DE2334508B2 - Control device for an air conditioning system - Google Patents

Description

The invention relates to a control device for an air conditioning system according to the preamble of Claim 1.

Such a control device is described in DE-OS 26,979. With her the temperature signal of the first temperature sensor exposed to the supply air, the temperature of the supply air is always used above a first predetermined temperature, the first temperature sensor is also used to regulate the Cooling capacity used If the temperature of the supply air falls below the first specified temperature, transfer control of the regulation to the second temperature sensor. The output of the first However, the temperature sensor continues to be monitored, and ίο exceeds the temperature determined by the If the supply air has a second specified temperature, the first temperature sensor transfers the control about the scheme again in itself. This ensures that the temperature of the supply air increases quickly adjusts to an equilibrium value; However, it is not guaranteed that the temperature in the refrigerator compartment, d. H. the temperature of the goods to be chilled quickly adopts the desired value

In contrast, the invention is intended to provide a control device according to the preamble of the claim 1 can be developed so that the temperature of the refrigerated goods quickly to the desired value is brought, at the same time damage caused by excessive cooling should be prevented. This object is achieved according to the invention by a control device according to claim 1.

In the control device according to the invention, switching takes place between the two temperature sensors depending on the target temperature set on the temperature selector. Is this below the The switching temperature specified by the reference signal, the regulation takes place according to the temperature the supply air. For normal chilled goods, the switchover temperature is selected at 0 ° C, since when the temperature falls below this Temperature damage caused by frost on many fresh produce, ζ. Β Salads, occur.

This type of switching between the temperature sensors ensures on the one hand that with desired cold room and refrigerated goods temperatures that are above the switchover temperature, a very rapid Cooling takes place, whereby the temperature of the supply air is below the set target temperature for the goods to be cooled can lie. On the other hand, at target temperatures that are below the switchover temperature, the Regulation of the cooling capacity according to the supply air temperature, so that also when the air conditioning system starts up it is ensured that the goods to be cooled are not excessively undercooled.

In DE-OS 19 51 807 there is also a control device for controlling the performance of a refrigerant compressor described, which has two temperature sensors, which are in the inlet line and the outlet line a heat exchanger acted upon by the refrigerant are arranged. The two temperature sensors are constantly connected to an assigned differential amplifier, which is each connected via a assigned temperature selector receives a setpoint temperature signal via downstream signal conditioner both differential amplifiers can have equal rights via an OR gate to the control terminal of the The control circuit of the refrigerant compressor is working. In this known control device, the Setting of the cooling capacity depending on the temperature of the supply air as well as depending on the temperature of the exhaust air.

Advantageous further developments of the invention are specified in the subclaims.
The invention is based on an exemplary embodiment!

and explained in more detail with reference to the figures. It represent

F i g. 1 is a block diagram showing the general structure of a control device for an air conditioning system shows; and

F i g. 2 shows a more detailed circuit diagram of the control device according to FIG. 1.

F i g. 1 shows a first temperature sensor 11 which supplies a first temperature signal indicating the air temperature at the inlet of a room to be climatized. A second temperature sensor 10 supplies a second temperature signal which indicates the temperature of the air returned from the room. Both temperature signals do not appear on a line 12 at the same time, because a selection circuit 13 closes a circuit for only one of the temperature sensors, so that only one temperature signal on the line 12 at any point in time is a temperature selector 14, the z. B. can be a simple potentiometer, outputs a temperature setting signal via a line 15 and a line 16 to the selection circuit 13 from. The selection circuit also receives a reference signal assigned to a switchover temperature via a line 17. If the value of the preset temperature signal is less than that of the reference signal, a circuit for the first temperature sensor 11 is closed via a line 20. If the value of the temperature specification signal exceeds that of the reference signal, a circuit is closed via a line 18 for the second temperature sensor 10. The reference signal is e.g. B. set so that it e ^; corresponds to a temperature of 0 ° C. If the temperature selector is then set to above 0 ^° C., the selection circuit 13 closes a circuit for the second temperature sensor 10 via the line 18, whereby the latter is switched into the control circuit. If, however, the temperature selector is set below the temperature corresponding to the reference signal, a circuit for the first temperature sensor 11 is closed via the line 20, this temperature sensor then being active.

A differential amplifier 21 comparing setpoint and actual temperature receives both the temperature specification signal (via line 15 and line 22) as also the temperature signal (via line 12), one of the temperature sensors 10, 11 always working Differential amplifier 21 supplies a signal for controlling the cooling capacity at the output via a line 23 that of the difference between the temperature specification signal on line 22 and the temperature signal on the line 12 depends. This control signal runs via a line 24 to the control circuit, not shown a refrigerant compressor and via a line 25 as well as resistors 26 and 27 and a line? 8 a control circuit, not shown, of a heating device of the air conditioning system.

One input of a blocking circuit formed by a differential amplifier 30 receives a second one Reference signal via a line 31. The value of the second reference signal is usually of that of the first reference signal on line 17 different. The differential amplifier 30 compares the value of the second reference signal with that via the line 15 applied temperature specification signal to generate a blocking signal on a line 32. For example can the amplitude of the reference signal on the line 31 can be chosen so that they have a temperature of -6 ° is equivalent to. If the temperature selector 14 is set to below -6 ° for this purpose, on line 32 a Output signal generated, which reaches the conductor 28 via a diode 33 and the control signal on the line 25 blocked

On the left of the details of the selection shadow 13 showing F i g. 2 is a voltage divider 35 shown, the one end with a voltage supply line 36 and with the other end The voltage divider consists of series connected resistors 37 to 43, um

ίο different voltage values of reference signals define the different temperature values with which the actual temperature signals and the temperature specification signal are compared will. Lines 44 through 50 are respectively

is connected to the various tapping points of the voltage divider 35. A second voltage divider 51 with Resistors 52, 53 and 54 connected in series are located between lines 47 and 50. Line 17 is suspended at the common connection of the resistors 53 and 54 and is via a resistor 55 to the one Connected to the input of a differential amplifier 56, which acts as a voltage comparator in the selection circuit 13 is provided. The temperature selector 14 is a potentiometer that has its ends connected to the lines 47 and 50 is connected. The second input of the differential amplifier 56 receives the temperature specification signal from the wiper of the potentiometer 14 Via conductor 15, a resistor 57 and conductor 16. Terminal 4 of the differential amplifier is grounded and its terminal 8 is connected to the voltage supply line 36 or to B +. This (B + at connection 8 and earth at connection 4) also applies to the other differential amplifiers 21 and 30 in FIG. All of this difference formed by operational amplifiers amplifiers have a Schmitt trigger circuit. Although in reality different conductors are used for each stage, all these conductors which connect terminal 8 to B + are provided with the same reference numeral 36.

The selection circuit 13 has three NPN transistors 58, 60 and 61. The output of the differential amplifier 56 is on the one hand via a resistor 62 with coupled to its input 3 and, on the other hand, connected to a line 63. The base of transistor 58 is connected between resistors 64 and 65 which, connected in series, lie between line 63 and earth. The emitter of transistor 58 is grounded and its collector is between a resistor 66 and the Anode of a diode 67. The other end of the Resistor 66 is connected to voltage supply line 36, and the cathode of diode 67 is connected to connected to the base of transistor 61. The base of transistor 60 is through a diode 68 and a Resistor 70 connected to line 63. the The emitters of the transistors 60, 61 are both connected to the line 50, and the collectors of these two transistors are connected to the temperature sensors 10, 11 via the lines 18, 20. The symbol T of this temperature sensor should mean that in this preferred embodiment thermistors are used. With the second terminal of each Thermisto ^r lies on the line 12. A resistor 71 between the lines 12 and 47 connecting the thermistors 10,11 to the voltage supplying line 47th

In the selection circuit 13, for the sake of explanation, the value of the first reference signal on the line 17 should correspond to ^{a temperature of 0 ° C.}

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ler 14 is set below 0 ° C. Under these circumstances, the control device works with the Output signal of the temperature sensor 11, which is located at the air inlet of the room to be air-conditioned. to at this point the output of differential amplifier 56 is small and transistor 60 will not to close a circuit for the thermistor 10 switched through. However, flows from the power supply line 36 through the resistor 66 and the diode 67 a current to the base of the transistor 61, the this transistor turns on, whereby a circuit for the thermistor 11 is closed. Hence runs under these circumstances the temperature signal from thermistor 11 via line 12 and a resistor 72 to input 6 of differential amplifier 21.

If the temperature selector 14 is set to above O ⁰ C, the temperature setting signal on line 15 via resistor 57 and line 16 causes differential amplifier 56 to switch through and its output goes high 70 and the diode 68 are turned on to complete a circuit for the thermistor 10, which is exposed to the exhaust air, via the line 18. At the same time when the signal on the line 63 goes high, the voltage drop across the voltage divider 64, 65 drives the transistor 58, which then turns on is blocked.

The above-described activation of the transistors 60 and 61 ensures that the control change from one temperature sensor to the other takes place at any desired switching temperature by changing the value of the first reference signal on line 17.
The differential amplifier 21 receives the temperature setting signal at the input 5 via the line 15, a resistor 73 and the line 22. It also receives the temperature signal from the respective active thermistor via the line 12 and a resistor 72. The output 7 of the differential amplifier 21 is via a Resistor 74 is connected to a network node 75, as is line 24. Point 75 is also connected to ground via a Zener diode 76. The input 6 of the differential amplifier 21 is via a parallel connection of a capacitor 77 and a resistor

! 5 78 also connected to the network node 75.

The blocking circuit shown in the lower part of FIG. 2 and assigned to the heating device shows how already indicated the differential amplifier 30 on. Its input 6 is connected to the line via a resistor 80 31 connected, via which the second reference signal is received. The second input 5 is via a Resistor 81 connected to line 15, via which the temperature specification signal is received. A Capacitor 82 lies between the two inputs and a resistor 83 couples input 5 to the Output 7, which is connected to line 32. A blocking signal generated on line 32, which the heating device is out of operation, is obtained when the temperature setting signal on line 15 certain temperature is below the temperature that the second reference signal on the line 31 is equivalent to

For this purpose 2 sheets of drawings

Claims (5)

Patent claims: 1. Control device for an air conditioning system with a first the temperature of the to The air supplied to the cooling room measures temperature sensor, with a second temperature sensor the temperature sensor measuring the air discharged from the room to be cooled, with a Temperature selector for setting a target temperature and with a selection circuit through which one of the temperature sensors is connected to the control circuit and the other is connected to the control circuit is separated, characterized in that the selection circuit (13) on the one hand from Temperature selector (14) receives a temperature specification signal corresponding to the setpoint temperature and on the other hand receives a reference signal assigned to a switchover temperature; that the selection circuit (13) switches the first temperature sensor (11) into the control circuit when the temperature specification signal is smaller than the reference signal and the second temperature sensor (10) in the control circuit switches when the temperature specification signal is greater than the reference signal; and that the control loop has a differential amplifier (21) which is connected to that of the in each case in the control loop Temperature sensor generated temperature signal and is acted upon by the temperature specification signal. 2. Control device according to claim 1, wherein the temperature sensors are thermistors, characterized in that that the selection circuit (13) the thermistors (10, 11) thereby in the control loop switches or disconnects from the control loop that it closes the circuits for the thermistors (10, 11) or open. 3. Control device according to claim 2, characterized in that the selection circuit (13) a differential amplifier to which the temperature specification signal and the reference signal are applied (56), the output signal of which controls or blocks a first switching transistor (60) and a second switching transistor (61) blocks or turns on, with each of the switching transistors (60,61) one terminal of one of the thermistors (10, 11) can be connected to earth, while the other Terminals of the thermistors are permanently connected to the supply voltage source. 4. Control device according to claim 3, wherein both switching transistors are of the same type, characterized by an inverter (58) connected upstream of one of the two switching transistors. 5. Control device according to one of claims 1 to 4, characterized by a heating blocking circuit (30), on whose input terminals the temperature specification signal and a second reference signal and which prevents the heating unit of the air conditioning system from operating if the Temperature specification signal is smaller than the second reference signal.