DE3330478A1 - Heating plant with an electrically heatable heat storage tank - Google Patents

Abstract

A storage container (1) is heated in case of need, during possible boosting times, with high tariff current. The supply of this expensive energy is started by a switch (6) which is closed and opened in dependence on the position of the mixer (3). When the temperature in the storage container (1) has fallen nearly to the required forward flow temperature, the displacement rod (15) of the mixer is located in or near an end position and closes the switch (6), so that the load contactor (7) is closed and the supply of energy begins. When the temperature in the storage container has again exceeded the required forward flow temperature by a predetermined amount, the displacement rod (15) will have moved so far that the switch (6) is opened again and hence the supply of expensive current is interrupted. The control by means of the mixer (3) has the advantage that all the parameters which are relevant to the extent of the boosting are taken into account with a simple circuit. <IMAGE>

Description

Description:

The invention relates to a heating system with an electrically heatable heat accumulator in the form of a storage container for hot water, a mixer for mixing hot water taken from the storage tank with Cold water arriving via the return line of the heating system and with a control unit to control the heating of the storage tank according to the charging times set by the electricity supplier.

In heating systems of this type, the heat accumulator is heated up with cheaper electricity during TO times of low utilization of the electricity generator, i.e. mainly during the night. The heat generated and stored in this way for the coming day is fed to the rooms to be heated in the form of hot water for heating purposes. The temperature of the heating water is set using a mixer as in any normal boiler system.

The amount of energy to be introduced into the storage container is determined by the outside temperature via a special charging control device determined and depends on the outside temperature during the night and the temperature that is still present Residual heat in the hot water tank. When there is a large energy demand, the contents of the storage tank are brought to a higher temperature than with lower energy requirements.

In order to be able to keep the electrical connection values as low as possible, many power generators go over to this, even during of the day, i.e. during the heating time, to provide recharging times for the heat storage tank. The electricity price for energy supplied during such recharging times generally much higher than the nightly electricity price. Often the normal daily rate has to be paid. In order to save the proportion of the fuel to be fed in during recharging To keep energy as low as possible, heat accumulators were created, except for one at the bottom of the container arranged heating device have a second heating device which is arranged higher than the lower heating device. The upper heating device is switched on during the reloading time, so that only part of the total

T5 stop of the hot water storage tank is heated up. Even those partially Charging with the upper heating device can within certain limits via the charging control device already mentioned can also be influenced.

When the end of the reload time is close to or until the beginning of the time in which the cheaper electricity is supplied becomes, which is usually the case when the reloading time is in the late afternoon, it occurs in the Practice again and again that, despite the charging control, too much expensive energy is fed in and then the low tariff period is only partially used during the night. This results in cost disadvantages for the operator of the Plant, since the operating costs are increased by an unnecessarily high consumption of expensive electricity.

The invention is based on the object of designing a heating insert of the type mentioned at the outset in such a way that consumption of energy that is supplied for recharging at a high tariff, i.e. generally during the day, if possible is low.

This object is achieved according to the invention in that for the activation of the electrical heating during after-

Charging times with high electricity tariff depending on the position the mixer actuatable switch is provided.

As long as the water in the storage tank has a temperature that is higher than that depending on the outside temperature controlled flow temperature of the heating system, the mixer is in any middle position between "open" and "To". A certain part of hot water from the storage tank is made up with a certain part of return water mixed with the heating system to achieve the required temperature and fed back to the heating system via a circulation pump. As the storage tank temperature falls, the mixer opens increasingly in the sense that the proportion of the water flowing in from the storage tank increases; accordingly the Flow of cooled heating water throttled. If the temperature in the storage tank is the same as the required flow temperature for the heating system, the mixer is fully open. Here, for example, there is a lifting rod between the mixer drive motor and the mixing valve moved to an end position. At this point, the switch is operated, which triggers the recharge. By lowering the mixer for reloading, all • Factors of the heating system taken into account in a simple way. The recharging is therefore dependent on the outside temperature and also processes heat gains, e.g. from solar radiation arise in individual rooms, in which there are, for example, thermostatic valves, which are exposed to sunlight close so that the return water from the heating system is relatively warm. Such heat gains are made by conventional charging controls that only measure the outside temperature and record the temperature in the storage tank, not taken into account. By the invention one can in general omit the upper heater, which saves construction costs.

The adjustability of the switch specified in claims 3 and 4 allows the optimal setting in a simple manner

the reload control. Even with mixers that only need rotary movements are carried out, a corresponding adjustability of the switch could be provided.

If the conditions of the electricity supplier are such that there is a conflict the end of the recharging time with a high electricity tariff and between the start of the main charging time with a low electricity tariff If there is no longer period of time, it is advantageous to provide an upper heating rod according to claim 5. This will continue saved in expensive electricity, but at a lower price higher construction costs.

According to claim 2, the principle of the invention can also be used in a heating system with an electrically heatable heat store made of solid material, a fan for conveying air through the solid material and a heat exchanger, in which the air warmed up on the solid material generates heat Releases heating water, regulating the flow rate of the fan depending on the temperature of the solid material is, in particular by changing the speed of the fan, and with a control unit to control the heating of the Heat storage according to the charging times set by the electricity supplier. When applying the principle of invention The invention provides for such heating systems that the electrical heating is switched on during recharging times With a high electricity tariff, a switch that can be actuated depending on the flow rate of the blower is provided.

Since the flow rate of the blower as well as the position of a mixer depends on the outside temperature and is controlled as a function of the temperature of the solid heat storage material, the fan is as a plant element that is analogous to a mixer. It also gains the same advantages that are related

have been described with a system that has a hot water tank as a heat storage device.

Exemplary embodiments of the invention are shown in the drawing. Show it:

Fig. 1 is a schematic representation of a heating system

with a hot water tank as heat storage, with an electric heater only at the bottom of the storage tank is arranged

Fig. 2 is a corresponding schematic representation of a system, in which, however, additionally in

A further heating device is arranged in the upper part of the heat accumulator and

3 shows a system detail in the area of the dash-dotted circles III in FIGS. 1 and 2.

The heating system has a storage tank 1 which is surrounded by thermal insulation (not shown). On the ground of the storage container 1 is a return line 12 for cooled Water and on the ceiling of the storage tank a feed line 13 for hot, from the storage tank 1 connected water to be withdrawn. The flow line 13 leads to a mixer 3 also a branch 12 "of the return line 12 is connected, Furthermore, a flow line 14 through which the heating system, e.g. all radiators in a house, with warm water are supplied. The water is transported by means of a circulation pump 4. All radiators to be supplied are shown symbolically at 5.

The mixer 3 is operated by means of an electric mixer drive motor M driven, with the purpose of adjusting the

Mixer 3 an adjusting rod 15 is moved. When the control rod 15 is in its uppermost position, is the mixer 3 is fully open, i.e. everything that is fed into the line 14 must flow in via the line 13. In the lowest position of the control rod 15, the inflow via the flow line 13 is completely closed, while the inflow for branch 12 'is fully open.

A switching cam 16 for actuating a limit switch 6 is seated on the actuating rod 15. This arrangement is shown in FIG Fig. 3 shown in detail. The switching cam 16 is located on a sleeve 17 which is displaceable along the actuating rod 15 and can be locked in any displacement position by means of a clamping screw 18. The switch cam 16 interacts with a feeler roller 19 of the limit switch 6.

The switch 6 can connect the two lines 20, 21 to one another. The line 2 0 is connected to a switching device 9, with which the supply of expensive daytime power is released, which is symbolized by the designation R. is. The line 21 acts on a charging contactor 7, which has a three-pole three-phase switch 22 with the. Clamps R, S, T actuated. As a result, an electrical heating element 2 is supplied with energy. This heating element has one built into it Inside of the container protruding heating element 23.

Another switching device 8 is responsible for supplying the heating element 2 with cheap night-time electricity, which is due to the label R ^ is indicated symbolically.

The system works as follows. If there is still enough heat stored in the contents of the storage container 1, i. if the water temperature there is higher than the flow temperature required in line 14, the is located

Mixer 3 in a position that is between "open" and "closed" is, with the switch 6 is open, as Fig. 1 shows. As the water in the storage tank cools down 1, the mixer continues to open, with the switching cam 16 approaching the limit switch 6. In the fully open position or a little earlier, the switch 6 is closed and thereby the heating of the storage contents are initiated with expensive daytime electricity. After a certain amount of heating, the branch line will be used again 12 'return water mixed in, for what purpose the control rod 15 is moved downwards and the switch 6 finally opens again. Only then will it be expensive daytime electricity fed back in when the water contained in the storage tank 1 either approximately or completely to the necessary Flow temperature has cooled down. The required level of the flow temperature is determined in a known manner by a sensor, the outside temperature and thus the respective Determines heating requirement. However, with expensive daytime electricity, the storage contents are usually only a few degrees of temperature Increase the flow temperature above the required flow temperature in order to avoid that a larger excess heat in the storage tank 1 is contained.

If between the time of day in which a reload at all is permissible with regard to the network load and the time from which cheap night-time electricity is used for charging, If there is a longer period of time, at the end of the possible reloading time, enough energy must be in the storage container have been introduced. This can be achieved, for example, by setting the switch cam accordingly. Ever the greater the excess heat, the earlier the switch 6 must close.

In the system according to FIG. 2, in addition to the heating element 2 arranged at the bottom in the storage container 1, an upper heating element

Heating element 11 is provided, which also has a heating rod 24 having. In the case shown, the heating rod 24 is arranged approximately below the upper fifth of the storage container 1 and will therefore essentially only heat up this upper fifth.

The upper heating element 11 is used exclusively for supply of the storage container 1 with expensive daytime electricity, the connection and disconnection in the same way by means of the switch takes place via a charging contactor 10, as has already been described in connection with FIG. 1. The lower heating element with its heating rod 23 is only charged with cheap electricity, controlled by a switching device 8, which is connected to the Charging contactor 7 acts.

The additional, above arranged heating rod 24 has the advantage that only a small part of the expensive daytime electricity Container contents must be heated. This is particularly advantageous if between the end of the reloading time and there is only a short time lag between the start of the main charging time with cheap night-time electricity. Namely in these cases If only one heating element is arranged, it is unavoidable that a certain amount of energy is left over, if the favorable one Charging time with cheap electricity begins. For safety reasons, the temperature in the memory 1 must be at least a few Temperature degrees are above the required flow temperature.

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Claims (5)

Patent attorneys * :: "::" .- * "-" - " .: '.. ":"''' .S "- .. * '~ - ^: \ ^.: 6300 Lahn-Giessen 1 23.8.1: Dipl.-Ing.Richard Schlee * 3 * 3 *} Π Λ 7 8 Bismarckstrasse 43 ^Hb λ? s? OUH / Q Telephone: (0641) 71019 Dipl.-Ing. Arne Missling S / B 14.693 Peter Nied KG ₇ 6340 Dillenburg / Hessen Heating system with an electrically heatable storage tank Claims: / 1 .1 Heating system with an electrically heatable heat storage tank in the form of a storage tank for hot water, a mixer for mixing the hot water taken from the storage tank with cold water arriving via the return line of the heating system and with a control device for controlling the heating of the storage tank in accordance with the Charging times fixed for electricity suppliers, characterized in that a switch (6) which can be actuated depending on the position of the mixer (3) is provided for switching on the electric heater (2; 11) during recharging times with a high electricity tariff. 2. Heating system with an electrically heatable heat accumulator made of solid material, a fan for the promotion of air through the solid material and a heat Exchanger in which the air warmed up on the solid material gives off heat to the heating water, whereby the flow rate of the fan is regulated depending on the temperature of the solid material, in particular by changing the speed, and with a control device to control the heating of the heat storage tank according to the set by the electricity supplier Charging times, characterized in that for switching on the electrical heating during recharging times With a high electricity tariff, a switch that can be actuated depending on the flow rate of the blower is provided. 3. Heating system according to claim 1, characterized in that to enable the selection of the mixer position in which the Switch (6) is actuated, the switch (6) and / or the switch actuating means (16) are adjustable. 4. Heating system according to claim 3, characterized in that the mixer (3) has a displaceable rod (14), whose displacement position depends on the opening state of the mixer (3) and that a switch actuating cam is on the rod (15) (16) can be moved and in any ^ ^u coverings can be clamped. 5. Heating system according to one of claims 1,3 and 4, characterized in that in the storage container (1) except for one whose lower end arranged heating element (2, 23) a further upper heating element (11, 24) is arranged over which is preferably less than 1/3 of the storage volume (Fig. 2).