CZ29269U1 - Electrical cable for detection presence of liquids - Google Patents

Description

In the registration procedure, the Industrial Property Office does not determine whether the subject of the utility model meets the conditions for eligibility for protection pursuant to Section 1 of Act no. No. 478/1992 Coll.

CZ 29269 UI

Electric cable for detecting the presence of liquids

Field of technology

The technical solution relates to an electrical cable designed to detect the presence of liquids to indicate a leak in the manufacture of automobiles or as part of alarms and detectors of flooding or water leakage in a building.

Prior art

In the production of cars, in one of the last phases of testing, the so-called water test takes place, when manufactured cars are exposed to a stream of water under different pressures in different directions to check the car's resistance to water penetration or to check the car's tightness. Moisture detectors with a simple arrangement are known, enabling reliable detection of water penetrating into the interior of the vehicle, formed as a simple circuit consisting of a sensor, a set of cables and an indication part. The circuit, after contact with water, causes a short circuit, which is subsequently detected by means of an indication part based on the production of light, vibration or sound.

DE 19815062 describes a system for easily detecting moisture penetrated into the interior of an automobile, which measures the electrical capacity between the conductive layer and the floor of the vehicle. The electrically conductive layer is formed as a coating on the underside of the carpet, which is an insulating layer thanks to the integrated insulating polyurethane material.

DE 102012007552 describes a test device with a sensor for checking the humidity in the interior of a motor vehicle. The presence of moisture in the vehicle interior or in hard-to-reach places is checked by capillary transport of water. The fabric is placed on the bottom plate, on which the fibers leading to the detection device are also placed.

Other known moisture detection devices in the automotive industry consist of conductive cables with an insulating layer formed of non-conductive polymers, e.g. of polyvinyl chloride. The disadvantage of the detection devices arranged in this way is in particular the detection of moisture only after the entire cable profile has been flooded, so that this device does not serve to obtain information about the immediate flooding of the vehicle.

Humidity indication devices are known as part of house alarms and flood or water leak detectors in the house or directly in vessels on the principle of conductive cables with an insulating layer. WO 2005119195 describes a humidity sensing system where the sensor is designed to detect humidity in a gaseous or liquid environment. It consists of two electrodes separated from each other by an absorbent material. The electrodes have four holes through which moisture comes into contact with chemical compounds that react with a gaseous or liquid medium.

The task of the technical solution is to create an electric cable for detecting the presence of liquids, which will eliminate the above-mentioned shortcomings, will be cheap, easy to operate and effective in the immediate ability to inform about the presence of moisture in the interior of the vehicle.

The essence of the technical solution

The above-mentioned drawbacks are eliminated by the electric cable for detecting the presence of liquids according to this technical solution.

The electric cable for detecting the presence of liquids comprises at least two conductors which are electrically separated from each other by an insulating material. The essence of the technical solution lies in the fact that the insulating material forms a paper sheath with variable electrical conductivity, directly proportional to its humidity. The paper sheath is arranged in the shape of a helix around at least one conductor. After soaking the paper material with the penetrated liquid, the electrical circuit is connected, which indicates the presence of liquid.

CZ 29269 UI

In a preferred embodiment, the paper sheath is formed around one conductor and the other conductor forms a helix around the circumference of the paper sheath. In another preferred embodiment, a paper sheath is formed around each conductor, and the conductors thus insulated are arranged in a double helix shape.

The paper wrapper is preferably formed in a rectangular shape of any length and width of 10 to 100 mm and in a helical arrangement forms a cylindrical twisted paper string with a diameter of 1 to 2.5 mm, which can be unwound back. This material can be used to glue and coat various objects. Thanks to its structure and ability to absorb water, it is very suitable for this application.

The paper jacket is preferably made of a cellulose-based material obtained from a special type of pine with an admixture of silk, which makes it an extremely strong and flexible material.

Preferably, the at least one conductor is made of copper or a copper-containing alloy. These materials are inexpensive and, due to their conductive properties, different copper alloys can be used in different proportions.

In a preferred embodiment, at least one end of the paper-sheathed conductors is led to the mold plate with contacts for the connection of the evaluation device. The platform consists of a sticker with two contacts, which are made of aluminum. This platform serves as a connection to the evaluation device. The evaluation device is provided with contacts which, together with the contacts formed on the platform, serve to indicate the presence of liquid.

The subject of the technical solution is also a device for detecting the presence of liquids, comprising two conductors, which in the dry state are electrically separated from each other by insulating material and in the presence of liquid form a closed electrical circuit and which can be connected to the evaluation device. The essence of the technical solution lies in the fact that the insulating material forms a paper sheath. The paper sheath is arranged in the shape of a helix around at least one conductor. The wires are connected to a control unit of the car provided with software means for immediate evaluation of the presence of liquid in the interior of the car.

The advantages of the electric cable for detecting the presence of liquids according to the technical solution lie mainly in economic simplicity, simplicity of operation and efficiency in the immediate ability to inform about the presence of moisture in the interior of the vehicle.

Explanation of drawings

The mentioned technical solution will be explained in more detail in the following figures, where:

Fig. 1 shows a schematic illustration of an electric cable for detecting the presence of liquids with two conductors provided with paper sheaths arranged in the shape of a double helix led into contacts on the platform, Fig. 2 shows a schematic illustration of an electric cable for detecting the presence of liquids 35 with one conductor provided with paper sheath and the other conductor Fig. 3 shows a schematic illustration of an electric cable for detecting the presence of liquids with one conductor provided with a paper sheath and the other conductor forming a helix around the circumference of the paper sheath with a unwrapped paper sheath in one part of the cable.

Example of implementing a technical solution

It is to be understood that the specific embodiments of the technical solution described and illustrated below are presented for illustration, not as a limitation of the technical solution to the examples given. Those skilled in the art will find, or be able to ascertain using routine experimentation, a greater or lesser number of equivalents to the specific embodiments of the technical solution described herein. These equivalents will also be included in the scope of the following protection claims.

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CZ 29269 UI

The electric cable 1 for detecting the presence of liquids in the embodiment shown in Figs. 1 to 3 is designed to be placed on the floor of the tested vehicle in the last phase of car production tests to indicate their sealing when the car is exposed to a stream of water in the test room or for placement in floors of houses or flats as a part of house alarms and leak detectors or flooding of a house or flat. The electric cable 1 in the embodiment shown in Figs. 1 to 3 is formed by two conductors 2, 2 ', where one conductor 2 is made of copper and the other conductor 2' of an alloy of copper and nickel. In other embodiments, the conductors 2,2 'may be formed of other copper-containing alloys. The conductors 2, 2 'are electrically separated from each other in the dry state by means of an insulating material, which in this example is formed as a paper sheath 3. In the presence of liquid, water is soaked from the paper and water .

Fig. 1 shows an example of an embodiment of an electric cable 1 in an arrangement in which both conductors 2,2 'are provided with a paper sheath 3 and the conductors 2,2' thus insulated are arranged in the shape of a double helix. In all embodiments, the paper casing 3 is made in a rectangular shape with dimensions of 5 m in length and 50 mm in width. For the production of the paper jacket 3, cellulose paper obtained from a special type of pine with an admixture of silk was used, which makes it an extremely strong and flexible material. The paper jacket 3 is then spirally wound around the conductor 2, thus forming a helical paper jacket 3. Thus, the helically wound paper sheath 3 forms a cylindrical twisted string with a diameter of 1.8 mm and is shown in Fig. 3. In other examples of the arrangement, the paper sheath 3 can reach other dimensions. The ends of the conductors 2, 2 'are led to the contacts 5, which are located on the platform 4. The platform 4 is made of a sticker on which the contacts 5, which are made of aluminum, are arranged. The platform 4 is a coupling with an evaluation device, which can be, for example, a test pliers with a head to which the platform 4 is connected, which evaluates whether an electrical circuit has been connected due to the presence of liquid.

Fig. 2 shows an example of an electric cable 1 in an arrangement where one conductor 2 is provided with a paper sheath 3 and the other conductor 2 'forms a helix around the circumference of the paper sheath 3. The ends of the conductors 2, 2' are subsequently led to the platform 4 for connection to the evaluation device.

The device 6 with an electric cable 1 for detecting the presence of liquids is formed of two conductors 2, 2 ', which are arranged so that each conductor 2, 2' is provided with a paper sheath 3 in the form of a helix and are intertwined in the form of a double helix. In another exemplary embodiment, the device 6 can be formed of two conductors 2, 2 ', where only one conductor 2 is provided with the paper sheath 3 and the other conductor 2' is formed in the shape of a helix around the circumference of the paper sheath 3. The conductors 2, 2 'are in in the dry state, electrically separated from each other by an insulating material, which in this exemplary embodiment is formed by the paper jacket 3 and in the presence of a liquid forms a closed electrical circuit. The device 6 is connected to the car control unit by means of a platform 4 into which the ends of the conductors 2, 2 'are led out and which is formed from a sticker on the surface of which the aluminum contacts 5 are formed. It is equipped with software means for immediate evaluation of the presence of liquid in the interior of the car.

Industrial applicability

The electric cable according to the technical solution can be used to detect the presence of liquids in car production to indicate leaks in so-called water tests on lines and test rooms when the car is exposed to water flow, or as to detect the presence of liquids as part of alarms and flood or leak detectors. in buildings.

Claims (9)

CLAIMS FOR PROTECTION Electric cable (1) for detecting the presence of liquids comprising at least two conductors (2, 2 ') which are electrically separated from each other by an insulating material, characterized in that the insulating material forms at least one paper sheath (3) with variable electrical conductivity, directly proportional to the moisture content of the paper sheath, arranged in the shape of a helix around at least one conductor (2,2 '). Electric cable according to claim 1, characterized in that the paper sheath (3) is formed around one conductor (2) and the other conductor (2 ') forms a helix around the circumference of the paper sheath (3). Electric cable according to claim 1, characterized in that the paper sheath (3) is formed around each conductor (2,2 ') and the conductors (2,2') thus insulated are arranged in the shape of a double helix. Electric cable according to one of Claims 1 to 3, characterized in that the paper sheath (3) is formed in a rectangular shape of any length and width of 10 to 100 mm and forms a cylindrical twisted paper string with a diameter of 1 to 2 in a helix. 5 mm. Electric cable according to one of Claims 1 to 4, characterized in that the paper sheath (3) is made of a cellulose-based material with a silk admixture. Electric cable according to one of Claims 1 to 5, characterized in that the at least one conductor (2,2 ') is made of copper or a copper-containing alloy. Electric cable according to one of Claims 1 to 6, characterized in that at least one end of the conductors (2, 2 ') with the paper sheath (3) is led to a platform (4) with contacts (5) for connecting the evaluation device. Electric cable according to claim 7, characterized in that the platform (4) is formed by a sticker with two contacts (5) made of aluminum. Device (6) for detecting the presence of liquids comprising an electric cable according to any one of claims 1 to 8, characterized in that the electric cable (1) is connected to a car control unit provided with software means for evaluating the presence of liquid in the car interior.