DE3529814A1 - Regulating device for a heating installation with water-heater priority circuit - Google Patents

Abstract

The regulating device for a heating installation regulated slidingly depending upon the outside temperature, with a priority circuit for the hot-water water heater, contains a control member which, at the end of the heating process for the hot-water water heater, switches off the burner without delay, switches on the heating circuit pump without delay and switches off, only after the expiry of a follow-up time which begins with the cancellation of the priority for the water heater, the water-heater charging pump which has been running since the beginning of the heating process. The follow-up time can be made dependent upon the difference between the boiler temperature and the water-heater temperature and/or upon the difference between the boiler temperature and the desired temperature of the heating circuit forward run.

Description

The invention relates to a control device for a dependent Heating system controlled by the outside temperature according to the Preamble of claim 1.

Heating systems for heating rooms and simultaneously warm water preparation at which the flow temperature in the heating circuit run automatically controlled depending on the outside temperature are known. With a small heating load, i.e. when the outside temperature only characterized by a low flow temperature nes weak heating requires, occur in such heating systems different problems because in such a case the Flow temperature of the heater is lower than the temperature that should prevail in the hot water boiler. While with plants with a flow mixer regardless of the flow temperature the boiler temperature can be regulated in systems without Flow mixer a specially designed priority control for the hot water boiler are provided. It is known when there is a scream the boiler temperature to switch on the burner to ensure that the to initiate that of the boiler. After some time the boiler has the set temperature is reached again, the boiler priority usually canceled. The associated disadvantages tries to fix the device according to DE-AS 25 24 010, that the boiler charging pump decelerates and the heating circuit pump decelerates device is switched on.

As the duration of the reloading process for the boiler progresses the amount of heat absorbed by the boiler is getting smaller, because the tempe temperature difference between the boiler and the boiler becomes smaller.

The teaching of DE-AS 25 24 010 indicates that after reaching the boiler set temperature, the burner is switched off On the one hand, the boiler loading pump decelerates and the heating circuit pump is switched on with a delay to avoid that when switching off Excess heat still present in the burner circuit and causes unpleasant cracking noises.  

The heat that is still present when the burner is switched off can be particularly high especially with boilers with a small boiler volume to overheat of the boiler because of the lower temperature difference the heat transfer in the boiler is worse. An overheating of the Boiler can be used to activate the safety temperature limiter and thus lead to the shutdown of the entire heating control.

The invention has for its object a control device to create for a heating system with water heating at which still exists in the boiler when the burner is switched off shot heat is dissipated as quickly as possible and so the response safety temperature limiter at the end of reloading the Hot water boiler is safely prevented.

The problem is solved by the in the characterizing part of the claim 1 mentioned features. Advantageous embodiments of the invention are characterized in claims 2 and 3.

An exemplary embodiment of the invention is described below. That of a control device depending on the outside temperature The heating system to be controlled consists of a boiler, one with one flow and one return line to this boiler connected hot water boiler and a one flow and one Return line containing heating circuit, being in the boiler circuit a boiler charging pump and a heating circuit pump in the heating circuit is built. To avoid incorrect circulation in both Circuits non-return valves should also be installed. The control device controls the heating system in a known manner, contains but in addition to the known regulating elements, a control element, the Bren at the end of the heating process for the hot water boiler ner switches off without delay, switch on the heating circuit pump without delay and the boiler loading pump that has been running since the start of the heating process pe only after expiry of one with the lifting of priority for the Boiler circuit switches off the start-up delay. This will make him it is sufficient that the excess heat in the boiler is not to a response of the safety temperature limiter of the heating can lead to the boiler. This beneficial effect arises from that in addition to the boiler loading pump, the heating circuit pump is in operation, which transfers part of the excess heat to the  Heating circuit is given that also by the parallel Be driven by the boiler charging and heating circuit pump circulating in the boiler circuit amount of water is reduced, which offers the advantage that the dwell time of the water in the boiler is longer and thus the heat levy is improved. This in turn has the advantage that the after run time for the boiler loading pump can be shortened. On the other hand the introduction of heat into the heating circuit is less than with the usual priority circuit, with the at the end of priority the boiler loading pump is switched off immediately.

It is advantageous if the duration of the run-on time is not constant but from the difference between the boiler temperature and the boiler temperature is made dependent, in the sense that the Follow-up time is smaller, the smaller the difference between Boiler temperature and boiler temperature. So that is achieved that the boiler loading pump does not run unnecessarily long on the one hand and on the other hand, it is not switched off too early.

It is particularly advantageous if the duration of the run-on time Boiler loading pump also from the difference between the boilers temperature and the target temperature of the heating circuit flow is made. This ensures that after switching off excess heat still not present in the boiler uselessly the hot water boiler is still fed when it can be used in the heating circuit. Is the target temperature heating circuit flow not much smaller than the boilers temperature, it generally means that the heat requirement of the heating circuit is not insignificant, and that possibly soon after the end of the heating process for the boiler gently switching off the burner again a switch on command for the Burner is triggered from the heating circuit. In this case the excess heat of the boiler after the end of the heating process for the boiler in the heating circuit, so the re-start switching of the burner is delayed and energy is saved. That's why it is advisable to completely shut down the boiler loading pump suppress if the difference between the boiler temperature and the target temperature of the heating circuit falls below a limit.  

Taking into account the types of boilers and hot water boiler and the size of the heating system as a whole becomes the limit set on the control element. But it can also be a constant on the up construction of the control element are taken into account. As a guide for this The limit can be 10 degrees Kelvin.

Claims (3)

1.Control device for a boiler that is controlled in a sliding manner depending on the outside temperature, a hot water boiler with a flow and return line connected to this boiler, a heating circuit with a flow and a return line, a boiler loading pump installed in the boiler circuit and one in the heating circuit built-in heating circuit having heating system wherein the boiler circuit is connected opposite the heating circuit on priority, wherein in the heat requirement of the hot water, the burner boilers switched on and the heating circuit pump is turned off and at the end of the heating for the hot water boiler of the pre-ranking of the boiler circuit is switched off, characterized characterized in that at the end of the heating process for the hot water boiler the burner is switched off without delay, the heating circuit pump is switched on without delay and the boiler loading pump which has been running since the beginning of the heating process only after a run with the lifting of the front ran There is a control element starting to switch off the overrun time. 2. Control device according to claim 1, characterized in that the Follow-up time from the difference between the boiler temperature and the Boiler temperature is dependent in the sense that the run-on time is around the smaller the difference between the boiler temperature and boiler temperature is. 3. Control device according to claim 1 or 2, characterized in that the run-on time from the difference between the boiler temperature and the target temperature for the heating circuit flow is dependent on and becomes zero when the difference between the boiler temperature and the set temperature of the heating circuit flow falls below a limit tet.