DE3617234A1 - Water or moisture indicator - Google Patents

Abstract

The invention relates to a water or moisture indicator with a transducer of an electrically conducting material. The water or moisture indicator consists of two wires 9, 10 of electrically conducting material such as, for example, a copper alloy or the like arranged at a distance from each other. At one of their end sections 14, the wires 9, 10 are connected to a measurement instrument 7 and a source of current 15. The measurement instrument 7 can be used to measure either the current flow, the capacitance or the current flow and the capacitance (Figure 1). <IMAGE>

Description

The invention relates to a water or moisture detector with a sensor from an electrically conductive Material.

In industrial and private facilities and on layers, which are installed in buildings, often exists the risk of damage from penetrating water or penetrating moisture. So line damage, moisture penetrating from outside, through hitting laundry rooms, excessive condensation in channels, chambers, humidifier lines, rain or Snowfall in suction chambers and devices building and Cause system damage. For this reason there is a urgent need to be in vulnerable places urgent moisture or water entering early early enough to identify suitable countermeasures in good time to be able to take measures. There are already ver divergent moisture meters, where the Change in conductivity is a measure of local moisture is present.

So are bi-plastic elements have been proposed on a spiral Metal strip vapor-deposited a hydroscopic plastic mass is. They act like bi-metal thermometers and can be used for a remote display with photoelectric or inductive Be connected to donors. There is also a leading film hygro meters made of a plastic plate with wire or comb-shaped electrodes exist and a hygroscopic Have layer, the conductivity with the relative humidity changes. The amperage of the wound electrodes is a measure of the air wet. Moisture sensitive foils can also be used be used as the dielectric of a plate condenser sators serve. The air humidity changes that Dielectric constant of the film and thus the Kapa tity that is measured. These well-known moisture meters  have the disadvantage that they are used improperly easily damaged and their functionality to lose. They therefore require careful on build what is not always guaranteed. Just after assembly inaccessible places can this moisture detectors can only be used with reservations, as their permanent functionality after assembly not is guaranteed.

The object of the invention is a simple one and inexpensive electrically conductive water or To create moisture alarms that are easy to assemble is too and because of its susceptibility to interference accessible places can be used.

According to the invention, the object is achieved by two spaced wires or Pairing wires from electrically conductive work material such as a copper alloy or the like an end section with a power source and a Are connected by means of which either the Current flow, capacity or current flow and Capacity based on the wires or pairs of Wires are measurable.

Further features of the invention are set forth in the dependent Described claims and below using the in the drawings schematically illustrated execution examples explained in more detail.

It shows:

Fig. 1 and 2, a water or moisture detectors, each with a point sensor in a schematic plan view.

FIGS. 3a to 6b various constructions of surface sensors are schematic plan views and cross sectional views.

Fig. 7 shows a circuit of the measuring device.

The water or moisture detector 45 shown in FIG. 1 consists of a point sensor 1 which is connected to a measuring device 7 by means of a connecting line 18 . The measuring device 7 is connected to a current source 15 which, for. B. a low power source and can be designed as a battery buffer. A measured value display 43 is provided on the measuring device 7 . The measuring device 7 can be actuated by means of adjusting knobs or switches 44 . The point sensor 1 consists of two wires 9 , 10 , the free end portions 23 , 24 of which are not connected to one another. The wires 9 , 10 are made of an electrically conductive material such as a copper alloy or the like and have no insulation. At one end section 14 , the wires 9 , 10 are combined to form a contact member 16 which is inserted into a plug-type contact piece 17 . The contact piece 17 is connected to the connecting line 18 a related party. If moisture or water acts on the point sensor 1 , its resistance changes from the value infinite to a measurable value, which can be determined by the measuring device 7 . From the size of the measured value displayed, the extent of the local incidence of water or moisture can be assessed at least qualitatively.

The water or moisture detector 45 shown in FIG. 2 also consists of a point sensor 2 which is connected to the measuring device 8 by means of connecting lines 18 , 19 . A current source 15 is connected to the measuring device 8 . The measuring device 8 also has a display unit 43 and control buttons or switches 44 . The point sensor 2 can be used to monitor elongated measuring locations. It consists of the two wires 9 , 10 , which are not connected to one another at their end sections 23 , 24 and are also not insulated. Furthermore, a pair 11 of wires 12 , 13 are provided which are connected to one another at the free end section to form a wire loop 25 . One wire 12 is not insulated, while the other wire 13 is insulated. The wires 9 , 10 ; 12 , 13 are just in the area of the end portion 14 if combined into a contact member 16 which is inserted into a plug-shaped contact piece 17 of the connecting lines 18 , 19 . With this water or moisture detector 45 , both the presence of moisture at the measuring location and its local location can be averaged. The pair of wires 12 , 13 is used to determine the bearing. The wetting point can be localized by the different resistances measured over the wire 12 or wire 13 .

It is possible to arrange the wires 9 , 10 and / or 12 , 13 on one surface 22 of a carrier tape 20 . In the plane of surface 22 , an adhesive layer 29 can be provided, which is covered by a protective film 30 (FIGS . 3a to 4b). After removal of the protective film 30 , the carrier tape 20 with the wires 9 , 10 and / or 12 , 13 can be glued to the surface to be monitored by means of the adhesive layer 29 . This carrier tape 20 is used in connection with the wires 9 , 10 ; 12 , 13 thus as surface sensors 3 , 4 .

An advantageous embodiment of a surface sensor 5 , 6 is shown in FIGS. 5a to 6b. These surface sensors 5 , 6 consist of a carrier tape 20 , which is gebil det of two electrically conductive film strips 31 , 32 . The foil tapes can e.g. B. consist of an aluminum minium alloy. They are connected at predetermined intervals from one another by means of connecting members 33 . In order to prevent incorrect measurements, these connecting members 33 are not electrically conductive. On one surface of the film strips 31 , 32 , an adhesive layer 29 is provided, which is covered with a protective film 30 . After removing the protective film 30 , the surface sensors 5 , 6 can be used like the surface sensors 3 , 4 described above. In the surface sensor 6 , a pair 11 of wires 12 , 13 is additionally arranged on one surface 22 , the end sections 26 , 27 of which are connected to form a wire loop 25 . The wire 13 has insulation 28 , while the other wire is uninsulated. This surface sensor 6 , like the surface sensor 4 and the point sensor 2, serves to fix the position of the respective dampening point.

The formation of a measuring device 7 , 8 is shown in Fig. 7 cal matically. This shows a transistor circuit 38 , which is arranged between the sensor connection 36 and the measured value output 37 . The transistor scarf device 38 has ohmic resistors 46, a pnp transistor 39 and an npn transistor 40 . The collector 47 of the pnp transistor 39 forms the basis for the npn transistor 40 . Its emitter 41 is connected to a diode 42 at the measured value output 37 . The measured value output 37 is formed in this case as an alarm output. Due to the special design of the transistor circuit 38 , the small voltage change measured from the sensor connection 36 on the sensor 1 , 2 , 3 , 4 , 5 , 6 is amplified at the collector of the PNP transistor 39 . A further voltage amplification takes place at the npn transistor 40, a current flowing through the diode 42 when the voltage is sufficient, which serves to actuate the alarm display.

Claims (14)

1. Water or moisture detector with a sensor made of an electrically conductive material, marked by two spaced apart wires ( 9 , 10 ) or pairs ( 11 ) of wires ( 12 , 13 ) made of electrically conductive material such as a copper alloy or od . The like., At one end section ( 14 ) with a current source ( 15 ) and a measuring device ( 7 , 8 ) are connected, by means of which either the current flow, the capacity or the current flow and the capacity can be measured. 2. Water or moisture detector according to claim 1, characterized in that the wires ( 9 , 10 , 12 ) are completely or partially not insulated. 3. Water or moisture detector according to claim 1 and 2, characterized in that the one end section ( 14 ) of the wires ( 9 , 10 ) or pairs ( 11 ) of wires ( 12, 13 ) is designed as a contact member ( 16 ), the with a plug-like contact piece ( 17 ) of a connecting line ( 18 , 19 ) is connected, which is connected to the measuring device ( 7 , 8 ) and the current source ( 15 ). 4. Water and moisture detector according to claim 1 and 2, characterized in that the wires ( 9 , 10 ) and / or pairs ( 11 ) of wires ( 12 , 13 ) are attached to a film-like carrier tape ( 20 ). 5. Water or moisture detector according to claim 4, characterized in that the carrier tape ( 20 ) on a surface ( 21 , 22 ) is self-adhesive. 6. Water or moisture detector according to claim 4 and 5, characterized in that on one surface ( 21 , 22 ) of the carrier tape ( 20 ) a pair of non-insulating wires ( 9 , 10 ) with free unconnected end sections ( 23 , 24 ) and a pair ( 11 ) of wires ( 12 , 13 ) formed as a wire loop ( 25 ) is arranged, which are connected to one another at the end sections ( 26 , 27 ) and of which one wire ( 13 ) is provided with insulation ( 28 ) and the other wire ( 12 ) is uninsulated. 7. Water and moisture detector according to claim 4 to 6, characterized in that on one surface ( 21 , 22 ) of the carrier tape ( 20 ) an adhesive layer ( 29 ) is arranged, which is covered with a detachable protective film ( 30 ). 8. Water and moisture detector according to claim 4 to 7, characterized in that the carrier tape ( 20 ) consists of two spaced apart electrically conductive foil tapes ( 31 , 32 ) made of an aluminum alloy, copper alloy or the like. 9. Water and moisture detector according to claim 8, characterized in that an insulated wire ( 12 ) and on the other foil strip ( 32 ) an insulated wire ( 13 ) is arranged on one foil strip ( 31 ) and that the wires ( 12 , 13 ) at the free end sections ( 34 , 35 ) of the film strips ( 31 , 32 ) are connected to one another. 10. Water and moisture detector according to claim 1 to 9, characterized in that the measuring device ( 7 , 8 ) is connected to a low-voltage source such as a battery buffer or the like. 11. Water and moisture detector according to claim 10, characterized in that the measuring device ( 7 , 8 ) is designed as an ampere meter and / or capacitance meter and / or resistance meter. 12. Water and moisture detector according to claim 11, characterized in that in the measuring device ( 7 , 8 ) between the sensor connection ( 36 ) and the measured value output ( 37 ) a transistor circuit ( 38 ) with a pnp transistor ( 39 ) and an npn -Transistor ( 40 ) is arranged. 13. Water and moisture detector according to claim 12, characterized in that the emitter ( 41 ) of the npn-Tran sistor ( 40 ) is connected to a diode ( 42 ) at the measured value output ( 37 ). 14. Water and moisture detector according to claim 13, characterized in that the measured value output ( 37 ) is designed as an alarm output.