SE441312B - CONTROL WITH AN ANTI-PROTECTOR - Google Patents

Description

7910547-4 2 the room temperature in the building to be heated and to leave the burner switched off for as long as possible, thereby preventing freezing of the water in the heating system by a frost protection device monitored by the external sensor still present, and that at the same time order during burner operation to maintain a minimum operating temperature of the container.

The invention is characterized by the features stated in claim 1.

An exemplary embodiment of the invention is described below with reference to the drawing.

In the drawing, Fig. 1 shows an electrical principle diagram of a control device, and Fig. 2 a functional diagram of a heating system to be controlled.

The described control device serves to control a simple heating system according to Fig. 2. In this reference numeral 1 refers to a heating container with an oil burner 2, hereinafter referred to as the container and the burner. A container flow 3 leads via a three-way valve 4 as a setting link to a heating supply 5. The hydraulic circuit is closed through the radiators 6, a heating return 7 with a circulation pump, called the pump 8, and through a container return 9. From the heating return 7 a the container passing bypass pipe 10 to the three-way valve 4. On the container 1 and on the heating supply 5 there is each a temperature sensor, namely a container sensor 11 and a supply sensor 12.

Another temperature sensor is arranged as an external sensor 13 for the external temperature. The three-way valve 4 is operated by a drive device 14. Preferably, this is a thermal drive device.

A control device 15 shown in Fig. 1 by a broken line comprises a program sensor 16, which may consist of a timer and a program switch, a setpoint sensor 17 for preselecting the desired room temperature and measuring device 18 determining a heating curve. of the 7910547-3 external and flow sensor 13 resp. 12. A first switching unit 19 actuated by the setpoint sensor 17 and the measuring device 18 acts on the drive device 14 of the three-way valve 4. It can operate the valve in on / off operation or continuously.

A second coupling unit 20 is actuated both by the flow sensor 12 and by the container sensor 11 and has the task of sliding and constantly keeping the container temperature higher than the temperature of the flow sensor 12 by a predetermined amount.

A third switching unit 21 serves to switch off the burner 2 once started again only when the tank temperature set on a minimum temperature sensor 22 has been reached.

Finally, a fourth switching unit 23 activated by the programmer 16 only during the operating breaks is arranged as a frost protection device, which is connected both to the external sensor 13 and to a setpoint sensor 24. The setpoint sensor 24 serves to set the external temperature at which the frost protection device is to react. The fourth switching unit 23 is connected via a line 39 to the programmer 16 and only operates when the programmer 16 switches off the heating system, ie. has switched to downtime.

A bistable coupling element 25, which has two control inputs 26, 27 serves for the burner 2 when it is out of danger of frost, ie. above the outside temperature set on the setpoint sensor 24, is not switched on during the operating breaks. The switching contact 28 of the element is located in a control current branch 29 of the burner 2. The switching element 25 can be a bistable relay or together with the switching contact 28 consist of a switching circuit formed by semiconductors.

The first control input 26 is connected to the output of the fourth switching unit 23. Only one signal on the control input 26 can bring the coupling element 25 into the position preventing the burner operation. The second control input 27 can be influenced by the signal from the control device to the drive device 14 and is for this purpose connected to the output of an AND logic 30 which has three inputs 31, 32, 33. The first input 31 is connected to the first switching unit 19 output and is influenced in such a way by the signal to the drive device 14 that only a setting link 4 can at least mostly open signal cancel the burner blocking.

The second input 32 is located at the output of the second coupling unit 20 and is thus influenced by the container temperature and the flow temperature, while the third input 33 is an inverting input which is connected to the first control input 26 of the bistable coupling element 25 and thus also to the fourth , the output of the switching unit 23 serving for frost protection. From the same output of the fourth switching unit 23 there is a line 34 to the pump 8. The line 34 serves to reconnect the pump 8 in the event of frost in the event that the pump 8 together with the burner 2 has been switched off by the programmer 16 during the operating breaks.

An OR logic 35 forms with its output 36 the control current branch 29 for commissioning the burner 2. The potential of the output 36 can assume two well-defined values, one of which enables the start of the burner 2. A first input 37 in the OR logic 35, like the second input 32 of the AND logic 30, is connected to the output of the second switching unit 20, and a second input 38 of the OR logic is connected to the output of the third switching unit 21.

The described device operates as follows: The two possible positions of the bistable coupling element 25 resp. its switching contact 28 determines in principle whether the burner 22 can be put into operation or not during the operating breaks of the heating system. The decision criterion for this is the outside temperature. As long as this does not pose a danger of frost, the coupling contact 28 is opened during the operating breaks as described below.

As soon as the programmer 16 switches the heating system to a break, regardless of whether this is due to the switching clock or the program switch, the fourth switching unit 23 is activated on the one hand via the line 39 and at the same time the circulation pump 8 is switched off. set at the frost protection setpoint sensor 24 at, for example, 2 ° C, an output signal equal to logic "1" appears on the switching unit 23, whereby the pump remains disconnected and the bistable switching element 25 assumes the position shown with open switching contact 28, i.e. prevents operation of the burner 2.

Outside the operating breaks, ie. during normal heating operation, the measuring device 18 actuates the first switching device 19 in such a way that the three-way valve 4 in the heating supply 5 regulates a temperature corresponding to the external temperature of such magnitude that the desired temperature of, for example, 200 C arises in the room.

With the switching of the heating system to a break in operation, however, the setpoint sensor 17 is also set in such a way that the measuring device 18 then has a heating curve to base which corresponds to a room temperature of approximately 50 C, which means that at approximately the same or higher external temperature no additional heat is required from the heating. .

On the other hand, if the outside temperature drops below the limit 20 C, the fourth switching device 23 switches and its initial state goes to the logic state "0". This provides via the line 34 a connection of the pump 8. The bistable connection element initially remains in its position. With decreasing temperature in the heating supply line 5 and provided that the external temperature does not amount to approximately more than 50 ° C, the output signal of the first switching unit 19 changes and the three-way valve 4 begins to open, i.e. the water flow through the container 1 is increased. With the opening of the three-way valve 4, the container 1 is cooled, whereby the second coupling unit 20 requires heat. This means that its output signal switches to logic "l". Since the output signal on the first switching unit is also logic "1", logic "1" now lies on both inputs 31 and 32 of the AND logic 30 and logic "0" on the inverting input 33. Thus, its output signal changes to logic "1" and resets the bistable coupling element 25. Its coupling contact 28 closes. Since at least on the first input 37 of the OR logic 35 a signal logic "1" is present, its output signal also has the logic value "1", which means a switch-on command for the burner 2, which now starts and regardless of the state of the first and the second coupling unit 19 resp. -7910547-4 6 remains in operation until the minimum required container temperature is reached. This is the case when the signal at the output of the third switching unit 21 has the value "0" and then both inputs 37 and 38 of the OR logic 35 are at logic "0".

Outside the operating breaks, the tank temperature is maintained in the same way, namely on the one hand the minimum temperature set on the minimum temperature sensor 22 by the third switching unit 21 and in case the required supply temperature is higher, on the other hand the burner is switched on and off. 2 via the second coupling unit 20 sliding according to the flow temperature.

If the signal of the first switching unit 19 constantly acts on the drive device 14, it is suitable to incorporate in the line to the first input of the AND logic 30 a threshold switch (not shown) in Fig. 1, which turns at about 70% opening of the setting link, whereby the signal at input 31 goes to the value logical "l". Through the described working method it is achieved that the burner 2 is really only switched on during the operating breaks when the heat still remaining in the container 1 and in the pipeline network is no longer sufficient to maintain a minimum room temperature of approximately 50 C. The described control device makes it possible to allow the room temperature during operating breaks to drop to the vicinity of the frost limit without the risk of freezing having to be tolerated. However, once the burner is switched on, the container is heated at least to its minimum required operating temperature until the risk of frost is over.

Claims (5)

7910547-4 7 PATENT REQUIREMENTS Control device with a supply and an external temperature sensor (12 and 13, respectively) for a heating system controlled according to a programmer (16) and depending on the external temperature consisting of a burner-heated container (1) with a burner (2) in and disconnecting coupling unit affected by the temperature of the tank with a circulation pump (8) and with a valve (4) for influencing the heating medium circulation and with a minimum temperature ensuring frost protection device (23) affected by the outside temperature and the flow temperature and in the heated room that a bistable coupling element (25, 28) is arranged in a control current branch (29) for commissioning the burner (2), which element has two control inputs (26, 27) and prevents a connection of the burner (2) during operating breaks, in which there is no risk of freezing, the first control input (26) being connected to the output of the f the rust protection device (23), while the second control input (27) can be actuated by the drive device (14) of the valve (4) and only a signal which at least for the most part opens the valve (4) cancels the blocking of the burner. Control device according to claim 1, characterized in that the output of an AND logic (30) is connected to the second control input of the bistable switching element (25), which logic has at least two inputs (31, 32), of which the the first input (31) is connected to the output of a first control unit (19L) emitting a signal to the drive device (14), while the second input (32) is connected to the output of a second switching device (12) actuated by the container sensor (11) and the flow sensor (12). 20), whereby the container sensor (II) with a predetermined amount, sliding and constantly keeps the container temperature higher than the temperature at the flow sensor (12). Ss QXSPÅK fl v00 7910547-4 8 Control device according to claim 2, characterized in that the AND logic (30) has a third, inverting input (33L which is connected to the first control input (26) of the bistable coupling element (25). Control device according to claim 2, characterized in that the output (36) of an OR logic (35) forms the control current branch (29) of the burner (2), the first input (37) of this logic being connected to the second , the container temperature determining switching unit (20), and wherein the second input (38) of the OR logic (35) is connected to the output of a third switching unit (21) maintaining a minimum container temperature. Control device according to one of the preceding claims, characterized in that a line (34) for connecting and disconnecting the circulation pump (8) is arranged from the outlet of the antifreeze device (23).