NL193621C - Control device for controlling individual elements of a heating system. - Google Patents

Abstract

Each plug-in module is provided with an identifier supplied with a set voltage. All modules are connected via separate lines to an analog multiplexer unit coupled via an A/D converter to the computing unit. Each module has its own analog multiplexer unit. Each module has a series circuit of two resistors acting as identifier and lying between ground and a voltage source. The junction between the two resistors is coupled via a line to one input of the multiplexer unit. Each multiplexer unit has inputs for system parts and/or circuit components.

Description

1 193621

Control device for controlling individual elements of a heating system

The invention relates to a control device for controlling individual elements of a heating installation, such as burners, mixing devices, circulation pumps, heat pumps and consumer water purifiers, which are controlled via pipes from a centrally operating digital computing unit, whereby plug-in modules are added to the elements.

It is already known from German Offenlegungsschrift DE 2.916.748 A1 to design a central control device with a large number of slots for individual modules, the modules being added to certain elements of the heating installation such as, for example, burners, mixers, heating curve adjusters, etc. certain and reproducible connection between the modules and the central control unit is required, it is hereby required to add a particular module to a particular insertion location. It follows that either a relatively large number of slots have to be kept ready, in order to satisfy the different needs for the choice of modules, which are generally never fully occupied, or it is impossible to expand or change the control device afterwards.

The object of the invention is to control the entire peripheral part of the control device with analog values in order to achieve trouble-free operation of the individual modules at arbitrary slots.

In order to achieve this object, it is ensured in a device of the above-mentioned type according to the invention that each plug-in module is assigned a characteristic with a specific analog voltage value and that all plug-in modules are connected via separate lines to an analog multiplex unit which is connected to its turn is connected to the computer via an analog / digital converter.

The invention is explained in more detail below with reference to the single drawing, in which an exemplary embodiment is shown.

The single figure shows a schematic of the entire control device including the periphery. A central control unit 1 is provided with a micro-calculation unit 2 and an analog / digital converter 4 connected thereto via an information line 3. This information line 3 serves both for the transfer of address and information parts and for control information.

The analog / digital converter is connected via a separate line 5 to an analog multiplex unit 6, from which a number of lines 7, 8, 9 ... lead to separate plug-in modules 10, 11, 12 .... Each plug-in module is connected via a separate line connected to the analog multiplexing unit 6, it is not important how many lines or plug-in modules are present. The individual plug-in modules are added to certain elements of the heating system. For example, the plug-in module 10 is added to a mixing valve, the plug-in module 11 to a burner, and the plug-in module 12 to a pump of the heating installation. Further additions could be: a heat pump in order to make the heating installation bivalent, or the addition of a cascade control in order to be able to control a multi-boiler installation or an addition to a consumer water generator.

40 The micro-calculation unit 2 is connected via a further information line 13 to a delivery location 14, which in turn is provided with three output lines 15. This number 3 depends on the maximum number of channels of the analog multiplex unit 23 and could also be larger or smaller. . Furthermore, a bundle of three lines 16 is provided, by means of which the output of the delivery point 14 is connected to the analog multiplex unit 6.

45 Each of the plug-in modules 10, 11, 12 ... is in principle designed differently and adapted to the respective application purpose. However, there is also the possibility to design plug-in modules for mutually different applications and only by adapting them to the desired application purpose by means of a mutually different identifier. This will be discussed further.

The plug-in module 10, which serves to control a mixing unit, first comprises a series circuit 50 of two resistors 17 and 18, which are connected to ground 19 on one side and to a voltage source 20 on the other side. a certain control voltage is present, which is connected via a line 22 to a further analog multiplex unit 23 added to each plug-in module. By suitable selection of the values of the two resistors 17 and 18 it is possible to connect a plug-in module for the different applications to each plug-in module. add certain voltage potential 55. The characteristic of each plug-in module therefore takes place by adding a separate analog voltage value. This makes it possible to insert the plug-in module, the voltage identifier of which identifies it as a mixing module, at any plug-in location of the 193621 2 control device 1 and by sensing the voltage value, the calculation unit 2 can then recognize that the determined voltage value the mixing module is added independently of a local installation.

Furthermore, the insertion module 10 is provided with a potentiometer 24, which is connected to ground 19 with one connection contact and which is connected to the voltage source 20 with its other connection contact. The setting element (sliding contact) 25 is connected via a line 26 to the multiplex unit 23. Depending on the position of the adjusting element (sliding contact) 25, a specific voltage value can be sensed with the potentiometer 24, if, for example, the hysteresis of the mixer position can be determined. Furthermore, the switching element 27 is arranged, which is connected to ground 19 on one side and is connected to a branch point 28 on the other side, which is connected on the one hand via a line 29 to the multiplex unit, and on the other hand via a resistor 30 to the pole of voltage source 20 is connected. By closing the switching element 27, the pole 28 arrives at a certain potential, namely the ground potential. When the switching element 27 is open, on the other hand, the point lies on the potential of the voltage source 20. Therefore, the multiplexing unit 23 could supply two separate voltage potentials via the line 29, which in the application case could mean, for example, which heating curve is just being scanned by the mixer or what temperatures occur in the mixer input and output lines. The switching element 27 can therefore provide a selectable indication of certain quantities.

The other plug-in modules, of which at least the designation is different, each have an identical construction. Here, too, the characteristic consists of a pair of resistors, the values 20 of which differ from those of the resistors 17 and 18, so that each plug-in module on its lead 22 carries a voltage values which deviate from all other values. Decisive for the design of the mixer module is the possibility of setting certain quantities and indicating certain quantities.

Furthermore, it is possible to add control elements to the individual plug-in modules, for example relays, in order to be able to carry out further control commands to the elements added to the modules by means of lines going from the plug-in modules and not shown in more detail. For example, with plug-in module 10 it would be possible to mount two relays on the plug-in module in order to permit a clockwise or counterclockwise rotation of the valve mixer.

The bundle of conduits 15 is each connected via a three-core branch 31 to the multiplex unit 23 and via a further branch 31 to the respective other multiplex units 23 of the other plug-in modules 11, 12, etc.

The operation of the described control device is as follows. The control device 1 is to be able to be added to any possible pre-fixed heating installation with or without utility water preparation, with or without heat pumps and with or without underfloor heating 35 in order to allow optimal operation, not only with regard to predetermined reference temperatures, but also with regard to the times. For example, it makes sense to only charge a utility water generator at specific times, namely when it is likely to be expected after a short period of time afterwards to extract hot utility water and to block charging if presumably no utility water is needed at all for a longer period of time. is going to be. It is also expedient to operate the heating system at night with a lower flow temperature than during the day, while also decreasing and high-level operating times occur during the day hours. For a couple's home, both of whom work, such a program will look different than for a home occupied by a family with several children who are constantly present.

Accordingly, when the control device is added to a heating installation, 45 the selection of the plug-in modules must be made. Each device of the heating installation to be controlled is provided with a plug-in module and, for example, five plug-in slots are arranged in the control device. If this number of plug-in module places is not sufficient, the elements of the heating system to be controlled can be appreciated and the main five places can be selected. As a rule, this will be the burner of the heating system, the drinking water generator and the 50 heating curve setting. The modules are labeled so that the user can see to which element of the heating installation the modules have been added and they furthermore have the voltage means already described on the basis of the mutually different resistance values of the resistors 17 and 18. The plug-in modules are arbitrarily the insertion points, whereby the bundle of lines 31 and the lines 7, 8, 9 etc. are connected to each other through the intervention of 55 new plugs. The control device is hereby ready for operation when connected to the mains voltage. It should also be noted that the computing unit 2 is provided with a clock and with an indication for this clock. If it is assumed that the entire heating system is in a cooled state,

Claims (5)

Control device for controlling a number of elements added to a heating installation, such as burners, mixers, circulation pumps, heat pumps and utility water heaters, which are controlled via pipes from a central digitally operating computer unit, with plug-in modules being added to the elements, characterized in that Each plug-in module (10, 11, 12, ...) has an identifier (17, 18) with a specific analog voltage value added and that all 45 plug-in modules are connected via separate lines (7, 8, 9 .....) to an analog multiplex unit (6), which in turn is connected to the computer (2) via an analog / digital converter (4). Control device according to claim 1, characterized in that each plug-in module (11, 12 .....) is provided with its own analog multiplex unit (23). Control device according to claim 2, characterized in that each plug-in module (10, 11, 12 ...) contains, as a 50 identifier, a series circuit of two resistors (17, 18), which are grounded on one side and on the other voltage source with the assumed potential (2), and that the connection point (21) of the two resistors is connected via a line (22) to an input of the analog multiplex unit (23). 3 193621 for example, at the end of a nighttime low-level period, for example at 6:00 am an order will be given in the computer to both charge the user water generator and to increase the heating installation to a specific flow temperature determined by the heating curve. . For this purpose, via the information line 13, the dispensing location 14 is energized, which issues a control command via the bundle 5 of pipes 15, with which it is probed whether there is a plug-in module which has been added to the consumable water generator. To this end, all multiplex units 23 are invited via these control commands to output their identification signal via lines 7, 8, 9, etc. to the analog multiplex unit 6. This shows all the identification numbers of all plug-in modules over the entire bundle of lines 7, 8 and 9. . Via the analog-to-digital converter 4, the calculation unit is able to select the associated recognition signal from the various identification signals, with which the calculation unit has obtained the information that at least one utility water preparer and its reference value transmitter are present. Taking into account that the plug-in module 11 has been added to the consumer water preparer, its identification signal remains on the line 8 and the calculation unit will request the associated reference charging value via the bundle of lines 15. A value appears on one of the input lines 32 of the analog multiplex unit 23 of the plug-in module 11, which analogous value corresponds to the temperature charging reference value of the consumable water generator. This analog value is supplied as digital value via the line 8 and the analog / digital converter to the calculation unit 2. In the case where the setting relays for the drinking water generator are also located on the plug-in module 11, a corresponding setting command is now reset and the drinking water generator starts charging the reduced value to a predetermined new reference value. The same applies if the load of the drinking water generator has priority over starting up the heater. After the end of the consumption water temperature increase, that is to say after a full charging of the accumulator, the calculation unit switches on the heating system as a second priority step, whereby the plug-in modules for the burner or the heating circulation pump are switched on, respectively. The values or set values collected there are read off and then returned as control variables either directly or via the plug-in module, or the elements formed by the burner and the circulation pump are directly controlled by the calculation unit 2. The most important aspect of the present control device consists in that each separate plug-in module to be used has a characteristic consisting of an analog voltage value, which is the direct addition of the module to the associated, but differently located element of the heating installation. proposes. It is also important that an exclusively analog information processing takes place within the individual plug-in modules and that the information paths from the plug-in modules to the analog multiplex unit 6 also take place at analog value. First a conversion into digital signals takes place within the control device 1 and subsequently a digital information processing takes place. Control device according to claim 2 or 3, characterized in that each analog multiplex unit 55 (23) of each plug-in module (10, 11, 12 ...) has a number of inputs (26, 29, 32) on which adjustment elements (25) and / or switching elements (27) can be connected. 193 621 4 Control device according to any one of claims 1 to 4, characterized in that control elements are added to each plug-in module, which are connected via plug-in lines to the elements to which the plug-in module is added. Hereby 1 sheet drawing