DE2605361A1 - Electricallll storage heater programmer - has potentiometer with slider driven mechanically to one linear voltage - Google Patents

Abstract

The programme generator, for electrical storage heaters, controls the charging of such heaters according to the time of day. A potentiometer (1) is connected across a supply voltage and has its slider moved by a drive system (2) such that a linearly rising or falling voltage appears at the slider characterising the time of day. The slider is coupled to the non-inverting input of an operational amplifier (3) whose inverting input is connected to an adjustable reference voltage formed by a second potentiometer (4). The second potentiometer is connected to the output of the operational amplifier and determines the relationship between the amplifier input and output voltages.

Description

Adjustable programmer, especially for charge control of electric storage heaters The invention is based on various Programs adjustable programmer, which is used in particular to generate one of the time of day-dependent control voltage for the charge control of electric storage heaters is used and provided with a potentiometer through which a constant current flows is whose tap is driven by means of a drive.

To adapt the charge control of electric storage heaters to the respective temperature conditions due to the time shifting of the start of charging in the night charging time or also to control a sliding day recharge Depending on the need, mechanical drives are in use, in which for various Load characteristics different gear sets are to be provided, which is suitable for the needs of a flexible company prove to be unfavorable.

The invention has set itself the task with a single drive enable different charging characteristics to run and achieve this by that the taken from the tap of the potentiometer, running according to a basic program Voltage to the input of a voltage converter supplying the control voltage adjustable functional relationship between input and output voltage is.

A feedback converter is preferably suitable as a voltage converter Operational amplifier that has a variable resistor in the feedback line. The desired charging characteristics can be set in this version with the help of the Variable resistor to adjust.

According to a further feature of the invention can be used as a feedback Operational amplifier trained voltage converter the control voltage from the tap an adjusting potentiometer located in the output circuit can be tapped, with its Help to set the desired charging characteristics.

If in sections, i.e. on the one hand during the day and on the other Different program sequences are desired at night, turns out to be a feedback operational amplifier trained voltage converter advantageous, its input by means of a switch over different impedances to the tap of the potentiometer can be switched on.

Embodiments of the invention are shown in the drawing. 1, 3 and 5 show the circuits of the programmer according to the invention, while in FIGS. 2 and 4 the diagrams of the output voltages in FIGS. 1 and 3 output voltages shown are shown.

In all circuits of the exemplary embodiments shown in FIGS. 1, 3 and 5 1 denotes a constant current flowing through a potentiometer whose Tap operated by means of a drive 2 in accordance with a predetermined program will.

In the embodiment according to FIG. 1, the one tapped by the potentiometer 1 is Voltage Ul the non-inverting input of a feedback operational amplifier 3 supplied. In the feedback circuit of the operational amplifier 3 is a variable resistor 4 switched on, with the help of which the ratio of the respective output voltage U2 is adjustable to voltage U1. At one end of the range of the variable resistor 4, the voltages U1 and U2 are equal to each other, while at other angles of rotation of the variable resistor 4, the output voltage U2 in a constant ratio is reduced compared to the voltage Ul. This is shown in the example of the timing diagram in FIG one Voltage U1, which decreases linearly with time (nighttime low tariff time), is shown Course is shown by means of a strong line. Depending on the setting of the variable resistor 4 result in proportional underlying values for the Output voltage U2, which for some of these values is entered in FIG. 2 with thin lines are.

In the embodiment according to FIG. 3, the one tapped by the potentiometer 1 is Voltage U3 through a directly fed back operational amplifier 3, which here is only serves as an impedance converter, fed to a further potentiometer 5, the control voltage U4 removed from the tap of this potentiometer, which can be adjusted as required The linear relationship between the voltage U3 and various settings of the potentiometer 5 corresponding output voltages U4 is shown in Fig.

4. This voltage curve enables smooth daytime recharging of electric storage heaters.

The embodiment according to FIG. 5 finally shows the circuit of a programmer for different sections of the program, e.g. separated by day and night charging control are adjustable. Here is a feedback op amp 3, its non-inverting input by means of a depending on the time of day adjustable changeover contact 6 via one of two separately adjustable Impedances 7 and 8 at the tap of the potentiometer driven by the drive 2 1 can be connected.

4 claims 5 figures

Claims (4)

Patent claims Programmer that can be set to various programs, in particular to generate a control voltage dependent on the time of day for the charge control of electric storage heaters, with one of a constant Current flowing through a potentiometer, the tapping of which is driven by a drive is, d u r c h e k e n n n z e i c h -n e t that from the tap of the potentiometer (1) Taken voltage according to a basic program to the input of a the voltage converter supplying the control voltage with adjustable functional Relationship between input and output voltage is supplied. 2. Programmer according to claim 1, d a d u r c h g e k e n n -z e i c h n e t that a feedback operational amplifier (3) is used as a voltage converter serves, which has a variable resistor (4) in the feedback line. 3. Programmer according to claim 1, d a d u r c h g e k e n n -z e i c h n e t that a feedback operational amplifier (3) is used as a voltage converter is used, the control voltage from the tap of an adjusting potentiometer located in the output circuit (5) can be tapped. 4. Programmer according to claim 1, for different sections Program sequences, especially for day and night charging control, d u r c h it is noted that a feedback operational amplifier is used as a voltage converter (3) is used, the input of which by means of a switch (6) via various impedances (7,8) can be connected to the tap of the potentiometer (1).