DE3624864C2 - - Google Patents

Description

The invention relates to a heating system with a boiler connected to a heating circuit, especially for solid fuels, and a buffer storage, the over an upper connecting line with the flow and over a lower connection line with the return of the heating circuit is connected.

Because the heat supply for boilers for solid firing substances do not always depend on the heat requirement of a heating circuit can be adjusted - the boiler firing can yes only up to a minimal, economical burn be throttled - it is for better heat utilization knows a buffer to the flow and return of the To connect the heating circuit to the Heating system to be able to store excess heat, which then can be returned to the heating circuit. After in part in these known heating systems with a Buffer storage, however, is that through the boiler drawer always pump some of the heat in the boiler carrier is circulated through the buffer storage, so that the boiler temperature against when the buffer tank is cold increases more slowly over heating systems without buffer storage. This does not just mean a quick warm-up of the heating circuit run in the way, but is particularly annoying noticeable when there is hot water via the buffer tank memory to be heated in the heat exchange because Domestic water heating initially the entire volume of the Heat transfer medium in the buffer storage must be heated.

The invention is therefore based on the object, a heating system of the beginning ge described way to improve so that the benefits of a Buffer memory can be used without the disadvantage a comparatively sluggish warming process in purchase to have to take.

The invention solves the problem in that the lower connecting line of the buffer storage via Control valve with one in the height range of the upper connection line in the buffer memory short circuit line in Connection is established and that the control valve by means of a Control device via an actuator depending on the return temperature of the heating circuit is adjustable.

By providing a short-circuit line, which in the Height range of the upper connection line to the buffer tank cher is connected, the return can be carried out using the Flow into the buffered, heated heat be fed more slowly, so with such a short final circuit the temperature stratification in the buffer memory is retained and the buffer storage is not warmed up becomes. It can thus with the help of the short circuit line Ver Ratios are created, as in heating systems prevail without buffer storage. Reaches the return temp heating system a predetermined value, so via the control device the control valve the short circuit line and the return temperature on the predetermined value by adding cold heat carrier from the buffer storage via the lower connection line tion kept constant, while at the same time the buffer cher is heated. The heat stored in the buffer storage can then be returned to the heating circuit if necessary be by the return on the short circuit line warm heat transfer medium is fed from the buffer storage, so that a required flow temperature for the heating circulation can be ensured without the boiler having to start up the fire. If the boiler is switched off switches, so the short-circuit line over the control valve can be blocked, which is a supply to the heating circuit enabled via the buffer memory.

The short circuit line between the upper part of the Buffer memory and the lower connection line allowed not just rapid heating of a heating circuit, but also represents a quick warm-up of a custom water storage via the buffer storage safely because Heating the domestic water does not cover the entire volume of the Buffer memory must be heated. To the domestic water To be able to heat up particularly quickly can be in the height range of upper connection line in the buffer tank a temperature sensor are provided, via which the pump for heating circuit can be switched off, so that the entire Boiler output for domestic water heating Available.

Particularly simple design relationships result itself when the control device turns from a to a tempera setpoint-actual value-ver same level exists, which is an actuator for the actuator controls the control valve. Is in the target actual value ver Equal step found that the actual value of the return temperature corresponds to the specified setpoint, this will be Actuator for the actuator of the control valve in the sense a closing of the short-circuit line, what a Add cooler heat transfer medium from the buffer storage in the  Return and at the same time heat storage in the buffer memory. The actual value of the return temperature drops temperature below the setpoint, the short-circuit line opened and the lower connecting line on the buffer side locks.

So when the boiler charging pump is switched off, the Buffer tank automatically connected to the heating circuit is closed can in further development of the invention the actuator for the actuator of the control valve a switch guard for depending on the tempera Switchable boiler charge pump for the boiler be recognized. For example, the boiler charge pump a decrease in the boiler temperature below a predetermined one Threshold switched off, the short-circuit line is over the control valve blocked and the lower connecting line to Buffer tank opened so that the return of the heating circuit run over the lower connecting line and the flow over the upper connection line is connected to the buffer tank are.

To switch off the heating when the boiler charging pump is switched off do not necessarily connect the circuit to the buffer tank finally, the actuator of the actuator for the control valve one from the switch guard for the boiler Charge pump controllable locking circuit, the a timer that releases the locking of the actuator assigned. The interlock circuit will Control valve when switching off the boiler charge pump in his respective position via the actuator for the timer set time, so that when you come back switch the boiler charging pump within the expiry time of the In general, the timing valve does not adjust the control valve needs to be. If the boiler charging pump remains switched off, then the heating circuit is connected to the control valve Buffer tank connected.

In the drawing, the subject of the invention is at shown for example. Show it

Fig. 1 shows a heating system according to the invention in a cal matic circuit diagram and

Fig. 2, the control device for the actuator of the control valve of the short-circuit line in a block diagram.

As can be seen from FIG. 1, the heating circuit 1 of the heating system shown has a flow 3 connected to a flow collector 2 and a return 5 connected to a flow collector 4 . About this flow and return collector 2 and 4 , the heating circuit 1 is connected to a boiler 6 , wherein a boiler loading pump 8 and a check valve 9 are provided in line 7 between the return collector 4 and the boiler 6 . The boiler charging pump 8 can be switched on and off via an actuator 10 . For this purpose, the actuator 10 to a control device 11 is ruled out, which is connected to a temperature sensor 12 for the boiler temperature. The amount of heat transfer medium flowing through the boiler 6 can be adjusted via a control valve 13 .

In order to be able to store excess heat from the boiler 6 , a buffer store 14 is provided which is connected to the flow collector 2 via an upper connecting line 15 and to the return collector 4 via a lower connecting line 16 . New compared to conventional heating systems of this type is that the lower connecting line 16 of the buffer memory 14 is connected via a control valve 17 to a short-circuit line 18 opening into the buffer 14 in the height region of the upper connecting line 15 . This short-circuit line 18 makes it possible to supply the return collector 4 heat transfer layers of different temperatures from the buffer memory 14 , depending on the position of the control valve 17th Due to the temperature stratification in the buffer memory 14 , namely when the short-circuit line is open, the warm heat transfer layer supplied to the buffer memory via the upper connecting line 15 is removed again from the buffer storage because the short-circuit line 18 is attached to the buffer memory 14 in the height region of the upper connecting line 15 . With the blocked short-circuit line 18 of the heat transfer from the lower, cold Pufferspeicherbe is removed reaching via the connecting line 16, while the return collector 4, a heat carrier can be conveyed with an appropriate mixing temperature at intermediate positions of the control valve 17th

To control the control valve 17 , an actuator 19 is provided, which is acted upon by the control device 11 in dependence on the return temperature. The return temperature is detected by a temperature sensor 20 , which is provided in the flow direction of the heat carrier after the return manifold 4, that is, after the junction of the connecting line 16 in the return 5 .

According to the illustrated embodiment, the buffer storage 14 is provided with a domestic water storage 21 which is heated via the heat transfer medium of the buffer storage 14 in heat exchange. In order to have the full boiler power available for heating the process water, a temperature sensor 22 is provided in the height range of the upper connecting line 15 in the buffer store 14 , which only switches on the pump 23 for the heating circuit 1 via an actuator 24 when in the area of the temperature sensor 22 there is a predetermined minimum temperature.

So that the full heat transfer volume in the buffer store 14 does not have to be heated in order to heat the process water, the short-circuit line 18 is opened via the control valve 17 and the connection line 16 is blocked on the store side, so that the return medium 4 is supplied with the heat transfer medium from the upper buffer store area and only this upper buffer store area must be heated. Is the hot water preparation essentially completed, which is indicated by the temperature sensor 22 , the heating circuit 1 can go into operation, which is switched on via the actuator 24 . Since larger amounts of heat may be required when starting up the heating system than are made available by the boiler 6 , the temperature in the buffer memory 14 may drop, which, if the temperature falls below the set threshold, results in a shutdown of the heating circuit until the temperature in the buffer storage is raised again. In the usual Heizungsbe operation corresponds to the heat supply of the boiler 6, the heat requirement of the heating circuit 1 , so that in addition to the usual firing control of the boiler 6 depending on the boiler temperature, no special control interventions are required. However, if the return temperature detected by the temperature sensor 20 rises above a setpoint in the partial load range, the control mechanism 11 actuates the actuator 19 for the control valve 17 and adjusts the control valve 17 such that the short-circuit line 18 is throttled and the connecting line 16 to the buffer store 14 is opened to feed the return collector 4 a cooler heat transfer medium. By controlling the amount of heat transfer medium originating from the lower buffer storage area, the return temperature can be kept at a set target value and the excess heat generated via the boiler 6 can be stored in the buffer storage. If the heat requirement for the heating circuit 1 rises, then the supply of warmer heat transfer layers from the upper buffer storage area to the return collector 4 is caused by the control valve 17 , the greater heating requirement of the heating circuit from the buffer storage 14 being able to be covered without in the firing control of the boiler 6 need to intervene, which can continue to be operated economically with a low burn-up.

If the boiler charging pump 8 is switched off via the actuator 10 because, for example, the boiler temperature has dropped below the predetermined threshold value, the control valve 17 is acted upon by the control device 11 in the sense of shutting off the short-circuit line 18 and the buffer store 14 via the lower connecting line 16 to the Heating circuit 1 connected, which can now be supplied via the buffer memory 14 .

According to FIG. 2, the control device 11 has a setpoint / actual value comparison stage 25 connected to the temperature transmitter 20 for the return, via which an actuator 26 for the actuator 19 of the control valve 17 is controlled. If the actual temperature value exceeds the setpoint value, the actuator 26 for the actuator 19 of the control valve is struck via the setpoint / actual value comparison stage 25 in the sense of throttling the short-circuit line 18 and the lower connecting line 16 is partially opened on the memory side. The colder heat transfer layers supplied to the return collector 4 from the buffer store 14 require a lowering of the return temperature until the desired value is reached again. The control valve 17 can consequently prevent the rise in the return temperature above the desired value.

In order to be able to take into account the switching off of the boiler charging pump 8 as a function of the boiler temperature, the temperature sensor 12 for the boiler temperature is also connected to a comparison stage 27 , which compares the measured actual value with a predetermined threshold value and, when the temperature falls below this threshold, the boiler charging pump 8 via the Actuator 10 switches off. This actuator 10 is designed as a switch guard 28 , the output of which is connected on the one hand to a locking circuit 29 for the actuator 26 of the actuator 19 and on the other hand to a timer 30 which releases the locking of the actuator 26 . If, according to this circuit, the boiler charging pump 8 is only switched off for a short time, the control of the heating system is retained because the position of the control valve 17 is held by the locking of the actuator 26 until the timer 30 drops and the lock is released. If, however, the boiler charging pump 8 was no longer switched on in the meantime, the actuator 26 for the actuator 19 of the control valve 17 is actuated via the switch monitor 28 in the sense of blocking the short-circuit line 18 , which leads to the connection of the heating circuit 1 to the buffer memory 14 Consequence.

Claims (4)

1. Heating system with a to a heating circuit on closed boiler, especially for solid fuel, and a buffer memory, which is connected via an upper connection line to the flow and a lower connection line to the return of the heating circuit, characterized in that the lower connecting line ( 16 ) of the buffer memory ( 14 ) via a control valve ( 17 ) with a short-circuit line ( 18 ) opening into the buffer area ( 14 ) opening in the height region of the upper connecting line ( 15 ) and that the control valve ( 17 ) by means of a Control device ( 11 ) via an actuator ( 19 ) depending on the return temperature of the heating circuit ( 1 ) is adjustable. 2. Heating system according to claim 1, characterized in that the control device ( 11 ) consists of a temperature sensor ( 20 ) connected to the return temperature setpoint-actual value comparison stage ( 25 ) which has an actuator ( 26 ) for the actuator ( 19 ) controls the control valve ( 17 ). 3. Heating system according to claim 2, characterized in that the actuator ( 26 ) for the actuator ( 19 ) of the control valve ( 17 ) via a switch monitor ( 28 ) for a depending on the temperature of the boiler ( 6 ) a switchable boiler charge pump ( 8 ) can be controlled. 4. Heating system according to claim 3, characterized in that the actuator ( 26 ) of the actuator ( 19 ) for the control valve ( 17 ) from the switch monitor ( 28 ) for the boiler charging pump ( 8 ) controllable locking circuit ( 29 ), which one Locking of the actuator ( 26 ) canceling timer ( 30 ) is assigned.