DE4133893A1 - Outdoor temp. responsive controller for space heating installation - operates on long-wave radio time signals received by antenna in close proximity to temp. sensor - Google Patents

Abstract

The temp. at which heat is supplied from a fossil-fuel-fired heater is regulated in response to signals from an outdoor temp. sensor (2) in a housing (1) immediately adjacent to that (8) of a ferrite rod antenna (6) whose coil (70) is wired (73) to a distribution box (5). This contains a demodulator, a voltage-controlled oscillator, a multiplexer and its synchronising circuit linked by cable (9) to the heating regulator where signals are decoded. ADVANTAGE - Reception of time signals is not degraded by reinforced concrete walls, and information can be transmitted over only three lines.

Description

The invention relates to a control device for a Heating device with an exterior housed in a housing temperature sensor, a heating controller influenced by this and one an antenna with demodulation device and evaluations circuit for implementing a wireless transmission line, for example, emitted by a long-wave transmitter, received time information in a for the heating controller ready-to-use receiving device.

In known control devices of this type, the antenna is used for Receive time information near the heating controller ordered, which is usually in the basement of a house det. However, this leads to very considerable problems in reception of the time information signals.

The aim of the invention is to avoid these disadvantages and one Propose control device of the type mentioned, the through a simple structure and a high level of reception security security of the time information signals.  

According to the invention this is achieved in that the antenna of the Receiving device in the housing of the outside temperature sensor or on this is arranged.

This measure has the advantage of good reception the time information signals, which may not be due to Concrete iron walls are affected. It follows also a simple line routing, since the for forwarding the Time information signals required lines together with the lines necessary to conduct the temperature signals anyway can be installed if such are necessary at all.

According to a further feature of the invention, that the demodulation device in the housing of the outside temperature door sensor and the evaluation device arranged in the heating controller is not.

These measures can separate the time information from the Temperature information serially to the evaluation device in the hot controller can be transferred.

According to a further feature of the invention, that the demodulation device comprises a coding device, which the time information with the outside temperature information in implements a common code in the evaluation circuit in the Hei tion controller has a decoder that contains the coded signals separated into temperature and time information.  

Through these measures, the information on only three Lines are transmitted, instead of five or four lines, as they are required in the aforementioned variant. Except this is achieved by the digital transmission of the coded signal Transmission security significantly increased.

To optimize the reception of the time information, after a Another feature of the invention can be provided that the tenne housing on all sides rotatable on a holder is.

Through these measures, the antenna, which is preferably a Fer ritantenne is formed in the most favorable location ge be brought, the all-round rotatability of the housing is expediently achieved by a ball joint bracket.

The invention will now be explained in more detail with reference to the drawing.

It shows

Fig. 1 is an external temperature sensor with antenna,

Fig. 2 is a block diagram of a heating regulator,

Fig. 3 is a block diagram of a further heating controller.

As seen from Fig. 1, the outside temperature sensor 2 is disposed in an external sensor housing 1, the outer temperature turfühler 2 via the external sensor terminals 3 and the Außenfühlerka bel 4 with a contained in the junction box 5 circuit which essentially comprises a demodulator, a voltage controlled Os zillator, a multiplexer and a synchronization circuit for the multiplexer comprises, is connected. This junction box 5 is arranged in an antenna housing 8 . In this housing 8 is an antenna 6 formed by a ferrite rod 71 with winding 70 is arranged, which in a holder 7 ; 72 is held. The winding 70 of this ferrite rod 71 is also connected via a line 73 to the circuit arranged in the junction box 5 .

The circuit mentioned is connected to a heating controller by means of a connecting cable 9 .

As can be seen from FIG. 1, the outer sensor housing 1 and the antenna housing 8 are arranged directly next to one another, the antenna housing 8 having a recess 74 corresponding to the outer sensor housing 1 , so that there is a compact configuration.

The two housings 1 and 8 are fastened by means of screws 10 and 12 , the junction box 5 being fastened with screws 11 in the antenna housing 8 .

Advantageously, the two housings 1 and 8 are arranged on a common mounting plate, or the antenna housing 8 has a projecting bottom on which the Außenfühlerge housing 1 is mounted, the mounting plate (not shown) or the antenna housing via a ball joint with a Hal ter (not shown) are connected so that the ferrite antenna 6 can be adjusted to the respective reception conditions.

Through these measures it is possible that the outside temperature can also be operated in an application without a radio clock can.

Fig. 2 is a block diagram showing a control device.

In this, the outside sensor 2 and the antenna 6 via the common connection cable 9 , which includes the outside temperature sensor 2 with the flow temperature controller 33 connecting line 9 'and the antenna 6 with a converter 27 for the time information ver binding line 24 , with the Heating controller 37 connected in which these components are arranged.

The flow temperature controller 33 is still connected to a flow temperature sensor and supplies the controller with corresponding actual value signals.

The RF-modulated time information signals from the antenna are converted into pulses in the converter 27 and fed to the time / programmer 28 , which is further connected on the input side to an input / output device 29 via which the time programmer 28 can be programmed. This supplies a setpoint changeover switch 30 with corresponding command signals which, at the programmed times, switch to the setpoint value set by the day setpoint value adjuster 31 to the setpoint value set by the night setpoint value adjuster 32 and vice versa. This setpoint value switch 30 is connected to the flow temperature controller 33 and supplies it with the corresponding setpoint values.

Next, the flow temperature controller 33 is connected to a steepness adjuster 34 , which determines the steepness of the adaptation of the transition from one target value to another.

The flow temperature controller 33 is connected via a burner solenoid valve line 36 to a burner solenoid valve 35 and controls. this and thus the fuel supply to the burner.

In the embodiment according to FIG. 3, the outside sensor 2 is connected via line 43 to a voltage-controlled oscillator 45 , which is connected via line 49 to a multiplexer 53 .

The antenna 6 is connected via line 44 to a demodulator 46 , which in turn is connected to the multiplexer 53 via line 50 . The multiplexer 53 is provided by the synchronous signal generator 47 via line 51 with synchronous signals and from the clock signal generator 48 via line 52 with clock signals. These parts are arranged in the receiving unit 64 .

The multiplexer 53 is connected via line 9 'with the Heizungsreg controller 65 or with its serial-parallel converter 55 connected, which is arranged in the heating controller 65 . This converter 55 is just like that of the clock generator 60 and the input / output device 29 and a voltage-controlled oscillator 58 supplied with corresponding signals from the flow temperature controller 25 via the line 26 to a microprocessor 61 which processes the incoming signals.

The output of the microprocessor 61 is connected to a power stage 62 which controls the burner solenoid valve 35 .

Claims (4)

1. Control device for a heating device with a housed in a housing outside temperature sensor, a heating controller influenced by this and an antenna together with a demodulation device and evaluation circuit for the implementation of a wireless transmission path, for example via a long-wave transmitter, received time information received in a form for the heating controller aufwei send receiving device, characterized in that the antenna ( 6 ) of the receiving device is arranged in the housing of the outside temperature sensor ( 2 ) or on this. 2. Control device according to claim 1, characterized in that the Demodulationsein direction in the housing of the outside temperature sensor or in the antenna housing ( 8 ) and the Auswerteein direction in the heating controller ( 65 ) is arranged. 3. Control device according to claim 1 or 2, characterized in that the demodulation device comprises a coding device which converts the time information with the outside temperature information into a common code, in the evaluation circuit in the heating controller ( 65 ) has a decoder which the coded signals in Separates temperature and time information. 4. Control device according to one of claims 1 to 3, characterized in that the on the antenna ( 6 ) having housing ( 8 , 64 ) is rotatably held on all sides on a holder.