DE19956222A1 - Heating system for provision of hot water derives demanded forward temperature from return line temperature and heater is switched off if demanded temperature is exceeded - Google Patents

Abstract

The heating system has a heater (5) with a primary heat exchanger (8) connected via forward (9) and return (10) lines to a heating body (6) and controlled according to the heating demand, a controller (4). There is a bypass line (13) parallel to the primary heat exchanger and a controlled circulating pump (1). Temperature sensors (2,3) arranged between the connections of the bypass line and heating body in the forward and return lines are connected to the controller, which contains a timer (12). A demanded forward temperature is derived from the return line temperature. The heater is switched off if the demanded temperature is exceeded and the pump is switched on and off at defined intervals.

Description

The invention relates to a heating system according to the preamble of Claim 1.

In known heating systems of this type, there are room and outside temperature sensors provided that are connected to the controller and from this to control the Target flow temperature can be used. Furthermore there are pressure or pressure difference sensors provided that are used to control the heating water volume flow. Such heating systems are usually with a staged or continuously modulating heater operated.

However, there is the disadvantage that due to the use of Room temperature sensors require a relatively complex wiring to the To record the heat requirement of the radiator arrangement.

From DE 41 35 509 C2 a method was known in which a speed-controllable Circulation pump switched off when the speed falls below a limit and then in predetermined time intervals is switched on and off periodically until a predetermined Target temperature is fallen below. However, the target temperature is dependent on the room temperature.

AT 402 342 B also introduced a method for operating a heating system known in which the speed of the circulation pump from a lower value to one  higher value is gradually increased if the actual value of the flow temperature drops to one fixed value from 1 to 3 K to the target value, which depends on the Room temperature is set, has approximated.

The aim of the invention is to avoid this disadvantage and a heating system to propose the type mentioned above, which is characterized by a simple structure.

According to the invention in a heating system of the type mentioned by characteristic features of claim 1 achieved.

The proposed measures make it possible in a simple manner To record the heat requirement of the radiator arrangement. It will not Return temperature measured in the primary heat exchanger but the Mains return temperature of the heating water flowing out of the radiator arrangement. This Mains return temperature is a measure of the integral heating load of the heated rooms.

The advantage of the proposed control compared to one Flow temperature control according to a given room temperature is less Fuel requirement, a reduction in the switching frequency of the heater, and a uniform level of actual room temperatures. In addition, the effort is eliminated for the installation and wiring of a room temperature sensor, because the Temperature sensors in the flow and return lines attached directly to the heater can be.

The features of claim 2 result in the advantage that the target flow temperature can be adapted to the respective outside temperatures.

The invention will now be explained in more detail with reference to the drawing, which schematically shows a Heating system according to the invention shows.  

In the heating system according to the invention, a heater 5 is provided which has a primary heat exchanger 8 . Here, a bypass line 13 is connected in parallel to the primary heat exchanger 8 , in which a control valve 11 is arranged, which enables admixture of return water into a supply line 9 .

The primary heat exchanger 8 is connected via a feed conduit 9 and a return conduit 10 with a heater assembly 6, wherein a circulation pump 1 is arranged in the flow line 9, which is connected via a control line 14 to a control. 4

The controller is connected via a signal line 15 to an outside temperature sensor 7 and via signal lines 16 , 17 to a temperature sensor 3 arranged in the flow line 9 , or a temperature sensor 2 arranged in the return line 10 . The controller 4 is provided with a timer 12 .

During operation of the heating system, the controller 4 detects the network return temperature of the heating water flowing out of the radiator arrangement 8 via the temperature sensor 2 and determines a target flow temperature according to a predetermined algorithm. The signals of the outside temperature sensor 7 can be taken into account when determining the desired flow temperature, or can be included in the algorithm.

Since the two temperature sensors 2 , 3 , which are arranged between the bypass line 13 and the radiator arrangement 8, can be arranged very easily in the area of the heater 5 , in which the controller 4 is also accommodated, the wiring is very simple.

If the actual flow temperature is below the set flow temperature, the heater 5 is started and the circulation pump 1 is switched to continuous operation until the set flow temperature is exceeded.

If this is the case, the heater 5 is switched off. The circulation pump 1 runs on for a certain time and is then switched off for a certain time and subsequently operated in a clocked mode. The circulating pump 1 is expediently operated in a cycle of 2 to 10 minutes, preferably 6 minutes, the breaks and operating times being the same length. This clock is specified by the timer 12 of the controller 4 .

This intermittent operation of the circulation pump 1 is maintained until the actual flow temperature has dropped below the desired flow temperature.

This operation results in a relatively low switching frequency of the heater.

Claims (2)

1. Heating system with a primary heat exchanger ( 8 ) having one of the heat demand control ( 4 ) controlled heater ( 5 ), which primary heat exchanger ( 8 ) via a flow line ( 9 ) and a return line ( 10 ) with a Radiator arrangement ( 6 ) is connected, a bypass line ( 13 ) being provided parallel to the primary heat exchanger ( 8 ) and in the lines ( 9 , 10 ) a circulation pump ( 1 ) being arranged by the control ( 4 ) is controlled, characterized in that between the connections of the bypass line ( 13 ) and the radiator arrangement ( 6 ) in the flow and return lines ( 9 , 10 ) a temperature sensor ( 3 , 2 ) is arranged, which with the control ( 4 ) are connected, which comprises a timer ( 12 ) and from the temperature detected in the return line ( 10 ) determines a desired flow temperature according to a predetermined algorithm and if the desired flow is exceeded temperature stops the heater ( 5 ) and switches the circulation pump ( 1 ) on and off at specified intervals. 2. Heating system according to claim 1, characterized in that the controller ( 4 ) is connected to an outside temperature sensor ( 7 ).