DE3837629A1 - Method for monitoring electrical cooling appliances, especially refrigerators or freezers - Google Patents

Abstract

The invention relates to a method for monitoring electrical cooling appliances, especially refrigerators or freezers, for their functional capability, by means of measuring and evaluating the progress with time of the power consumption of the cooling appliance, in which method characteristic values are determined, which are compared with stored limit values and used to establish whether one of the characteristic values exceeds or falls below a limit value. <IMAGE>

Description

The invention is based on a method for transferring guarding of electrical refrigerators, with those in the preamble of claim 1 specified features.

From DE-GM 72 38 719 is a device for show the power failure and / or the overrun a certain temperature setpoint in cooling deep freezers, refrigerators and the like. This always reacts when there is a power failure and thus an interruption in the energy supply for the cooling aggregate occurs, which usually results in a cooling excess temperature leads. The total duration a temperature exceeded within a be certain period is through this device readable registered. A disadvantage of the known The device is that only the interruption of the Energy supply, the power failure, is registered. Another disadvantage is that there is a distinction between normal operation and faulty Operation of the cooling unit can not take place.

The invention has for its object a simple and reliable method for monitoring electrical To develop refrigerated cabinets, which the above mentioned parts eliminated and which an error function of the refrigerator.  

This problem is solved by a method for Monitoring electrical refrigeration cabinets with the in the claim 1 specified characteristics. Advantageous training Applications are the subject of the subclaims.

In contrast to the prior art, it is limited the new procedure does not affect the summary display the interruption of individual energy supplies. Instead, a continuous measurement is the Characteristics of the refrigerated cabinet provided. To Er averaging the parameters is an intervention in the Refrigerators are not required. With the parameters it can be the duration and strength of the current draw act, as well as their frequency. This will achieved in an advantageous manner that a Ver equal to the determined parameters with saved Data can take place easily and quickly. Another The advantage of the method is that a cooling furniture with a working according to the procedure Device can be retrofitted quickly and easily can. An integration of those designed as circuit boards Device in new devices is also possible.

The development according to claim 2 has the advantage that by determining the time intervals between two current consumption can be determined whether one The refrigerator is defective. Switches the device at short intervals, so it can be concluded be that z. B. the refrigerator door is not working properly is closed or there is a defect in the compressor. Is the interval between two power consumption above a predetermined limit, it can be ge  be concluded that a defect in the thermostat, in the com pressor lack of refrigerant or the Ver steamer has too thick a layer of ice.

The development according to claim 3 has the advantage that by means of a simple time measurement of the duration of the Current consumption and a comparison with given Limits can be determined whether the cooling furniture is impaired in its functionality. From exceeding and falling short of a predefined one Limit value can be concluded which disturbance case in the refrigerator. This has the advantage that a quick check of the cooling components furniture and can not spoil the refrigerated goods.

The frequency of power consumption, i.e. the number of Power consumption in a time interval gives the off comes over whether z. B. the compressor for a short time is working. It becomes a predetermined limit exceeded or fallen short of, this indicates a Defect, claim 4.

The development according to claim 5 has the advantage that in addition to the duration of the current consumption also the current strength is determined. From the evaluation of both sizes can be functional in a simple manner ability of the components of the refrigerator is determined will.

The development according to claim 6 has the advantage that an Er for the most varied types of refrigerators  averaging of limit values is not necessary. This ensures a type independence, which results in universal use.

The further development according to claim 7 has the advantage that the functionality of the individual components due to aging. The stored data are stored in a specified inter vall renewed. This has the advantage that, for. B. a Alarm is not triggered unnecessarily frequently, e.g. B. the heat emission at the condenser through a layer of dust deteriorates and the compensator thereby is in operation for longer. Another advantage is that the predetermined limits, the lower and the Upper ones are entered and changed for the specific system Their location due to the temperature influences of the year times or when changing location.

An advantage of the method is that no intervention in the refrigerator is necessary. A device that working according to the procedure can act as an intermediate be trained. The device of claim 8 has this feature. Another advantage of Device is that this quickly and easily out can be exchanged. It also shows that this device can be used as a quasi test device can.

It is for operating the circuit of the signal transmitter advantageous according to claim 9 to ver an accumulator turn. This can be a recharge act accumulator.  

The device is advantageously by the Mains voltage fed. This ensures that the accumulator has an almost unlimited lifespan has, since this only in the power in the event of a power failure circuit of the refrigerator is switched.

The alarm transmitter is advantageously an optical one and an acoustic signal generator. This will ensures that you ignore or overlook of the alarm can almost be excluded.

Further features and advantages result from the following description of a preferred Embodiment.

Fig. 1 shows the device in an oblique view from above, and

Fig. 2 shows the circuit of the device.

Fig. 1 shows the device for monitoring electrical refrigeration cabinets. An electrical plug 2 and a socket 3 are provided on the housing 1 of the intermediate plug. The electrical connector 2 is advantageously arranged on the rear wall of the housing 1 . The socket 3 is located on the front of the adapter plug. Above the socket 3 there is an acoustic and an optical signal generator 4 b , 4 a . This arrangement has the advantage that the connecting line that leads from the socket to the refrigerator does not cover the signal transmitter. The electrical plug 2 is plugged into a socket at which the mains voltage is present. The plug 2 and the socket 3 are electrically connected to each other. In the connecting line is the circuit 5. With the socket 3 , which has a plug via an electrical line, the electrical connection to the cooling unit is created.

The circuit 5 of the device for monitoring electrical refrigeration units is described below. The circuit 5 is located on a circuit board which is arranged in the housing 1 of the device. Via the current-carrying line 17 , the signals are fed through the analog input 9 to an integrated analog-digital converter 10 . The digitized signals are fed to a comparator 11 . The comparator 11 compares the signals with the limit values stored in an integrated memory 12 . This comparison is about whether a limit is exceeded or not. Comparator 11 is in a malfunction has been found, so the Ver same 11 outputs via an output stage 15 the signal generator 4, a signal that triggers a visual and audible alarm. The optical signal transmitter 4 a is a diode or a lamp. To ensure that the optical alarm is heard, the diode or the lamp can light up at a certain clock frequency. The acoustic signal generator 4 b is a loudspeaker that emits a sound at a certain frequency, or literally transmits the cause of the fault in the desired language.

The line 17 is connected to a counter 13 . The counter 13 determines the duration of the current consumption. An oscillator 16 is provided as the clock generator. The counter 13 is connected to a comparator 14 . The output signals of counter 13 are compared in comparison 14 with the stored limit values in memory 12 . If a predetermined limit value is exceeded or undershot, an output stage 15 will transmit a signal to the signal generator 4 .

The power supply to the circuit is ensured by the electrical network. If there is a power failure, the energy supply is taken over by an accumulator 6 . An electronic switch 7 only switches the accumulator on when there is a power failure.

The accumulator can be simple gal act vanic elements or those that are rechargeable. Because the accumulator is only switched on in the event of a power failure it has practically an unlimited lifespan.

Claims (12)

1. Method for monitoring electrical refrigeration furniture, in particular refrigerators or freezers, for functionality, by means of measurement and evaluation of the time course of the power consumption of the refrigerated cabinet, characterized in that parameters are determined, these are compared with stored limit values and it is determined whether one of the Parameters exceed or fall below a limit. 2. The method according to claim 1, characterized in that the parameter the Time difference between two power consumption of the cooling is furniture.   3. The method according to claim 1, characterized in that the parameter is the duration of power consumption. 4. The method according to claim 1, characterized in that the parameter is the frequency of power consumption. 5. The method according to claim 1, characterized in that the parameters the duration of the current consumption and the current strength. 6. The method according to claim 1, characterized in that the limit values from the parameters of itself in normal operation refrigerators are located and saved. 7. The method according to claim 6, characterized in that the stored Limit values renewed at fixed intervals will. 8. Device for monitoring electrical refrigeration furniture, in particular. Refrigerators or freezers, characterized by an adapter plug, consisting of a housing ( 1 ), a plug provided on the housing ( 2 ), a socket provided on the housing ( 3 ), an electrical provided in the housing Circuit for measuring and evaluating the time course of the power consumption of the refrigerator, and with a signal generator provided in the housing or on the housing ( 4 ). 9. The device according to claim 9, characterized in that an accumulator ( 6 ) is provided in the housing ( 1 ) for operating the circuit ( 5 ) and the signal generator ( 4 ). 10. The device according to claim 9, characterized in that an electronically controlled changeover switch ( 7 ) is provided which connects the accumulator ( 6 ) only in the event of a power failure in the circuit of the refrigerator. 11. The device according to claim 8, characterized in that an optical and an acoustic signal transmitter ( 4 a , 4 b ) are provided. 12. The apparatus according to claim 8, characterized by

• - A microprocessor ( 8 ) with an analog input ( 9 ), with an integrated analog-digital converter ( 10 ) for the analog input signal, with an integrated comparator ( 11 ), which the digital output signals of the analog-digital converter ( 10 ) are supplied and compared with the limit values stored in an integrated memory ( 12 ), with an integrated counter ( 13 ), with an integrated comparator ( 14 ) to which the output signals of the counter ( 13 ) are supplied and which with the in the integrated memory ( 12 ) compares stored limit values, with an output stage ( 15 ) to which the output signal of the comparator ( 11 , 14 ) is fed and whose output signal controls the signal generator ( 4 ).