation, the perfect. regardless of air humidity or operating humidity or operating conditions the coincidences of the individual. Operation by the user is subject.

Other known methods of defrosting: depending on the thickness of the ice layer perform, also have disadvantages. Thus, in a known method, a Thermosta.t switch related, the evaporator temperature and room temperature as a function should measure. Thermostats have the disadvantage that they are prone to failure and that in addition, the measurement of room and evaporator temperature does not affect the air humidity Is considerate. With one and the same. Temperature, but higher humidity, a thick layer of ice is formed much faster than with the same temperature differences, between room and evaporator temperature, but a lower one. Humidity.

Another method that increases the thickness of the ice by placing a Fan body measures has the disadvantage that it is extremely prone to failure. Because in the refrigerator one finds its way. Attack on metals caused by moisture instead of. Next is a method in which the air resistance is between the. Wants to measure cooling fins, the icing has progressed very far before is defrosted when. so this air resistance has reached noticeable limits.

Another known method in which the ice sheet with a Sensor is scanned has the disadvantage that not always, at, the same place the: thickest layer of ice forms, but depends on the ones in the refrigerator Objects, e.g. B. on a completely different place, if one below. Body that is cooled, is located, which gives off moisture. There is then that. Ice sheet much stronger, so that losses also arise here again.

Other ways to hang the cooling coils resiliently and, if If the ice weight is too great, then, causing one to defrost will have the disadvantage a difficult, constructive solution. Because hanging cooling coils is not always easily possible. Also can be caused by the tremors of the running Motor an unintentional Swings are triggered as well This organism is triggered at all by slamming doors and moving around in the refrigerator can be, and. then in the further, again only a considerable layer of ice is present must be, Another process, which also again with temperature fluctuations The help of thermostats has already been mentioned. Disadvantage.

The object of the invention is to overcome the disadvantages of these known arrangements to avoid and avoiding thermostats, suspended. Cooling coils or distance sensors for the ice layer only with cheap, simple means To start the defrosting process if there is already a slight layer of ice is. This defrosting process is independent of mechanical movements, such as about opening the doors, etc., carried out.

The new process can be seen as an integration of the operating time the refrigeration unit over time, d. i.e., there will be a determination of the Efficiency carried out in the plant. When the efficiency. begins to sink., will. defrosting triggered, d. i.e., it is after the switch-on interval has been set possible to achieve the best possible efficiency.

From the consideration that it is. a thin layer of ice sufficient to impair the heat transfer from the cooling coil to the surrounding air respectively. to belittle. A longer running time of the cooling motor will now start immediately., which then again resulted in increased ice formation. If. man, now defrosts after the cooling motor switch-on times have been summed up, then. can thus be the task according to the present. Invention solve, namely the defrosting process regardless of the time and regardless of operating the door like this perform that one. optimum efficiency is achieved.

The solution to the problem according to the invention is therefore that depending on the summation of the running times, the cooling unit, the defrosting process he follows.

To. this invention; i.e., l is used as a criterion for defrosting, related to the running time of the cooling unit, since once with a long running time of the cooling unit and the resulting heat flow already one. relatively thick layer of ice present, must be, but furthermore independent of. this layer of ice, for example if the door is opened and closed frequently, the defrosting process is also triggered being, again depending on. the humidity in the closet each time the running time the engine will be longer or shorter, depending on how thick the layer of ice is Reason of humidity on the. Cooling coils are formed.

So it is just as possible that the defrosting process takes place when for example, there are only a few but long running times of the cooling unit than otherwise, if there are many short maturities. every time becomes, always dependent from a presetting, the d, -, m temperature swing, d. H. the setting of the thermostat is adapted, after a certain flow of the individual running times of the cooling unit the defrosting process initiated.

A preferred embodiment according to the new method consists in that according to the sum of the running times, an X. cam switch actuating , Switching disk is rotated until the switching process.

According to this feature of the invention, the running time is summed up of the cooling unit, so to speak, by an electric motor and a storage disk instead of. Be on this disk. the individual impulses that depend on the length the running time of the refrigeration unit depend, transferred, and if a certain amount this impulse is reached, which corresponds to a certain rotation of the switching disk, the defrosting process is then initiated, whereby the defrosting process is only one of the following: remains switched on for a specified short time, and then the game of summation of the individual runtimes and the subsequent defrosting process again begin to let ..

One possibility for carrying out the procedure is a device which is designed such that the summation over a. simultaneously from the motor circuit operated integration motor takes place, which in turn a contact system periodically actuated.

According to this feature of the invention, there is an engine, which is used as an engine with secondary transmission characteristic, always at a constant speed accordingly makes a certain number of rotations a certain time and then a contact system, for example, also via a switching disk or memory pad: actuated.

For the further development of this device it is used that as an integration motor the drive motor of the cooling system preferably with an intermediate gear and contact system is used.

After this feature of the invention, the drive motor is used immediately of the cooling unit, since its speed necessarily corresponds to its switch-on times.

It is advantageous for the switching device operated by the integration motor It is also the fact that the integration motor is an electric camshaft system operated in such a way that switching on and off of two contacts connected in parallel he follows.

This feature of the invention fits the contact system performing the circuit the operating conditions that occur with such frequent switching on and off, must exist, namely, that you work with previous contacts, so to speak can to keep the contact wear within low limits.

With regard to the circuit, it is also essential that the Heating coil for defrosting is in series with the drive motor of the cooling system and a bridging contact initiates the AS tauvorga, ag activated by the integration motor and because cooling mo.to; r is shut down.

This feature of the invention prevents two opposite Functions occur simultaneously, namely that during the defrosting process, wherein yes heat is released, the cooling motor is running, which generates cold.

In the drawing, an embodiment according to your is schematically new procedures presented; go from the drawing and the description further features of the invention for this purpose.

In the drawing, 1 denotes the drive motor of the cooling unit; Of course, not only electric motors, as in the exemplary embodiment, but also any other driven ones. Engines are used. As yea after the new Only the speed of the motor is used, regardless of how the Speed is generated. There is only one possible application in the exemplary embodiment shown when using an electric motor.

2. Then shows the thermostat or its contact, which is somewhere in the Fridge attached and preset to a certain constant temperature be set in the refrigerator or in the cooling system can.

3 shows one potential of the circuit and 4 the other, where of course alternating current, direct current or three-phase current can be used.

With 5 the defrost winding is referred to, which in a known manner in is located near the cooling system in order to defrost the ice layer there. With 6 is the integration motor or the switching motor initiating the defrosting process denotes, and 7 then denotes the contact of the integration motor.

The new procedure then proceeds in such a way that the contact at 2 depends switches the motor on or off based on the cooling chamber temperature. The running time of the engine is longer if. for example a. Layer of ice on the cooling coils since the mechanical efficiency is now considerably lower, after the new one Procedure should be improved.

If the motor is now running, a flange-mounted, for example, will be used Gear or directly from the engine a sprocket rotated. This storage disk stands when the engine is at a standstill and is activated while the engine is running, depending on the C '' ratio slowly turned further until this storage disk closes a contact that it can close immediately or preferably from a contact system is closed. When such a contact is closed, then. the contact 7 open. This gives the defrost winding 5 electricity, which it converts into heat and thaws the ice layer while the motor is driven by the relay resistor The defrosting heating winding does not work and therefore runs against each other Functions, namely cooling and heating at the same time, can be avoided.

The defrosting process itself can, for example, be carried out using a metal strip or other devices known per se. a certain. Time switched off again be, with this time in itself independent of the actual operation of the cooling unit is. After this time has elapsed, the contact 7 closes again, and the process repeats itself again.

After the switch position which actuates the contact 7, per se can only be reached while the refrigeration unit is running, d. H. during the thermal contact 2 is closed, after the circuit in Fig. 1 the guarantee is given, that the defrost circuit can actually be closed. It can of course Means for closing this circuit are provided for the rarely occurring Case that the contact occurs during or immediately after the start of the defrosting process 2 opens. So a contact 8 can be connected in parallel, which with the opening of the contact 7 closes and also actuated by a bimetallic strip, then. reopens when? closes.

Figs. 2 and 3 then show the possibility in connection with a cam switching system.

Dal: Fig. 2 shows the switching device partially in section in the axial direction with drive by the motor of the cooling unit or the integration motor, which separately attached and. connected in parallel to the cooling motor its voltage receives.

Fig. 3 shows the plan view in the axial direction of the contact device of Fig. 2.

From Fig.2 it can be seen that the motor 1 is driven by a pinion 9 and an intermediate gear 10 drives the switching disk or storage disk: 11. This storage disk 11 is firmly connected to the axis 12, which is via a cam disk 13 and corresponding switch plungers 14, 15 contacts 16 and 17 actuated, from Fig. 2 it can be seen that these contacts are, for example, in a contact plane 18 can be located, but at the same time also arranged contact levels 19 and 20 below and can be used for western actuation of contacts.

The process is then as described above. Procedure, with the only difference that in the case of the; Contacts. 16 and 17 the switching on and off takes place with two contacts connected in parallel, with one nose 21 acting suddenly and the other nose 22 not suddenly acting on the contacts according to the shape of the two lugs of the cam disk 13, and thus a sudden and a slowly switched contact system connected in parallel and the shape of the cams is chosen so that when the camshaft rotates evenly, a normally open contact 7 first snaps shut, then the parallel normally open contact 711 is slowly closed so that both contacts carry current together. The closing of the second contact takes place without power.

Switching off takes place in reverse. It opens slowly at first the make contact 7, and only then does the break contact 7a snap and: suddenly interrupts the circuit. This ensures that switching on and off, suddenly goes on and the contacts are largely spared. This means, the game when switching on and off, the defrosting is carried out so that the contacts are largely spared.

The areas of application of the present invention are all: Possibilities to designate, in which when cooling the cooling coil of the the efficiency worsening, want to free the layer of ice and the switch-off times: or the defrosting process performs in such a way that, based on a deterioration in the thermal efficiency, responds, d. H. with a long engine running time, for example, due to a thick layer of ice, switching off occurs more often than with a thin layer of ice, for example at low humidity.

Claims (6)

PATENT CLAIMS 1. Method for operating a cooling system, thereby marked that dependent on. the summation of the running times of the cooling unit the defrosting process takes place. 2. The method according to claim 1, characterized in that that according to the sum of the running times a cam switch actuating Switching disk is rotated until the switching process. 3. Device for exercising the Method according to claim 1 and 2, characterized in that the summation over an integration motor operated at the same time by the motor circuit, which in turn periodically actuated a contact system. 4. Device for exercising the Method according to Claims 1 to 3, characterized in that the integration motor the drive motor of the cooling system preferably with an intermediate gear and contact system is used. 5. Device for performing the process according to claims 1 to 4, characterized in that the integration motor is an electrical cam switching system operated in such a way that switching on and off of two connected in parallel Contacts takes place. 6. Apparatus according to claim 1 to 5, characterized in that that the heating coil for defrosting is in series with the drive motor of the cooling system and a bridging contact, from. The integration motor is activated, the defrosting process and the cooling motor is shut down. Publications considered: German Patent Nos. 576 971, 584 521, 656 208, 833 358, 839 804.