DE3037135A1 - MICROCOMPUTER-BASED ERROR DETECTION AND DISPLAY CONTROL SYSTEM - Google Patents

Description

Error detection and error detection based on a microcomputer

Display control system

The invention relates generally to refrigeration machines, more specifically to one based on a microcomputer Fault detection and display control system that is used in the event of a Air conditioning or a chiller for continuous monitoring and display of error codes application can find if certain malfunctions occur in the device or machine. The invention is special applicable to reversible heat pumps used for cooling and heating residential buildings, small office buildings »Mqbilheimen find use among others.

In U.S. Patent 4,034,570 there is a control system for central Air conditioning systems described, which monitors the operation of the air conditioning system and provides the user with a display for various System disruptions available when they occur. More precisely, the tax system prevents the operation of the compressor in the event of a low voltage and / or high current flow condition. That Control system comprises a first sensor located near the compressor housing on the suction line, to detect a low temperature condition and turn off the compressor before freezing. Further serves one attached to the condenser return bend

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second sensor to the operation of the chiller when it occurs to prevent high outlet pressures.

So far, malfunctions have usually occurred in such refrigeration machines during various operating times, who have made it necessary to shut down the machine for various reasons. Only some of these malfunctions require the assistance of a service man made, which had to come to the installation site of the machine, while many other malfunctions from Users themselves could have been fixed. However, since the special malfunctions or problems that cause shutdown required were not known to the user, as there is no facility available to him with which the source of the fault could be identified, the user of the machine always had to have a service man draw in. If the malfunction could actually only be resolved by the service man, he had to knock make a very time-consuming effort to locate the fault before proceeding with its repair could begin.

It would therefore be desirable to have a novel and improved control system for an air conditioner or refrigerator Provide that fault codes can be continuously monitored and displayed when in the device certain disorders occur. The error codes

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however, should only be indicated if the malfunction is such that a serviceman is required. in the In other cases, the user should use the device himself without be able to bring a service man back into operation. After viewing the error codes, it would be desirable, further attempts by the user to prevent the device from starting up by locking out the compressor. It would also be useful to have a To provide a fault detection and display control system that has a microprocessor that is responsive to various Sensing devices responds to determine and identify the specific type of fault. If there is an error is, a communication network can be provided or made usable so that the microprocessor a Automatically call the service man and forward the special code that identifies this error to to facilitate the repair of the device by the serviceman.

It is therefore an object of the present invention to provide a novel and improved microcomputer based one To create a fault detection and display control system that is used in air conditioning systems or chillers Continuous monitoring and display of error codes can be used if certain in the device Malfunctions occur.

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Another object of the present invention is to provide a a microcomputer based error detection and To provide the display control system to the facilities for visual display of the various error codes.

Another object of the invention is to provide an error detection and display control system that does one Microprocessor for controlling a display device has to address the various error codes display a variety of sensing devices.

Another object of the invention is to provide a fault detection and to provide a display control system having a first microprocessor which responsive to sensing means to transmit error signals to a second microprocessor, the one Controls the display device used to display the various faults «

Finally, it is an object of the invention to provide a fault detection- and to provide a display control system which includes a microprocessor for generating error signals; as well as a communication network connected to the microprocessor, so that a service man can be called automatically if a malfunction occurs, whereby the microprocessor also transmits the special error code

130016/0884.

_v ORIGINAL INSPECTED

These objects are achieved according to the invention by a refrigerating machine for conditioning a room, which comprises a closed refrigerant circuit which has a Koinpre - ^ '- crj, a first heat exchanger, an expansion device and a second heat exchanger which are connected in series. The refrigerator comprises a Fehlererfassyngs- and display control system consisting _s error detection control devices and logic devices and display devices of Fühlereinrchtungen "The sensor means include temperature sensitive means for feiessen the temperature of the air entering into the indoor unit, the temperature of the coil of the second heat exchanger, the temperature of the Air leaving the indoor unit, the outside temperature of the atmosphere, the temperature of the oil in the cube housing of the compressor, the high outlet temperature from the compressor and the temperature of the coil of the first heat exchanger. The sensing devices further include pressure actuated switches associated with high discharge pressure from the compressor, a clogged or dirty filter in the second heat exchanger and defroster operation, a motor protection contactor to interrupt operation of the compressor in the event of high currents and a pair of relay contacts to determine whether the fault is due to the high outlet pressure or the opening of the motor protection contactor. The error erfassungssteuer- and logical devices associated with the sensor means and to speak on

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this to the display device to display the various Control error codes.

A telephone network can be connected to the microprocessor in the logic devices in order to be able to automatically call a service man in the event of certain faults. The microprocessor transmits the special error codes via the communication network directly to the place where the service man is called »

The invention will now be explained in detail using an exemplary embodiment in conjunction with the drawing. Show it:

Figure 1 is a block diagram of an inventively designed, microprocessor-equipped refrigeration machine;

Figure 2 is a plan view of the wall unit of the fault detection and display according to the invention. Tax system; and

FIG. 3 is a flow chart showing an exemplary checking process in the case of the invention designed chiller to display the various error codes reproduces.

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In Figure 1, a conditioned room 10 is shown, which is one or more rooms of a residential building can act, which is provided with a designated by the reference numeral 12 refrigerating machine. The chiller 12 preferably consists of a conventionally designed reversible heat pump, a compressor 14, a first heat exchanger 16, which is normally arranged outside and away from the conditioned space 10, an expansion valve 1Θ, such as a capillary · » tube, and a second heat exchanger 20 which is in fluid communication with the space 10, which are connected in series to form a closed refrigerant circuit. As you can see, they are Compressor 14 and the first heat exchanger 16 housed in an outdoor unit 17, while the expansion- device 18 and the second heat exchanger 20 are located within an indoor unit 19. During the cooling cycle or operation, the first heat exchanger 16 functions as a condenser and the second heat exchanger 20 as an evaporator. The refrigeration machine also includes a four-way switch valve 22 to control the direction of the refrigerant. to switch the flow in the first and second heat exchanger, so that the first heat exchanger functions as an evaporator and the second heat exchanger as a condenser. When the system operates in this reverse fashion, it is referred to as a heating cycle or operation. The valve 22 can in conventionally controlled, which is not shown.

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An indoor fan 24 is disposed within the indoor unit in the vicinity of the second heat exchanger 20 for circulating air therethrough into the conditioned space. An outdoor fan 26 is inside the outdoor unit 1? arranged in the vicinity of the first heat exchanger 16 and circulates air through this and into the atmosphere. The lines required to supply the conditioned air to the space 10 to be cooled or heated and to remove the heated or cooled air from the atmosphere are not shown. The compressor is driven by a variable speed electric motor 28, the speed of which is controlled by a motor speed control device such as a compressor inverter 30. The inverter 30 may be formed in any conventional manner and is required in order to provide an alternating voltage with varying amplitude and frequency to grouting. The change in speed of the motor, and thus that of the compressor speed, is directly proportional to the frequency changes within the standard operating speeds. Similarly, the indoor fan 24 is driven by a variable speed electric motor 29 which is controlled by a second motor speed control device such as the indoor fan inverter 31 ,

The refrigeration machine is provided with a wall unit 32 which is conditioned in a suitable location within the

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Room 10 is arranged. As can be seen from Figure 2, the wall unit 32 comprises a plurality of manually operable Switches 34 to set desired conditions in the to be able to set the conditioning room, i.e. the desired room temperature. Some of the other switches can be used to switch the machine on and off and to choose between heating or cooling mode. the Wall unit 32 further comprises a visual and / or acoustic display device 36, which is used to Display or warn the user of a malfunction in the device, and a first microprocessor 38 for controlling the function of the display device 36. The display device 36 consists of a plurality of Indicator lights, an acoustic alarm unit 37 and an alphanumeric display unit 39.

Normally, the actual measured temperature of the conditioned space 10 is shown on the display unit as illuminated digital display. However, this display can optionally be changed by adding appropriate Switch 34 may be depressed to provide other information to the device, such as the previously set reference temperatures of the conditioned room at certain times of the day.

The refrigeration machine further comprises sensor devices 40 which are used to generate electrical signals which

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identify certain conditions within the device. AD converters 42 are connected to the outputs of these sensing devices 40 in order to generate digital signals which are passed to an error detection control and logic device 44. The device 44 consists of a microprocessor 46, which has a program 48 for continuous monitoring and control of the overall operation of the refrigeration machine, which enables reading of the input signals from the sensor devices 40, so that the microprocessor 38 in the wall unit 32 through connected conductors for suitable output error signals Activation of the display device 36 are made available. The second microprocessor 46 controls the operation of the system by varying the speeds of the indoor fan 24 and the compressor 28 with the aid of DA converters 4? and the corresponding fan inverter 31 and compressor inverter 30.

Although microprocessors 38 and 46 have been shown, know the present invention can also be practiced with various types of solid-state electronic components, such as For example, separate chips having logic circuits that are connected to one another to perform the desired function are. The microprocessors 38 and 46 shown in Figure 1 can be any for general purpose programmable digital computers currently available.

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As can be seen from Figure 2, the display device comprises 36 a plurality of indicator lights 50-60, each to indicate a different malfunction in the device to be enlightened. Each luminaire is assigned a special malfunction or an error code. Below a table is listed to show the respective code number and the associated error.

Code error

1 High outlet temperature

2 High outlet pressure

3 More than one defrost in five minutes

4 emergency heating

5 Compressor or inverter fault

6 Loss of outside air flow (when heating)

7 Loss of indoor air flow

8 Changeover valve fault

9 Dirty internal filter 10 Partial loss of charge

As can be seen from Figure 1, the error detection control and logical device 44 various input information from different parts of the device 12 via the sensor devices 40 and forms error code signals for controlling the function of the lights 50-60 and the acoustic alarm unit 37 with the aid of the microprocessor 38. The sensor devices 40 include a variety of measuring devices consisting of temperature responsive devices such as Thermistors 51-70, pressure switches 71, 71a, 72, one

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Motor protection contactor coil 73 and a pair of relay contacts 74, 75. The thermistor 61 generates an electrical analog signal, that to the currently available actually measured temperature in the conditioning room 10 in which the temperature is to be controlled is proportional and identifies this. The thermistor 61 can be connected to any convenient place within the conditioned space. The thermistor 62 is inside the indoor unit 19 located near the incoming line and generates an electrical analog signal that corresponds to the Temperature of the air entering the indoor unit and identifies it. The thermistor 63 is located at the return bend of the coil of the second heat exchanger 20 to increase its temperature feel. This thermistor 63 generates an electrical analog signal related to the temperature of the coil of the second Heat exchanger is proportional and this marks »The thermistor 64 is inside the indoor unit 19 in the Placed near the outgoing duct to sense the temperature of the air leaving the indoor unit. Also this one Thermistor 64 generates an electrical analog signal> which is proportional to and characterizes the temperature of the air leaving the indoor unit 19.

As for the outdoor unit 17, the thermistor 65 generates an electrical analog signal corresponding to the present existing actually measured atmospheric external

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temperature is proportional and characterizes it. The thermistor 66 is near the crankcase of the compressor 14 arranged to sense the temperature of the oil therein. The thermistor 67 is on arranged outlet line of the compressor 14 and senses the high outlet temperature of the same. Finally, there is the thermistor 68 arranged on the return bend of the first heat exchanger 16 and also senses its coil temperature, which is referred to as the liquid line temperature TOD, when the device is operating in cooling mode.

The pressure actuated switch 71 is in series with the high- The outlet line of the compressor 14 is switched and opens when high pressure occurs. The second push-button Switch 71a is assigned to the second heat exchanger 20 and closes when the internal filter is dirty or is clogged. The third pressure operated switch 72 is associated with the first heat exchanger 16 to indicate that the device operates in defrost mode. The motor protection contactor coil 73 is connected via the motor 28 and interrupts the operation of the compressor in the event of a high starting current that can damage the motor. Of the Relay contact 74 and relay contact 75 are used to supply input signals to the microprocessor 46, so that the latter can determine whether a fault was caused by opening the motor protection · contactor or by a high discharge pressure in the compressor has been caused. If the relay contact 74 alone

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is opened if both relay contacts 74 and 75 opened, the error is due to an opening of the motor protection contactor traced back. However, if the relay contact 74 remains closed and only the relay contact 75 is opened, the fault is due to high outlet pressure.

To better understand the operation of the microcomputer based error detection and display control system An exemplary testing and / or monitoring process will now be described. It goes without saying that the individual steps through which the goals related to error detection through the use of the microprocessors 3Θ, 46 can be achieved, of considerable diversity could be. Consequently, the following example is only one of a possible sequence of suitable ones Steps. To facilitate understanding, reference is now made to Figure 3 of the drawing, in which a logical Flowchart is shown, the table given above describing the individual error codes. At the beginning, before the compressor is switched on, the difference between the oil temperature Toil in the crankcase, which is sensed by the thermistor 66, and the outside temperature Tamb, which is sensed by the thermistor 65, compared with the outside temperature Tamb in order to check whether this is greater than a predetermined value, Qadureh w ^ rd ensures that the refrigerant is outside the oil and that the oil temperature Toil is high enough,

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to avoid possible damage to the compressor. If so, the compressor 14 can be switched on,

If the compressor 14 is running, the operating conditions are checked by using the first decision block element 110 of the flow chart in FIG. 3 is started. In the element 110, the temperature Tdis of the high outlet becomes of the compressor, which is sensed by the thermistor 67, compared with a reference temperature which is in the microprocessor 46 is stored. Typically the reference temperature is set to 266 ° F (130 ° C). When the outlet temperature Tdis is greater than 266 ° F (130 ° C), an error signal is generated, denotes error code # 1 generated by the microprocessor 46. When the outlet temperature Tdis is equal to or less than 266 F (130 C), the next item to be checked is proceeded to, which is in the Decision block 112 is shown. In block 112, the microprocessor 46 senses whether the high pressure switch 71 is open or is closed. If it is open, meaning a pressure greater than 385 psig, it will give an error signal

submitted
from microprocessor 46 which identifies error code # 2.

If the outlet pressure is equal to or less than 385 psi, the check proceeds to element 114. In decision block element 114, the pressure actuated Switch 71a from the microprocessor checks whether it is in the open or closed position. When the inner filter switch 71a is closed, shows

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this indicates a dirty filter. Through this error code— No. 9 the compressor is not shut down and can be set again as soon as the filter has been replaced is.

To ensure that the system can operate normally conditions approach, all further checks are carried out only after a certain period of time, such as four minutes, performed. This is made possible by the Decision block element 116 reached. If the compressor has been running after less than four minutes, there will be no more Checks carried out. After element 116, the system is checked to see if it is in defrost mode and that less than five minutes have passed since the last defrost period. If within the has been defrosted in the last five minutes or that System is in defrosting mode, no further checks are made, which is done by the block element 110 is controlled. When the system is not in defrost mode is, the check proceeds to block element 120.

In block 120, the system is then checked whether the Switching valve 22 has failed. This will be in cooling mode achieved by the temperature T.. the inside queue or of the second heat exchanger, which is controlled by the thermistor 63 is sensed, with the temperature T of the inside

it

unit 19 penetrating air is compared. If the The temperature of the inner snake T. is greater than the temperature the penetrating air T, an error signal is generated,

ea

represents error code no. 8, generated to indicate a malfunction of the switching valve. In heating mode we sin Error displayed when the temperature of the inner coil is T. is lower than the temperature T in the indoor unit

ea

19 penetrating air. If the condition of the element 120 is not satisfied, a transition is made to decision block element 122. When the system is in heating mode is the difference between the outside temperature Tamb, which is sensed by the thermistor 65, and the temperature T in the liquid line sensed by the thermistor 68 is checked to be determine if it is greater than 30 ° F. If this is the case, an error signal is generated that the Error code No. 6, indicating that there is a leakage of outside air flow during the heating cycle. In the element 124, the temperature T of the air leaving the indoor unit, which is measured by the thermistor 64 is sensed with the temperature T of in the indoor unit

ea

ingress of air, taking into account whether the system is in heating or cooling mode. If the difference is not more than 2 F, it shows that there are problems. Then the review goes to element 126. If no problem is indicated, no further error checks are made.

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-kl

3037-35

—32—

leads.

In the black element 126 it is determined from the time the system is in cooling mode. When the system is cooling, the black element 128 is used to determine if the liquid line temperature T is less than 40 ° F (5 ° Cj. If so, an error signal is generated that corresponds to error code number 7) If the liquid line temperature T. is above 40 ° F (5 ° C), the test proceeds to element 132 to determine if there is a loss of charge or a compressor or inverter fault Block element 126 has indicated that the system is in heating mode, the difference between the temperature T ₄ .

id

snake and the temperature T of the air entering must be greater than 5 F. This would also result in an error signal generated that the error code no. 7 corresponds to a Display indoor airflow loss determined by the block element. If either the condition dated Block 12Θ or block 130 does not apply, two additional checks performed in black element 132 to determine if there was a partial loss of charge existed. This is done by comparing the outlet temperature of the compressor after this four minutes has been running for a long time, with the current outlet temperature achieved. If there is a difference of 15 F

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3037Ί35 -Xl- - *

or more exists, an error signal is generated which corresponds to the Error code corresponds to 10 to indicate that there was a partial loss of charge. If this condition is not is fulfilled, an error signal is generated, which the error code no. 5 corresponds to a compressor - or Inverter error will be displayed as the outlet temperature has remained essentially unchanged.

In addition, a microprocessor 46 has been programmed with program 40 to keep the system in cooling mode to start automatically when the outside temperature Tamb, that is sensed by the thermistor 65 is greater than 85 F (30 C) and automatically turns the system on in heating mode to start when the outside temperature Tamb is less than 85 F (30 c). Furthermore, in the case of a Failure of the microprocessor electric heaters 4ia-41c automatically turned on, and the error code no. 4 becomes enlightened. The microprocessor 46 has been programmed so that the indicator lights only are illuminated when three error signals have been generated in a period of 24 hours. The user then knows that it is time to call the service manFurthermore, after three errors, one of the in dar Types listed in the table, excluding error code No. 9, the compressor locked out, so that attempts by the user for restarting the device can be prevented. On the other hand, the user can use the device after a

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Put errors back into operation and thereby the costly Avoid calling in a service man. To the microprocessor 46 a telephone network 49 can also be connected, so that the service man in the event of a malfunction automatically called. In addition, the microprocessor 46 also transmits that special code which corresponds to the last fault, so that the repair of the device by the serviceman is made easier.

The microprocessor 46 transmits the error signals to the microprocessor 38 arranged in wall unit 32. microprocessor 38 responsive to the error signals causes the indicator lights 50-60 to be switched on appropriate times. It will be understood that a single microprocessor can also be used to manage all of the the monitoring and error display described above— steps to perform.

From the foregoing detailed description it can be seen that the present invention provides a novel and improved defect detection and display control system is made available, which has a microprocessor on various sensing devices responds and controls the functioning of a display device for displaying the various error codes. About that In addition, the present invention is with a communication network for automatically calling a service man provided in the event of certain incidents.

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Claims (1)

Patent attorneys Dipl. Ing. H. Hauck Dipl. Ph vs. VV. Schmitz Dipl. Ing. E. C'raaifs BORG-WARNER CORPORATION ^Di P ^{L ln} 3 · ^w · ^V * ^nnert 200 South Michigan Avenue ^Di P ^{L Ph} '' ^s · ^w · Cars tons Chicago, Illinois 60604 Dr.-Ir.g. W. Döring USA Moaarlstrasse 23 SCOO Munich 2 M-5319 September 29, 1980 Claims / 1. »Refrigeration machine for conditioning a room, the one closed refrigerant circuit including a compressor, a first heat exchanger, an expansion device and a second heat exchanger connected in series, the compressor and the first Heat exchanger (condenser) are arranged in an outdoor unit, while the expansion device and the second Heat exchangers are arranged in an indoor unit, characterized in that the machine has a fault detection and Display control system for continuous monitoring and display of error codes includes when Certain malfunctions occur in the machine, which include the following components: Sensing devices (40) including temperature sensitive devices for measuring temperatures 130018 / 08S4 ORIGINAL INSPECTED (62) the air entering the indoor unit, the temperature (63) the coil of the second heat exchanger, the temperature (64) of the air leaving the indoor unit, the atmospheric outside temperature (65), the temperature (66) of the oil in the crankcase of the compressor, the Outlet temperature (67) from the compressor and the temperature (68) of the coil of the first heat exchanger ,. the sensing means further being pressure actuated Switches include a high discharge pressure (71) from the compressor, a dirty or clogged filter (71a) in the second heat exchanger and a defroster operation (72) are assigned, a motor protection contactor (73J and a Pair of relay contacts (74, 75), Fault detection control and logic devices (46, 32) connected to the sensing devices and on address these in order to control the display devices (50-60) for displaying error codes; Display devices (50-60) associated with the fault detection control and logic devices for displaying various Error codes are switched, said failure detection control and logic means (46,32) means for storing a plurality of reference temperatures, facilities for calculating various temperatures that are in response to the Sensor devices are to be stored, and devices for comparing the calculated temperatures with 13001S / 08S4 ORIGINAL INSPECTED corresponding reference temperatures for generating error signals for the display devices. 2. Refrigerating machine according to claim 1, characterized in that the temperature-sensitive devices are thermistors (61-70) include. 3. Refrigerating machine according to claim 1, characterized in that it further comprises alarm devices (37) with the Fault detection control and logic devices are connected to emit an audible warning signal when there is an error code. 4. Refrigerating machine according to claim 1, characterized in that the fault detection control and logic means comprise a first microprocessor (46) with a program (48). 5. Refrigerating machine according to claim 4, characterized in that that it further comprises manually operable switch means (34) for various inputs to the first Microprocessor to enable. 5. Refrigerating machine according to claim 5, characterized in that that a microprocessor (38) for controlling the Funki; ions f way of the display devices (50-60) in response to error signals from the first microprocessor (46) are generated. 130018/0804 7. Refrigerating machine according to claim 1, characterized in that devices (49) of a communication network with the error detection control and logic devices are connected to in the event of certain malfunctions to be able to call a service man automatically. 8. Refrigerating machine according to claim 1, characterized in that the error detection and display control system carries out a test or monitoring process according to that shown in FIG
shown in the flow chart. 9. Refrigerating machine according to claim 1, characterized in that it is essentially the "York Advanced Heat Pump
System "corresponds. 130016/0084