SE430919B - Heating system with at least two heat sources - Google Patents

Abstract

A heating plant with a primary heat source 10 having a relatively low or varying maximum temperature, and a secondary heat source 11 having a constant, higher temperature. The primary heat source 10 is coupled ahead of the secondary one 11 in the direction of flow of the heat-carrying medium, and has a by-pass valve 14 coupled in series with the by-pass valve 15 of the secondary heat source 11. A differential thermostat 33, 34 compares the temperature of the return medium flowing to the primary heat source 10, to the temperature of the primary heat source 10, and is adapted to by-pass the primary heat source when the former temperature exceeds the latter. The heat sources 10, 11 also have service water heaters 12, 13 coupled in series, with the heater 12 of the primary heat source 10 coupled to the cold-water inlet 16. <IMAGE>

Description

15 20 25 30 35 8pß386351 '' 2 the temperature of the flowing medium, partly the temperature of the primary heat source to influence the shunt valve of the primary heat source to bypass_of this heat source, when the former temperature_ exceeds the latter, and that the two heat sources have series added water heater, with the primary heat source heater connected to the cold water outlet. The invention will be described in more detail below with reference to the accompanying drawing, which shows an embodiment in the form of a wiring diagram.

The drawing shows a heating system for residential heating. 10 denotes a heat pump which is of conventional design and therefore will not be described in more detail here. Med_ll denotes an ordinary, eg oil-fired, boiler. The heat pump 10 constitutes the primary heat source while the oil boiler II forms the secondary heat source, which is intended to supply additional heat to the plant at low outdoor temperatures. The heat pump 10 has a water heater l2_and the oil boiler ll a hot water heater l3._ïil1 the heat pump is further connected a motor-driven three-way shunt valve l4 and correspondingly a motor-driven four-way shunt valve 15 is connected to the boiler ll. to a cold water line 16 and by means of a line 17 connected to the oil boiler 11's water heater 13. From this hot water is taken out via a hot water line 18 with valve 21.

The two heat sources 10, 11l Water heaters are thus connected in series, so that incoming cold water is always preheated before it reaches the oil boiler ll water heater in cases where a hot water temperature is desired in excess of the heat pump's maximum temperature 55 ° C. By means of a bypass line 19 and a valve 20, as can be seen from the drawing, the oil boiler 11 can be bypassed when the temperature of 55 ° C is sufficient and the boiler 11 is not in operation. For space heating, radiators connected in a conventional manner are used, as shown at 22, which are connected to the two heat sources 10 and 11 by means of a line system 23, 24, 25, 26 and 27. The heat-carrying medium consists of water which is circulated in the direction indicated by arrow heads by means of a circulation pump 30. An expansion vessel 28 is connected by means of a line 29 to the two heat sources 10, 11. The system has a flow sensor 31 and an outdoor thermostat 32 as well as a differential thermostat, which consists of a thermostat 33, which senses the temperature of the return water, and a thermostat 34, which senses the temperature of the heat pump. All thermostats are connected by lines, which are indicated by dashed lines, to a control center 35, which is connected to the drive motors of the shunt valves 14, 15.

The described heating system works in the following way. It is assumed that the thermostats 31 and 32 detect an increased heating need due to falling outside temperature, whereby the shunt valve 15 receives an opening signal from the control center 35. The boiler 11 then starts and begins to heat the incoming water, which via the line 23 and the circulation pump 30 the radiators 22 are supplied so that from there by means of the line 24, 25 the heat pump 10 is supplied for heating and via the shunt valve 14 the shunt valve 15 is again supplied for further heating in the boiler 11. This presupposes a return water temperature below about 55 ° C. When the return water temperature in line 24 due to further falling temperature and consequent further water heating by means of boiler 11 begins to approach the heat pump's maximum temperature 55 ° C, the shunt valve 14 also approaches its fully open position and at approx. 55 ° C the shunt valve reaches 14 the end position, in which an end position switch is actuated, whereby the heat pump 10 is disconnected from the room heating circuit and the shunting function is transferred to the shunt valve 15. The comparison between the temperature of the return water in line 24 and the temperature of the heat pump 10 is made by the thermostats is connected to the control center 35. After this switching of the shunt valve 14, the heat pump IG is used only for heating hot water and does not participate in the room heating, whereby the initially mentioned, unfavorable heating means of unfavorable heating. the oil boiler ll be avoided. With rising outdoor temperature and consequent reduced heat demand, the shunt valve 15 begins to close and when the return water temperature in line 24 is again below 55 ° C, the heat pump is switched on again by means of the shunt valve 14.-When the temperature has risen to such an extent that the shunt valve has reached its end position is also affected in this an end position switch, which returns the shunting function to the ~ shunt valve1l4.

From the above it appears that no unfavorable, undesirable heating of the heat pump takes place by means of the plant according to the invention, which therefore entails a maximum utilization of the described, combined plant. In the drawing, the primary heat source 10 is in the form of a heat pump, but this heat source 10 can of course also consist of other heat sources with either a low and / or varying maximum temperature, for example a solar collector system. Of course, several heat sources 10 of this kind can also be connected in the system with series-connected shunt valves. The boiler 11 does not have to be an oil boiler either, but can consist of an electrically or gas-heatable boiler.

Claims (2)

10 15 20 25 30 8003863-1 PATENT REQUIREMENTS A heating system with at least one primary heat source (10) with a relatively low or varying maximum temperature, eg heat pump, solar collector, solid fuel boiler, etc., and a secondary heat source (II) connected to the primary heat source in the flow direction of a constant maximum temperature, exceeding the maximum temperature of the primary heat source (10), a heating system (22-25) connected to the heat sources (10, 11), for example with radiators (22), to circulate the heat-carrying medium for heating purposes, a thermostat arrangement (31-34) and connected to this control device, characterized in that the heat sources (10, 11) have series-connected shunt valves (14 and 15, respectively), that a differential thermostat (33, 34) is arranged to sense partly that of the primary heat source (10). the temperature of the flowing medium, and on the other hand the temperature of the primary heat source (10) for influencing the shunt valve (14) of the primary heat source (10) to bypass this heat source (10), when the first the temperature exceeds the latter, and that the two heat sources (10, 11) have series-connected hot water heaters (12 and 13, respectively) with the primary heat source (10) heater (12) connected to the cold water outlet (16). 2. A heating system according to claim 1, characterized in that the shunt valve (14) of the primary heat source (10) has an end position switch in its fully open end position, which upon actuation transfers the shunting function to only the secondary heat source (10). ll) the shunt valve (15) and that the shunt valve (15) of the secondary heat source (ll) has an end position switch in its fully closed position, which upon actuation transfers the shunting function to only the shunt valve (14) of the primary heat source (10).