FI96796B - Heating system with circulating liquid and pump - Google Patents

Abstract

The invention relates to a heating system with circulating liquid and a pump, the inlet flow and circulation of the heating liquid being controlled by the pressure differential that is produced by the thermostatic valves 6. The pressure differential directly controls the circulating pump 5 and feed pump 4, which have different functional characteristics. The said pumps can be assembled so that they operate on the same shaft, or so that they have a double-sided impeller. <IMAGE>

Description

96796

Liquid circulating heating system and pump

The invention relates to a liquid circulating heating system and a pump. The heating system 5 and the pump according to the invention are used in connection with a normal water circulating central heating system or, for example, a hot oil system comprising a boiler, flow return pipes, a pump, actuators with thermostatic valves, radiators or underfloor heating network 10 and a non-return valve.

The oldest way to regulate the water circulation of a water central heating network is a system based on the difference in water temperature, in which no circulation pumps have been used at all. However, the current buildings are designed in such a way that a circulating circulation of the radiator network is not possible, but circulating water pumps are used in the heating systems. The use of a circulating water pump naturally reduces the coil size of the piping and the traction of the piping is simpler.

The most conventional water temperature control system used in the cycle of the radiator network has been the so-called three-way valve system. The three-way valve controls the recirculated water in the radiator network and the hot water coming from the boiler. Such a system normally comprises a circulating water pump, but can also be equipped with two separate pumps for water recirculation and a boiler.

The control of the three-way valve itself and the impulses for its adjustment can in principle be implemented in many ways. One of the most complete embodiments is, of course, to measure the temperature of the water entering the radiators 30 and the temperature of the water leaving the radiators, as well as the room temperature and the outside air temperature, and to adjust and determine the required position for the three-way valve. Consideration of the reasons for energy savings as well as the factors that improve the life of the boiler and prevent corrosion easily leads to a rather complex control system, which increases the cost of the heating system.

Various hot water heating systems or the like with the aim of abandoning the three-way valve have been developed and researched to some extent. One such solution is disclosed in Swiss patent publication CH 536 465, according to which in a heating system the radiator circuit is provided with a hot water pump from the boiler and a recirculation pump controlled by a separate control system measuring the temperature of the water entering and returning to the boiler. The actual adjustment is performed by changing the speed of the pumps.

Known control systems used to control the radiator network are often quite valuable and are not very well suited for smaller applications such as own-15 home or terraced type heating systems. Also, the control systems currently in use do not respond very well to heating systems that use separate radiator-specific control by means of thermostatic valves. For example, a system that considers the outside air temperature is insensitive in cases where one or more rooms are temporarily set to a significantly lower temperature than the normal room temperature. The liquid circulating heating system and the pump according to the invention achieve sufficient control characteristics which take full account of the control of the radiator-specific thermostats.

The invention is based on the fact that the supply and circulation pumps of the radiator network have different characteristics, whereby the pressure difference caused by the thermostatic valves controls the flow rate through the pumps and thereby achieves sufficient control for the heating circuit. Specifically, the liquid circulating heating system and pump according to the invention are characterized by what is set forth in the characterizing part of claim 1. The invention provides significant advantages over conventional systems. The liquid circulating heating system and the pump according to the invention can be applied to a conventional hot water radiator heating system, a hot oil heating system or similar systems. The actual heating can take place by means of a radiator or floor network or air heating. The system according to the invention does not require circulating water or boiler feed water control valves. Room-specific or radiator-specific thermostatic valves control the heating devices. Since the control is based on the pressure difference in the network, the control event is always real-time and it is not necessary to take into account the possible delay caused by the change in the outdoor temperature at the temperature of the radiator network. The pump according to the invention can be implemented in such a way that the feed pump of the radiator network and the circulating water pump are connected to the same electric motor on the same shaft and only the lifting heights and flow curves of the pumps differ from each other. The system according to the invention also takes into account the requirements caused by the corrosion of the boiler-20 space, and at the design stage of the system the boiler return water temperature can be determined in all conditions.

In the following, the invention will be explained in more detail with reference to the accompanying drawings.

Figure 1 shows a piping connection according to the invention.

Figure 2 shows the pressure / flow curves of the feed water and circulating water pump.

In Figure 1, the boiler is marked with the number 1, the patte-30 line supply pipe from the boiler with the number 2 and the return pipe with the number 3. The supply water pump is marked with the number 4 and the circulating water pump with the number 5. Thermostatic valves are marked with the number 6 and user devices such as radiators The circulating water pipe between 35 is marked with the number 8 96796 4 and the non-return valve in the boiler return pipe with the number 9.

In the liquid circulating heating system connection according to Fig. 1, the feed water pump 4 pumps hot water from the boiler 5 and the circulating water pump 5 circulates the cooled return water to the radiator network 7. The temperature and volume of the water coming from the supply water pipe 2 and the circulating water pipe 8 determines the flow. Pumps 4 and 5 operate in the heating system according to the invention like a three-way valve. The non-return valve 9 in the return pipe 3 prevents the flow in the boiler and piping in the wrong direction. The thermostatic valves 6 regulate the flow of water to the radiator network 7 according to the needs of the house and the radiator or room, 15 whereby the pressure difference across the radiator network and at the same time also of both pumps 4 and 5 changes. The pressure difference increases as the heating demand decreases and the thermostatic valves close. The flow of pumps 4 and 5 changes as the pressure difference changes. Pumps 4 and 5 are dimensioned so that pump 4 has a high output but a low head. Pump 5, on the other hand, has a low output but a high head. The pressure / flow curves of the pumps are shown in Figure 2, where curve 1 shows the operating curve of pump 4 and curve 2 shows the operating curve of pump 5. In the horizontal plane, the pressure difference p and in the vertical direction the flow rate q are shown. In order to make the control system according to the invention simple and easy to implement in practice, the pumps used are manufactured for the same shaft and for use by the same motor.

When the heating demand is high, the thermos-30 safety valves cause a small pressure difference, whereby the pump 4 pumps a lot of hot water to the network from the boiler 1. The flow of the pump 5 is considerably lower, so very hot water flows to the radiators. When the thermostatic valves 6 begin to close, the flow of both pumps 4 and 5 decreases, but the flow of pump 4 decreases considerably faster, so that the temperature of the water flowing to the radiators decreases. When the pressure difference grows high enough, the flow through the boiler 1 ceases completely and the water flowing to the radiators 7 no longer heats up. In the solution according to the invention, the temperature of the water 5 flowing into the radiator network becomes regulated completely in accordance with the temperature need without any control valves.

The liquid circulating heating system and pump according to the invention can, of course, also be implemented in a different manner than shown in the embodiment according to the present application. The position of the pump 4 can be changed so that it is in the return pipe 3, whereby the temperature at which the pump has to operate decreases substantially. Piping resistors and flow conditions across the network can also be affected by fixed throttle flanges, manual control valves or the like. With the manual valves of radiators or the like, the basic adjustment of the heating devices can be performed. The above measures can reduce the range of pumps used in the system, as the conditions of the applications vary considerably depending on the buildings and the heat demand.

Claims (4)

A liquid circulation based heating system and a pump which are used for circulation and control of liquids which are heated by a water central heating or equivalent based on an element or equivalent, and comprising a boiler (1), a pipe system (2, 3, 8), pumps (4, 5), elements (7) or equivalent and thermostat valves (6), characterized in that the supply water pump (4) is controlled by the pressure difference caused by the thermostat valves or the like. and the operation of the circulation water pump (5), and said control is based on the different pump power and boost height values of said pumps (4, 5). Liquid circulation heating system according to claim 1, characterized in that the feed water pump (4) and the circulation water pump (5) function as a three-way valve and regulate the water which is supplied to the elements (7). 3. A liquid circulation heating system according to claim 1, characterized in that the system has a heating device or known per se separate thermostat valves in each room, and a rear valve in the return pipe (3). 4. Pump according to claim 1, characterized in that the feed pump (4) and the circulation pump (5) are arranged on the same shaft and are driven by a common drive device, or the rotor of said pump is double-driven and forms the feed pump. and the circulation pump (4, 5).