DE102020134731A1 - housing structure - Google Patents

Abstract

The invention discloses a housing structure (1) for the interface between two connectors (10), through which connectors (10) medium flows, comprising: a housing element (2) designed so that it can be fitted around the interface, a sensor structure (3) which is arranged in the housing element (2) and is designed to detect the medium and to output a measurement signal correlated therewith when medium gets into the housing element (2) from the interface, and an evaluation unit (4) , which is electrically connected to the sensor structure (4) and is designed to process the measurement signal.

Description

The invention relates to a housing structure for the interface between two connectors.

Media, such as chemical products, food, gas or mineral oil, are transported to their respective destinations in tank containers, tank trailers, flexitanks or intermediate bulk containers (IBC) by truck, train or ship.

A leak in the transport container must be avoided or at least detected early. Hazardous substances in particular result in major consequential damage, especially for the environment.

Measurements of changes in the fill level of the container are generally imprecise, since the escaping quantities can initially be small or an impending failure of the seal is to be detected without medium having already escaped.

There are also seals in a large number of other applications that are intended to prevent the escape of liquid or gas. Examples of this are process fittings, in the water distribution system or in the waste water collection system. If these seals leak as a result of external events (e.g. shocks, temperature, vibration, ...) or internal influences (e.g. aging, stress from the medium in the pipeline, ...), this can result in major damage to people and the environment.

The invention is based on the object of detecting a leak in a transport container in good time and thus offering the possibility of avoiding major consequential damage.

The object is achieved by a housing structure for the interface between two connectors, with medium flowing through the connectors, comprising: a housing member configured to be mountable around the interface; a sensor structure, which is arranged in the housing element and is designed to detect the medium and to output a measurement signal correlated therewith when medium gets into the housing element from the interface; and an evaluation unit which is electrically connected to the sensor structure and is designed to process the measurement signal.

The claimed device makes it possible to detect changes in sealing systems at an early stage in order to detect imminent leaks before they occur and to take countermeasures in order to avoid major damage caused by leaks.

One embodiment provides that the housing element is designed in two parts and can be attached around the interface by means of screws, gluing or welding.

One embodiment provides that the housing element is designed in two parts and can be attached so that it can be folded around the interface.

One embodiment provides that the housing element is configured flexibly as a strip, in particular the sensor structure is integrated or arranged separately with an electrical connection, and can be attached in a sealing manner around the interface.

One embodiment provides that the tape is designed to be self-adhesive.

One embodiment provides that the housing element comprises a seal which is designed in such a way that it seals medium flowing out of the interface from the inside of the housing element in relation to the outside.

One embodiment provides that the housing element comprises a medium collection point into which medium flows, with the sensor structure being in medium contact with the medium collection point.

One embodiment provides that the sensor structure is designed as a capacitive, inductive, conductive, optical, acoustic, temperature-dependent or (electro)magnetic sensor.

One embodiment provides that the sensor structure is designed in two parts with a first part and a second part, with the first part and second part being a first and second electrode, transmitting coil and receiving coil, light source and light receiver, sound source and Sound receiver, heater or temperature sensor, magnetic field generator or magnetic field receiver, or high-frequency transmitter or high-frequency receiver.

One embodiment provides that the evaluation unit emits a warning signal when the measurement signal exceeds a threshold value.

One embodiment provides that the evaluation unit transmits the measurement signal and/or the warning signal to a superordinate unit, in particular wirelessly.

One embodiment provides that an energy supply unit for supplying the sensor structure and the evaluation unit with energy, wherein the energy supply unit comprises a power pack, battery, accumulator, solar cell or vibration generator.

One embodiment provides that the sealing structure includes the two connecting pieces.

The object is further achieved by using the sealing structure as described above between a tank container, tank trailer, flexitank or intermediate bulk container and an outlet valve.

The object is further achieved by applying the sealing structure as described above between a flange and a fitting.

The object is further achieved by using the sealing structure as described above between two containers, in particular between two flanges or pipes or between a flange and a pipe section.

• 1a-e zeigen die beanspruchte Gehäusestruktur in verschiedenen Ausgestaltungen.
• 2 zeigt die beanspruchte Gehäusestruktur in einer Ausgestaltung.
• 3 zeigt die Anwendung bei einem Container.
• 4 zeigt ein Auslassventil eines Containers mit einer Gehäusestruktur.
• 5 zeigt die Anwendung bei einer Wechselarmatur.

This is explained in more detail with reference to the following figures.

• 1a-e show the claimed housing structure in different configurations.
• 2 shows the claimed housing structure in one embodiment.
• 3 shows the application for a container.
• 4 shows an outlet valve of a container with a housing structure.
• 5 shows the application for a retractable fitting.

In the figures, the same features are identified by the same reference symbols.

The housing structure 1 is, for example, in 1a shown. It comprises at least one housing element 2, a sensor structure 3 and an evaluation unit 4. The housing structure 1 is used between two connecting pieces 10.

A “connector” is a pipe, pipeline, flange 11 , container, valve, etc. A medium flows or flows through the connector 10 . A flange 11 can also be an end piece of a pipe, for example if two pipes are connected to one another by means of two flanges 11, such as in 1a shown. The two connecting pieces 10 thus form an interface, in the example in 1 the two flanges 11. The connectors or the interface usually include one or more seals.

The sensor structure 3 is designed to detect the medium and to output a measurement signal correlated therewith. If the interface is defective, the sensor structure 3 is in medium contact with the medium, ie medium gets into the housing from the interface. A leak in the interface, for example the seal, can thus be detected.

The evaluation unit 4 is electrically connected to the sensor structure 3 and is designed to process the measurement signal, for example to forward the measurement signal or to output a warning signal, for example if a threshold value of the measurement signal is exceeded. The evaluation unit 4 can transmit the measurement signal and/or the warning signal to a superordinate unit, in particular wirelessly.

The evaluation unit 4 includes an energy supply unit 5 for supplying the sensor structure 3 and the evaluation unit 4 itself with energy. This can be designed, for example, as a power pack, battery, accumulator, solar cell, or vibration generator.

The “housing element 2” is designed as a housing with an interior space and is made from a durable plastic or stainless steel, for example. The housing member 2 is designed to be attachable around the interface. For this purpose, it can be designed in two parts and can be attached around the interface by means of screws, gluing or welding. A corresponding closure, for example a bayonet closure, or a locking mechanism can also be arranged. The housing element 2 can comprise two half-shells. this shows 1a . The two parts of the housing element 2 are connected to one another by connecting elements 6, such as screws. In one embodiment, the housing structure 1 comprises a two-part housing element 2 with a hinge, see FIG 1e , by means of which the two parts can be moved towards one another.

In one embodiment, the interior of the housing element 2 comprises a seal 9 which is designed in such a way that it seals medium flowing out of the interface from the interior of the housing element 2 to the outside. The seal 9 is, for example, a flat seal, a molded seal or an O-ring. A press seal can also be present. The seal 9 is only in 1d drawn in, but nonetheless applicable in all configurations. Housing element 2 and seal 9 can form a unit, so this is in 1d shown in bold.

The housing element 2 can be configured flexibly as a strip, for example self-adhesive and be sealingly attachable around the interface. this shows 2 . In one configuration, the sensor structure 3 is integrated or arranged separately with an electrical connection. The first version shows 2 . The housing structure 1 is shown in dashed lines. This configuration is also used, for example, in a fitting 30, as in 5 shown.

The sensor structure will now be discussed.

The sensor structure 3 is designed either in one piece or in two parts with a first part 3i and a second part 3o. The one-piece design shows 1a , the two-piece die 1b-d .

With the one-piece design, all relevant parts are arranged in a housing or on a circuit board. If the interface is defective, medium drips directly onto the sensor structure 3. If the sensor structure 3 is a capacitive sensor, for example, the capacitance that can be measured changes.

In the two-part design, medium drips between the first and second part, see 1b . This can be done directly into the housing element 2 or into a medium collection point 7 into which medium flows, with the sensor structure 3 being in medium contact with the medium collection point 7 . Depending on the type of sensor structure 3 (see below), the walls of the medium collection point 7 must be made transparent. If the sensor structure 3 is an optical sensor, for example, then the walls must be transparent to the light.

The sensor structure 3 is designed as a capacitive, inductive, conductive, optical, acoustic, temperature-dependent or (electro)magnetic sensor.

Concrete configurations of the sensor structure 3 in the first part 3i or second part 3o include a first or second electrode, transmitting coil or receiving coil, light source or light receiver, sound source or sound receiver, heater or temperature sensor, magnetic field generator or magnetic field receiver, or high-frequency transmitter or high-frequency receiver. The same also applies to the one-piece design.

By using the appropriate measurement principles, it is possible to detect a leak in the interface. Specifically, a measurement of the capacitance between two or more electrodes (permeability/permittivity of the medium), between an electrode and a flange, the conductivity between two or more electrodes, sound propagation time, optical turbidity, optical refraction, thermal conductivity, change in a microwave line / Microwave resonator or a change in the magnetic field or a magnetic-inductive field.

It is not the absolute measured value that is fundamentally relevant for detecting a leak, but rather the change in the measured value compared to a previous state, for example a basic state that is determined directly after installation of the housing structure 1 . For example, a measurement can be taken every hour. If the measured value changes every hour, a leak can also be closed.

In addition to detecting leakage at the interface, a changed distance between the connecting elements 10 or the escape of medium can also be detected directly.

The following figures include applications of the claimed sealing structure 1.

the 3 shows the application of the housing structure 1 between a tank container 20 and an outlet valve 10. Applications in a tank trailer, flexitank or intermediate bulk container are also possible.

4 shows an outlet valve 21 of a container 20 from 3 with a gasket 23. The gasket 23 is placed at the location of the valve 21 indicated by the reference numeral 22. The part on the left protrudes from the container 20 , the part on the right is arranged in the container 20 . The valve 21 is screwed onto the container 20 by means of the connecting piece 10, the seal 23 preventing medium from escaping from the container. The connector 10 forms the corresponding remote station on the container 20, the interface. Around the interface, the housing structure 1 is attached (this is in 4 shown only symbolically; only the first part of the two-part structure of the housing element 2 is shown). Should the sealing element 23 be defective, a leakage of medium from the container 20 can be detected in good time by means of the sensor structure 3 and a corresponding warning signal can be passed on. Medium from the container 20 would not be stopped by the seal 23, but would get inside the housing element 2, where it can then be detected. If the housing structure 1 includes the seal 9 mentioned above, this is an additional safeguard that no medium escapes from the container 20 into the environment.

Due to the two-part design of the housing element 2, the housing structure 1 can also be used on existing interfaces the. Subsequent attachment and thus increased security is possible.

5 shows the application of the housing structure 1 between a flange and a fitting 30. The flange or the corresponding counterpart on the fitting are the "connection structure 10". Shown is the design of the housing element 2 as a band, the design with two half-shells such as in 1a or 1e shown is also possible.

The application of the sealing structure 1 between two containers, in particular between two flanges 11 or pipes 10 or between a flange and a pipe section, shows about the 1a .

Reference List

1

housing structure

2

housing element

3

sensor structure

3i

first part of 3

3o

second part of 3

4

evaluation unit

5

power supply unit

6

connector element

7

medium collection point

8th

hinge

9

poetry

10

connector

11

flange

20

Container

21

outlet valve

22

Place of attachment from 1 to 21

23

poetry

30

retractable fitting

Claims (16)

Housing structure (1) for the interface between two connectors (10), through which connectors (10) medium flows, comprising - a housing element (2) which is designed in such a way that it can be attached around the interface, - a sensor structure (3) which is arranged in the housing element (2) and is designed to detect the medium and to output a measurement signal correlated therewith when medium gets into the housing element (2) from the interface, and - an evaluation unit (4) which is electrically connected to the sensor structure (4) and is designed to process the measurement signal. Housing structure (1) according to claim 1 , wherein the housing element (2) is designed in two parts and can be attached around the interface by means of screws (6), gluing, or welding. Housing structure (1) according to claim 1 or 2 , wherein the housing element (2) is designed in two parts and can be attached foldable around the interface. Housing structure (1) according to claim 1 , wherein the housing element (2) is designed as a band, in particular the sensor structure (3) is integrated or arranged separately with an electrical connection, and can be attached sealingly around the interface. Housing structure (1) according to claim 4 , wherein the tape is designed to be self-adhesive. A housing structure (1) according to any one of the preceding claims, wherein the housing member (2) comprises a seal (9) adapted to seal medium flowing out of the interface from the interior of the housing member (2) to the outside. Housing structure (1) according to one of the preceding claims, further comprising a medium collection point (7) into which medium flows, the sensor structure (3) being in medium contact with the medium collection point (7). Housing structure (1) according to one of the preceding claims, wherein the sensor structure (3) is designed as a capacitive, inductive, conductive, optical, acoustic, temperature-dependent or (electro)magnetic sensor. Housing structure (1) according to claim 8 , wherein the sensor structure is designed in two parts with a first part (3i) or second part (3o), the first part (3i) or second part (3o) being a first or second electrode, transmission coil or Receiver coil, light source or light receiver, sound source or sound receiver, heater or temperature sensor, magnetic field generator or magnetic field receiver, or high-frequency transmitter or high-frequency receiver. Housing structure (1) according to one of the preceding claims, wherein the evaluation unit (4) emits a warning signal when the measurement signal exceeds a threshold value. Housing structure (1) according to any one of the preceding claims, in particular claim 10 , wherein the evaluation unit (4) transmits the measurement signal and/or the warning signal to a higher-level unit, in particular wirelessly. Housing structure (1) according to one of the preceding claims, which comprises an energy supply unit (5) for supplying the sensor structure and the evaluation unit with energy, the energy supply unit comprising a power pack, battery, accumulator, solar cell or vibration generator. Housing structure (1) according to any one of the preceding claims, further comprising the two connecting pieces (10). Use of the housing structure (1) according to any one of the preceding claims between a tank container (20), tank trailer, flexitank or intermediate bulk container and an outlet valve. Application of the housing structure (1) according to any one of the preceding claims, between a flange and a fitting (30). Application of the housing structure (1) according to one of the preceding claims between two containers, in particular between two flanges or tubes or between a flange and a tube section.

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