DD233767A3 - ELECTRONIC CIRCUIT ARRANGEMENT FOR CONTROLLING A CERTAIN PLANT - Google Patents

Abstract

The invention is applied to the construction of control units for chambers for simulating environmental conditions. The aim of the invention is a circuit arrangement that guarantees all functional parameters with a few electronic components and achieves a high degree of operational and fault safety. The object of the invention is the arrangement of gates and diodes for controlling a Kaelteanlage with a predetermined mode of operation. According to the invention, the object is achieved in that an input of higher priority controls the compressor and the solenoid valves directly and that a second part of the arrangement assumes control during normal operation. Fig. 1

Description

Field of application of the invention

The invention comprises a circuit arrangement for controlling refrigeration systems in conjunction with a heater. Such circuits are used in chambers for the simulation of environmental conditions, in particular for controlling the refrigeration part.

Characteristic of the known technical solutions

The largest field of application currently have electrical-electronic switching systems, which are used in chambers environmental simulation. It is customary to link gates with different structures for the realization of electronic controls. It is also common to replace active OR gates with diode networks (see characteristic data sheet "Ursalog 4000").

All of these circuits are applicable for the control of refrigeration compressor in conjunction with a heater only with increased effort.

Solutions of this type are complex and uneven in their structure. The weitern can be used to lock the circuitry signal inputs, which are also involved in the structure. (DD-WP-214898) They become effective for functions such as preselection or to consider safety functions.

Object of the invention

The aim of the invention is to provide a control module for operating a refrigeration system, as it finds application in chambers for environmental simulation. With the invention is to be achieved that all the necessary controls are realized for an air conditioner and with a minimum of effort electronic components a flawless function and high operational and noise immunity is achieved.

Explanation of the essence of the invention

The object of the invention is to provide a control device with per se known elements, which allows the most varied functions, such as switching on and off of the system, switching on and off of the refrigerant compressor in cooling and also the control of the solenoid valves at Regel- and perform security tasks with minimal effort.

According to the invention the object is achieved in that depending on the compressor with applied cooling signal and nornalem control operation, the solenoid valves so on or off that after heating the first control signal is stored in the incoming form that a logic gate from the output via a diode combination connected to the input and this output simultaneously controls the compressor. To ensure safety functions, a diode and a logic gate are switched so that a direct activation of the solenoid valves and the compressor is possible.

Impermissible operating states are inventively avoided by a power limitation, in which the two solenoid valves are switched alternately by the combination of three logic gates.

With this circuit arrangement according to the invention it is achieved that a simple clear assembly is realized, which includes all required function parameters and compared to conventional circuits has a low material usage.

By reducing the components, a reduction in the failure rate is achieved.

embodiment

The invention will be explained in more detail below using an exemplary embodiment.

The circuit shown in Figure 1 is characterized by 6 switching diodes V _D i ... V _D6 and 5 AND gates. About the inputs El. ..E8 the outputs A1 ... A3 are controlled.

The signal input E1 for driving the compressor with higher priority is connected via V _D6 to the input 1 of the gate D5. Inputs E3 and E4 protect the compressor and allow direct shutdown.

If a "1" signal is present at the inputs E1, E3 and E4, the compressor and the solenoid valve "Cooling" via the output A2 are via the output A3. The input E2 controls the function of a discharge circuit, which serves the power limitation. A "1" signal at the input E2 switches off the output A2 via the gate D4 and via the gate D3 the output A1 and thus a relief valve are actuated. Signal at input E1 switches off the compressor and the corresponding solenoid valve. The described "on-off" operation is used for the temperature control of the system components, which must not exceed an upper temperature limit in the case of strong heat exposure. "Normal" control mode is characterized by the switching of the outputs A1 ... A3 in conjunction with a three-position controller which is connected to the inputs E7 and E8. A preselection of the operation must be done by applying a "1" signal at the inputs E5 and E6.

The control signal "cooling" is connected to the input E8 and is applied via the diode Vq3 to the input 1 of the gate D2.

The switching diode V ₀₅ is together with V ₀₆ at the input 1 of the gate D5, with a "1" signal at the inputs E3 and E4, the compressor is connected via the output A3.

The "Cooling" solenoid valve is actuated via the diode Vd2, the gate D1 and the gate D4 If the average value is displayed by the three-position controller, ie no cooling or heating command or if a "1" signal is present at the input E2, then the Output A2 down and A1 is pressed. The compressor remains in the switched-on state until the signal "heating" appears at input E7 This signal triggers latching between D2 and Vd ₄ and the compressor comes to a standstill.

The main advantages are the simple design of the system for a refrigeration system, a chamber for simulating environmental conditions.

Claims (1)

Invention claim: Electronic circuit arrangement for controlling a refrigeration system with a heating arrangement and a chiller, a solenoid valve for cooling operation and a relief solenoid valve, wherein gates and diodes constitute the essential elements of the electronic control, characterized in that a signal input for driving with higher priority (E1) is connected to the Anodes of the diodes (V _D i) and (V ₀₆ ) and the cathode of the diode (V _D ·,) to the input (1) of the gate (D1) and the cathode of the diode (V _D6 ) is connected to the input ( 1) of the gate (D5) and that a signal input to the power limitation (E2) to the input (2) of the gate (D1) is connected and that a signal input "heating" (E7) at the negated input (4) of the gate (D2 ) is connected and a signal input "cooling" (E8) to the anodes of the diodes (V ₀₂ ) and (V _D3 ) is connected and the cathode of the diode (V _D2 ) to the input (1) of the gate (D1) is connected and di e cathode of the diode (V ₀₃ ) is connected to the input (1) of the gate (D2) and simultaneously with the cathode of the diode (V ₀₄ ), wherein the two anodes of the diodes (V ₀₄ ) and (V ₀₅ ) to the Output of the gate (D2) are connected and the cathode of the diode (V ₀₅ ) to the input (1) the signal inputs (E3 and E4) to the inputs (2 and 3) of the gate (D5) are connected and the output of the gate (D5) is the output for driving the compressor (A3), which is simultaneously connected to the input (1) of the gate (D3) and the input (2) of the gate (D4); Furthermore, the output of the gate (D1) is connected to the negated input (2) of the gate (D3) and the input (1) of the gate (D4) and the output of the gate (D4) controls the solenoid valve "cooling" (A2 ) and the output of the gate (D3) controls the unloading solenoid valve (A1). For this 1 page drawing