DD232586A1 - CHIMNEY SECTOR ON INDUCTIVE BASIS - Google Patents

Abstract

The invention relates to a Pruefeinrichtung that allows a clear selection of chimney cavities, which are not visually recognizable in separation or Außenwaenden. The invention can also be used in construction for the determination of intended wall breakthroughs or the like. The test facility is based on the inductive stray field method. The test is carried out by an inductive transmitter, which is transported into the chimney of the chimney group to be selected. The inductive transmitter consists of an oscillator whose frequency-determining inductance simultaneously represents the transmitting coil. An inductive receiver locates the exact location of the transmitter. The inductive receiver is composed of four modules, receiver coil 3, amplifier 4, rectifier circuit 5 and display instrument 6. The stray field generated by the transmitter induces in the receiver coil 3 a voltage proportional to the field strength, which is rectified rectified and displayed on the display instrument. The receiver's input amplifier is an AM-FM-IF amplifier circuit (eg A 281).

Description

Field of application of the invention

The invention relates to a test method for the detection of chimney cavities, which are visually not recognizable in separation or outer walls.

The invention can be used in the construction industry, in particular for the specification of connection permits of fireplaces and in the cause determination of malfunctions.

Characteristic of the known technical solutions

Test methods are known by means of acoustic signals, caused by the ball of the sweeper of the chimney sweep and by lowering a magnet and selection by compass. The disadvantages of these methods lie in the large inaccuracy, which increases with increasing cheek thickness of the chimney and in the magnetic method by iron parts can lead to incorrect measurements.

Object of the invention

The aim of the invention is to develop a test device that allows a clear selection of the chimney cavity or foreign bodies in the chimney cavity.

Explanation of the essence of the invention

The invention is based on the object to develop a test equipment that allows chimney cavities up to a cheek thickness of 500mm, regardless of the material to select clearly.

According to the invention, this object is achieved on the basis of the inductive stray field method. The test is carried out by an inductive transmitter, which is transported into the chimney of the chimney group to be selected.

The inductive transmitter consists of an oscillator 1 whose frequency-determining inductance 2 simultaneously represents the transmitting coil. Fig. 1

An inductive receiver locates the exact location of the transmitter.

The transmitting coil 2 is open, designed rod-shaped to produce a strong stray field.

The inductive receiver-FIG. 2 - consists of four modules together, Empfängererspuie 3, amplifier 4, rectifier circuit 5 and display instrument. 6

The stray field generated by the transmitter induces in the receiver coil 3 a voltage proportional to the field strength.

The induced AC voltage is brought by the subsequent amplifier to a level required for evaluation, then rectified and placed on the display instrument for display.

Frequency selection largely excludes interference from external fields.

With the potentiometer 7, the display sensitivity of the existing field strength can be adjusted.

3, the inductive transmitter is represented as a "Colpitts oscillator." This circuit guarantees a minimal outlay on components.

An economically favorable variant of the inductive receiver is shown in FIG. 4. The assemblies 8, 9, 10 and 11 of FIG. 4 represent the amplifier of FIG. 2. The input amplifier 10 is an AM-FM-IF amplifier circuit (eg A281 D) used. The primary winding of the transformer 9 with the parallel-connected capacitor 8 form a tuned to the transmission frequency parallel resonant circuit, which serves as the input amplifier 10 as a working resistor. Due to the resulting selective nature of the amplifier 10, a high input sensitivity and immunity of the inductive receiver is achieved. The components 12, 13, 14 and 15 represent the rectifier 5 of FIG. 2. Apart from the rectification, the cascade circuit achieves a voltage doubling.

Claims (4)

Invention claim: 1. test method for the selection of chimney cavities, characterized in that with the aid of an inductive transmitter (which is located in the cavity) and with an inductive receiver accurate localization of the cavity takes place. 2. Circuit arrangement of an inductive transmitter for the selection of chimney cavities according to claim 1, characterized in that the transmitter is a "Colpitt oscillator" of Figure 3 in which the frequency-determining inductance simultaneously the transmitting coil is used. 3. Circuit arrangement of an inductive receiver for the selection of chimney cavities according to claim 1, characterized in that an AM-FM-IF amplifier circuit (10 of Figure 4) is used as an input amplifier. 4. Circuit arrangement of an inductive receiver for the selection of chimney cavities according to claim 1, characterized in that the load resistance of the input amplifier by a matched to the transmission frequency parallel resonant circuit (8 and 9 of Figure 4) is formed. For this 1 page drawings