DE9312588U1 - Electronic thermostat - Google Patents

Description

-2-Description

The invention relates to an electronic thermostat in which a temperature sensor is brought into operative connection with an electromechanical or electrochemical position adjustment device and in which a time-dependent presetting to a preselected room temperature is implemented by an electronic control device. When the switching times stored in the memory are reached, the control device applies a voltage to the electromechanical or electrochemical position adjustment device and thus pushes the temperature sensor to the position that corresponds to the temperature also stored in the memory.

With the manually adjustable radiator thermostats from well-known manufacturers, the desired room temperature is set by manually adjusting the position of a temperature sensor to the radiator valve. The disadvantage of these thermostats is that they have to be adjusted manually several times, for example if the room is to have different temperatures at different times. Electronic radiator thermostats from well-known manufacturers have compensated for this disadvantage by automatically regulating the room temperature at preset times. The presetting is done either centrally, by a control device, which results in additional wiring, or by a control on each radiator. However, since the known types of valve adjustment consume a relatively large amount of energy, it is necessary to supply the energy required for adjustment to each valve using a plug-in power supply or batteries. The energy consumption depends on the types of target temperature setting. This is done, for example, by the defined preheating of a temperature sensor or, as used in another model, by the direct influence of a gear motor on the valve position, whereby the temperature fine control is also realized in this way.

The aim of the present invention is therefore to develop an energy-saving device that eliminates the above-mentioned disadvantages and works independently of any external power supply (batteries, power supply unit). The device should always be suitable for use where the flow of a medium is to be automatically regulated via thermostats according to time specifications.

The object is achieved according to the invention in that in the electronic thermostat a temperature sensor is brought into operative connection with an electromechanical or electrochemical position adjustment device and a time-dependent presetting to a preselected temperature is implemented by an electronic control device. When the switching times stored in the memory are reached, the control device applies a voltage to the electromechanical or electrochemical position adjustment device and thus pushes the temperature sensor to the position that corresponds to the characteristic value also stored in the memory.

According to the invention, the problem of energy supply and the reduction of energy consumption are solved by the fact that the temperature is finely regulated using a temperature sensor, whereby the setpoint position adjustment of the temperature sensor is achieved using a drive unit. The energy required for this is obtained from alternative energy sources and buffered in storage units, which ensures operation even in the dark.

An advantageous design is to achieve the setpoint position adjustment using a gear motor, to generate energy using solar cells and to store the energy in accumulators.

According to a special embodiment, the solar cells are mounted in small dimensions on the device housing

Further details of the invention can be found in the following description, in which the invention is described and explained in more detail using the embodiment shown in the drawing. The figure shows a schematic view of the individual elements of the present invention.

The electronic radiator thermostat is attached using a fastening element (1) that corresponds to the existing radiator valve. The desired switching times and the corresponding room temperatures are fed to the control unit (14) via the keyboard (15) and the display (13). When a switching time is reached, the control unit (14) activates the gear motor (10), which uses the attached spindle (7) to move the nut (6) and thus the temperature travel sensor (4) in an axial direction, and the tappet (3) then opens or closes the radiator valve further in accordance with the set temperature. The duration and direction of the adjustment depends on the difference between the actual value measured by the travel measuring system (9) and the setpoint calculated by the control unit (14) from the entered temperature data.

The energy required for the control (14) and during the adjustment processes for the gear motor (10) is taken from the accumulators (16). The accumulators (16) are in turn recharged by the solar cells (11) attached to the device housing (12).

If manual valve adjustment is required, the device housing (12) can be removed. This exposes the temperature sensor guide (2) with the attached motor housing (8). By turning the motor housing (8), the position of the temperature sensor (4) can now be preset manually. The fine temperature control continues to be carried out as in electronic mode by the

Temperature sensor (4).

List of reference symbols

1 fastening element

2 Temperature sensor guide

3 pestles

4 Temperature sensor 5

6 Mother

7 spindle

8 Engine housing

9 Position measuring system

10 Gear motor

11 solar cells

12 Device housing

13 Advertisement

14 Control

15 Keyboard

16 accumulators

Claims (7)

Protection claims 1. Device for time-dependent automatic control of the flow of a medium for temperature control via a thermostat, characterized in that a temperature sensor (4) is brought into operative connection with an electromechanical or electrochemical path adjustment device and the time-dependent presetting of the temperature is implemented by an electronic control device, whereby alternative energy sources are utilized. 2. Device according to claim 1, characterized in that the setpoint position adjustment of the temperature sensor (4) is achieved by a drive element. 3. Device according to claim 1, characterized in that the setpoint position adjustment of the temperature sensor (4) is achieved by a geared motor. 4. Device according to claim 1 and 2, characterized in that the required energy is obtained via solar cells and buffered in accumulators. 5. Device according to claim 1 and 2, characterized in that the required energy is obtained via small-sized solar cells attached to the device housing (12) and is buffered in accumulators. 6. Device according to the claims, characterized in that the fine temperature control is carried out via a temperature sensor (4) from conventional manual thermostats. 7. Device, also characterized in that the device housing (12) is removable and thus the temperature sensor guide (2) with the attached motor housing is exposed.