DE102005060227B4 - Method for installing and operating a solar system - Google Patents

Abstract

Method for installing and operating a solar system, consisting of a controller, at least one heat generator with a solar system for water heating and / or for building heating, the solar system having at least one solar collector which is connected to a solar circuit with a pump in which a solar fluid as heat circulating medium, wherein by means of the solar fluid obtained from the solar energy heat is transferred to the water of at least one hot water tank for water heating and / or on the heating medium of a heating circuit for building heating, the temperature of the water in the hot water tank and / or the temperature of the heating medium in the heating circuit in each case in accordance with the present, supported by control parameters system and system characteristics are regulated, with the controller characteristics for the identification of the solar system and / or the entire system configuration are to be entered, thereby characterized in that on the basis of the controller by linking control parameters are determined that the features in question first in queries to basic system and system types, which are the presence of solar hot water heating, solar heating support and / or solar heating support with hot water heating, and secondly in queries to are subdivided into optional subsystems which relate to the presence of two collector arrays, a transhipment between two monovalent hot water storage tanks, a priority / subordinate two-rail system, a priority / sub-circuit swimming pool, an external solar circuit heat exchanger and / or a thermal disinfection pump; that depending on the number of available inputs and outputs on the controller of the solar system, only the queries on basic system and system types and on optional subsystems that can be made depending on the design and system are available for selection and after determining the basic plant and system type by the controller after the appropriate query only the still possible due to the controller configuration extensions to optional subsystems selected, activated and displayed.

Description

The invention relates to a method for installing and operating a solar system according to the preamble of claim 1.

Solar systems for water heating and / or building heating have solar panels, which are connected to a solar circuit with a solar fluid as the heat transfer medium with which the solar heat is transferred to a hot water tank and / or a heating circuit of the building heating. For this purpose, for example, have the hot water tank a heat exchanger in the lower region for the transfer of heat from the solar circuit to the water volume. Since the solar heat is not available indefinitely, such hot water tanks usually have a further heat exchanger, with which only the upper area can be heated by a so-called recharging via the heat generator, if a temperature sensor in this zone determines too low a water temperature ,

The setpoint for the hot water temperature is entered at the controller of the heat generator. In order to achieve a favorable efficiency of the solar system, it is of course important that the solar heat supply for heating the hot water tank and / or for heating support serves as a priority, and that recharging by the heat generator is possible only in a few cases to a good energy balance to get. Nevertheless, however, the necessary hot water and / or heating comfort must be ensured.

To control a solar system special solar controller are known, which regulate the solar system completely self-sufficient and are assigned to this. On the other hand, there are also regulators, for example in modular form, which are integrated in a control device of a heat generator, and take on this task. Known solar controllers support a variety of different system variants, as they arise in accordance with the local plant and operating situations, for example, by multiple collector fields or multiple hot water tanks. However, the data entry and the selection of parameters during installation or commissioning of a solar system requires a considerable amount of time and a good training of the staff entrusted with system interconnections, namely on the one hand to avoid input and assignment errors and on the other hand, the best possible operation of the solar system to reach.

It is already known to simplify data entry and parameter selection in control devices by assigning a controller a documentation with descriptions of many different solar systems for solar thermal energy feed and attached. The user or the installation personnel selects from these many systems the most suitable for the present system. However, in order to meet exactly what is closest to the realized solar system, a high level of expertise in terms of interpreting and analyzing the specific plant situation as well as a familiarity with the documentation associated with the controller is required.

Also are from the Scriptures DE 30 31 410 C2 Controllers for heaters with a memory for a plurality of control programs, a program selection device and a control oscillator known, wherein the memory several separate and selectable and to adapt to different types of heaters differently combinable program parts and a plurality of preselected parameters for the program sequence different heater types are stored, and the program parts and the parameters for the program sequence can be preset by occupying the connection side of the control unit leading to the heater.

Furthermore, such storage systems from the Scriptures DE 298 24 435 U1 refer to.

Object of the present invention is to optimize the installation and operation of a solar system, in particular taking into account the many possible system variants.

This is achieved with the features of claim 1 according to the invention. Advantageous developments can be found in the dependent claims.

The method for installing and operating a solar system is characterized in that the controller for an operator well-understandable and clearly circumscribed characteristics for the identification of the solar system and / or the entire system configuration are entered, on the basis of the controller then in the background by appropriate link the usual and operationally necessary control parameters are determined. These features are structured firstly in queries on basic system and system types and secondly in queries on optional subsystems.

The queries on basic system and system types concern the presence of solar hot water heating, solar heating support and / or solar heating support with hot water preheating. In addition, optional subsystem queries relate to the presence of two collector arrays, a transhipment between two monovalent hot water tanks, a two-priority / two-priority booster system, a priority / secondary swimming pool, an external solar circuit heat exchanger and / or a thermal one disinfection pump. Preferably, the queries are to be confirmed with inputs in the form of yes / no inputs, selection functions or answers or to answer with value specifications.

On a user interface of the controller, a selection of the basic system and system type must first be made before a selection of optional subsystems is made. Depending on the number of available inputs and outputs on the controller of the solar system, therefore, only the required queries on basic plant and system types and on optional subsystems that are possible due to the type of construction and the system are selected. Thus, after determining the basic plant and system type by the controller after the appropriate query only the technically possible due to the controller configuration extensions to optional subsystems are selected, activated and displayed.

The invention therefore provides a simple method for installing and operating a solar system, in particular taking into account the many possible system variants when using different components. This can be adapted very precisely and as needed to a present system and system situation, so that an optimal solar energy utilization and a high thermal comfort are guaranteed.

For this purpose, only relatively few, clearly understandable and verifiable for an operator inputs in the form of queries to make specific features of the solar system during installation or commissioning. The necessary technical control parameters are automatically selected and taken into account in the background on the basis of these entries. The time required for commissioning a solar system is considerably reduced with the present invention. In addition, the people involved are relieved because they do not have to know system connections completely or in detail.

Claims (1)

Method for installing and operating a solar system, consisting of a controller, at least one heat generator with a solar system for water heating and / or for building heating, the solar system having at least one solar collector, which is connected to a solar circuit with a pump in which a solar fluid as heat circulating medium, wherein by means of the solar fluid obtained from the solar energy heat is transferred to the water of at least one hot water tank for water heating and / or on the heating medium of a heating circuit for building heating, the temperature of the water in the hot water tank and / or the temperature of the heating medium in the heating circuit in each case in accordance with the present, supported by control parameters system and system characteristics are regulated, with the controller characteristics for the identification of the solar system and / or the entire system configuration are to be entered, thereby characterized in that on the basis of the controller by linking control parameters are determined that the features in question first in queries to basic system and system types, which are the presence of solar hot water heating, solar heating support and / or solar heating support with hot water heating, and secondly in queries to are subdivided into optional subsystems which relate to the presence of two collector arrays, a transhipment between two monovalent hot water storage tanks, a priority / subordinate two-rail system, a priority / sub-circuit swimming pool, an external solar circuit heat exchanger and / or a thermal disinfection pump; that depending on the number of available inputs and outputs on the controller of the solar system, only the queries on basic system and system types and on optional subsystems that can be made depending on the design and system are available for selection and after determining the basic plant and system type by the controller after the appropriate query only the still possible due to the controller configuration extensions to optional subsystems selected, activated and displayed.