DE20120156U1 - Control device for hot water circulation pumps - Google Patents

Description

Control device for hot water circulation pumps

The invention relates to a control device for circulation pumps in domestic water circulation systems, preferably in heating systems.

This control device is preferably used for hot water supply systems in single and two-family houses for new installations or for retrofitting existing systems.

When it comes to hot water systems in single and two-family homes, it is generally known that conventional circulation systems circulate the water heated in the hot water tank either permanently or at intervals selected using a timer. Both systems have significant disadvantages. In the first case, the water is cooled by the unnecessary circulation and enormous heat losses occur. In the timer-controlled system, the heated water is only circulated at the specified times, regardless of whether there is a need for hot water or not.

According to DE 195 28 340, an arrangement for controlling a hot water supply system is known in which, when a water tap is opened at a tapping point, a three-way valve is switched from the outlet direction to circulation and a circulation system is set until a certain temperature is registered in the flow. The three-way valve switches to the outlet direction and the circulation system is switched off.

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A triangular valve is installed in each of the supply, return and extraction lines, with information about temperatures and water flow being transmitted to a control unit via pressure gauges and temperature sensors.

The disadvantage of this arrangement is the complex installation of the three-way valves in the piping system and the relatively complicated control unit.

Another demand-based control device according to DE-GM 297 18 350 consists of a flow switch, a control for the circulation pump and a shut-off valve, which are also built into the pipe system.

The circulation pump is switched on and off as required, thereby influencing the corresponding gravity circulation. When water is removed, a signal from the flow switch via the control system switches on the circulation pump and simultaneously opens the shut-off valve.

Using an adjustable timer, the circulation pump is switched off again after a certain time and the shut-off valve is closed. This control is also mainly used for new installations if flow switches, shut-off valves and controls are installed at the same time as the piping system. The system is less suitable for retrofitting existing systems.

Furthermore, according to patent specification DE 195 16 941, a device and a method for controlling the delivery of domestic water are known, whereby several domestic water taps are connected to a heatable domestic water tank with fresh water supply and the domestic water circuit has one or two temperature sensors, a control circuit and a pump. In the event of a temperature change, however, the pump is only

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switched on if a certain limit temperature at the temperature sensor of the domestic water pipe is not undercut.

If an additional temperature sensor is installed in the return line, the pump will switch off automatically when a preselectable temperature value is reached.

The disadvantage of this device is that the control circuit is complicated, operates with a predetermined time period and has no maintenance control of the circuit.

The object of the invention is to develop a control device for the demand-based provision of hot water at all taps in a single- or two-family house, which, as an independent structural unit, controls the switching on and off of the circulation pump only when water is drawn from a hot water tap depending on the water temperature in the installation circuit and ensures independent maintenance.

According to the invention, the control device for hot water circulation pumps is characterized in that it consists of a controller, preferably a control computer, which is connected to a temperature sensor on the hot water line of the system and to a temperature sensor on the circulation line. The controller is designed as a temperature difference control and has components, preferably selector switches, for setting a maintenance run or certain temperature differences for branch water extraction, these temperature differences being measured by the temperature sensors with respect to the hot water temperatures.

Optionally, a maintenance run can be activated at set time intervals via the selector switch on the controller, for example to counteract the formation of germs (legionella or others) during a longer absence and to kill them at certain water temperatures.

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The controller is also equipped with a relay for switching the circulation pump on and off, as well as a power supply unit, which are preferably installed in a plug-in housing. The control device is therefore an independent component suitable for retrofitting existing heating systems.

The control device according to the invention saves considerable amounts of energy and also reduces operating costs. In particular, water, electrical energy and fuel (gas, oil, electricity) are saved to a considerable extent. Hot water is available at every tap, and cold water no longer needs to be drained. The running times of the circulation pump are significantly reduced because the circulation only runs when there is a real need for hot water. Less additional heating is required to keep the temperature in the storage tank at the same level.

The control system according to the invention is designed for single- and two-family houses in which the control of the circulation pump has previously been implemented by a timer.
It can be used for both new installations and for retrofitting. The decisive advantage over a timer is that the circulation pump only circulates hot water at times when it is actually needed, ie when water is drawn from a hot water tap. The circulation run times are optimized.

The invention is explained below using exemplary embodiments.

Show it:

Fig. 1: the installation of the control device in the hot water circulation

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tion system in schematic representation,
Fig. 2: the structure of the control device in block diagram,

The control device consists of the controller 4, preferably a control computer 4 with the temperature sensors 1 and 2, preferably temperature sensors 1 and 2 with a short response time. These are attached to the hot water pipe 7 and to the circulation pipe 8 and, depending on the pipe material used, are designed as contact sensors for metal pipes or as dew sensors for plastic pipes. The temperature sensor 1 is arranged just behind the hot water tank 6; the temperature sensor 2 is installed either just behind the last hot water tap D or in front of the circulation pump 3.
The controller 4 preferably has a temperature difference control 4/1, on which the temperature difference required to switch the relay 4/4 for the circulation pump 3 on or off, measured between temperature sensor 1 and temperature sensor 2, can be set. Depending on the measured temperature difference in comparison to the set temperature difference, a relay 4/4 will switch the circulation pump 3 on or off.

The controller 4 has a stabilized power supply 4/3, is installed in a connector housing 4/5 and is therefore suitable as an independent component for retrofitting existing heating systems and can be attached to the installation without great installation effort.

The temperature difference control 4/1 permanently compares the temperatures of sensors 1 and 2. By briefly activating (approx. 3 seconds) a hot water tap A-D, heated water flows from the hot water tank 6 in the direction of the tap and reaches sensor 1 after a time delay. The temperature at sensor 1 therefore increases in a short time.

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The temperature difference between sensor 1 and sensor 2 set in the controller 4/1 is exceeded, the relay 4/4 is activated, the circulation pump 3 is switched on and the circulation circuit is started. Since the circulation pump 3 is installed in the water return, the heated water from the upper part of the hot water tank 6 is pumped into the

Hot water pipe 7 is pressed and successively reaches the hot water taps AD, sensor 2, the circulation pump 3 and flows back into the storage tank 6 via the circulation pipe 8. The temperature at sensor 2 now also rises.
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If sensor 2 reaches the set temperature difference to sensor 1, controller 4/1 switches off circulation pump 3 via relay 4/4 and the circuit is interrupted.

Hot water is thus provided in hot water circuit 7, and it is possible to draw hot water both from the tap at which the demand has been registered and from all other hot water taps A-D.

Using a concrete embodiment, the functioning of the control device according to the invention in the entire hot water circulation system is explained again as follows:

1. Hot water is drawn from a tap A:
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The water in the hot water tank 6 has a temperature of TW = 55°C.

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Before opening the water tap at tap point A, a temperature of Tl = T2 = 23°C was measured at both temperature sensors 1 and 2.

The temperature difference set for switching the temperature difference control 4/1 is ΔT = 9° C.

After opening the water tap for 3 seconds, the temperature T 1 at temperature sensor 1 increases to 32° C after a delay of approx. 15 seconds, while the temperature T 2 remains at 23° C. The temperature difference ΔT = Tl - T2 corresponds to the set value of ΔT = 9° C, the circulation pump 3 switches on and the hot water circulation is started.

The temperature T 1 at temperature sensor 1 then increases to the maximum value T 1 = 55° C, the temperature T 2 also increases due to the water circulation at temperature sensor 2 and switches off the circulation pump 3 at a temperature difference of ΔT = 9° C (set difference value), i.e. at a measured value of T 2 = 46° C. The temperature T 2 at temperature sensor 2 increases further to a value of approx. 49° C.

2. Hot water is drawn from tap A after about 15 minutes:

Before opening the hot water tap at tap A, a temperature of Tl = 50° C was measured at temperature sensor 1 and a temperature of T 2 = 47° C was measured at temperature sensor 2.

The temperature difference ΔT set for switching the temperature difference control 4/1 remains 9° C.

The existing temperature difference ΔT between T1/T2 is ΔT = 3° C. After opening the water tap, the temperature at temperature sensor 1 increases to the maximum value of Tl= 55° C, the temperature T 2 remains at T 2 = 47° C.

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The temperature difference ΔT is now ΔT = 8° C. This value is lower than the set temperature difference value ΔT, the circulation pump 3 is not switched on because there is still enough hot water in the circulation system.

3. Hot water is drawn from tap A after about 30 minutes :

Before opening the water tap at tap A, a temperature T 1 = 41° C was measured at temperature sensor 1 and a temperature T 2 = 40° C was measured at temperature sensor 2.

The temperature difference ΔT set for switching the temperature difference control 4/1 remains at 9 ⁰ C.

The existing temperature difference ΔT between the measured temperatures Tl/T2 is 1° C.

After briefly opening the water tap, preferably 3 seconds, the temperature at temperature sensor 1 increases to T 1 = 49° C, the temperature difference Δ T to temperature sensor 2 is Δ T = 9° C. The circulation pump 3 is switched on. The temperature T 1 at temperature sensor 1 increases to the maximum value Tl = 55°C. When a temperature T 2 at temperature sensor 2 of T 2 = 46° C is reached, which corresponds to the set temperature difference Δ T = 9° C, the circulation pump 3 is switched off again.
Due to the higher initial temperatures of the water when drawing water from taps A...D, the pump running time is shortened compared to the first water draw.

The maintenance run of the power system is possible via a selector switch 4/2
adjustable. The water in the entire power system is
circulated until a temperature equalization between the

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Temperature sensor 1 of the hot water pipe and temperature sensor 2 of the circulation pipe.

A maintenance run of the entire pipe system is possible under the condition that the temperature of the hot water in the hot water tank 6 is high enough to kill any existing germs.

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LIST OF REFERENCE SYMBOLS

A-D 4/1 4/2 4/3 4/4 4/5 Tl T2 Δ�T TW Temperature sensor hot water pipe Temperature sensor circulation pipe Circulation pump Controller, preferably control computer Cold water inlet Hot water tank Hot water pipe Circulation pipe Hot water tap Temperature difference control

adjustable control element, preferably selector switch

power adapter

relay

Plug housing Temperature at temperature sensor Temperature at temperature sensor Temperature difference Temperature hot water tank

Claims (3)

1. Control device for hot water circulation pumps in domestic water heating systems, consisting of a hot water tank, a circulation pump, a temperature sensor on the hot water pipe with taps and on the circulation pipe and a control element, characterized in that - that the control element is designed as a regulator ( 4 ) , preferably as a control computer ( 4 ) with a temperature difference control ( 4/1 ) for measuring and controlling certain temperature differences between the temperature sensor ( 1 ) arranged on the hot water pipe ( 7 ) and the temperature sensor ( 2 ) arranged on the circulation pipe ( 8 ) and with an adjustable control element ( 4 ; 2 ), has a relay ( 4/4 ) for switching the circulation pump (3) on and off and a power supply unit (4/3), is housed in a plug housing (4/5 ) and represents an independent component. 2. Control device according to claim 1, characterized in - that the adjustable control element ( 4 / 2 ) of the control computer ( 4 ) for setting certain temperature differences between the temperature sensors ( 1 ; 2 ) in the extraction circuit or for setting the maintenance run is preferably designed as a selector switch ( 4 / 2 ). 3. Control device according to claim 1, characterized in - that the temperature sensors ( 1 ; 2 ) are preferably designed as temperature sensors.