DE102021202279A1 - mounting adapter - Google Patents

Abstract

Mounting adapter, set up for mounting a sensor in a container, having a mechanical interface, set up for receiving the sensor in a receiving position of the sensor and for holding the sensor in a holding position of the sensor, a readable coding which contains information about the container and/or the Has measuring point, wherein the mechanical interface is designed such that a read head of the sensor moves when moving the sensor from the receiving position to the holding position on the readable coding.

Description

field of invention

The invention relates to sensor systems for process automation. In particular, the invention relates to a mounting adapter set up for mounting a sensor on a container, a sensor set up for mounting the sensor on a mounting adapter, and a method for automatically assigning a sensor to a container or a measuring point.

Technical background

Sensors, such as self-sufficient level sensors, can be provided for mobile measurement tasks. For greater flexibility, the sensors are not connected directly to the measuring container or tank, but indirectly via a mounting adapter that is permanently connected to the measuring container or tank. The self-sufficient sensor can thus be changed quickly and used for a wide variety of measurement tasks.

In order to set the sensor optimally for operation in the corresponding measurement environment, it can be parameterized by a user on site.

summary

Against this background, it is an object of the present disclosure to simplify the commissioning of sensors.

This object is solved by the features of the independent patent claims. Developments of the present disclosure result from the dependent claims and the following description of embodiments.

A first aspect of the present disclosure relates to a mounting adapter that is set up for mounting a sensor on a container. It has a mechanical interface with a readable coding. The mechanical interface is configured to receive the sensor in a sensor receiving position and to hold the sensor in a sensor holding position. The readable coding carries information about the container and/or the measuring point, ie it has it or stores it. The mechanical interface is designed and set up in such a way that a reading head of the sensor moves over the readable coding when the sensor is moved from its receiving position to the holding position, so that it can be read by the reading head.

Thus, when the sensor is mounted on the mounting adapter, it gains information about the measuring point or the container, which means that a corresponding sensor parameterization can be automatically triggered.

In a simple case, different parameterizations can be stored in the sensor, each of which is associated with the corresponding measurement points/containers. However, it is also possible for the sensor to communicate with an external location after the coding has been read out and for the latter to transmit the readout data. As a rule, this transmission will take place wirelessly using a radio module.

This transmission can also be routed via the user's hand-held device. For example, the sensor uses short-range communication to transmit the read data to the hand-held device (e.g. a mobile phone), which then communicates with the external unit (e.g. a cloud service or a server). The parameterization data can then be provided in the external location and transmitted to the sensor, which then carries out the parameterization.

The readable coding is arranged, for example, along one or more circular paths or straight paths. The tracks can also have a different course. It is important that the sensor is guided along these paths on its way from the pick-up position to the holding position so that it can read the markings.

The readable coding can have magnetic and/or colored elements, for example.

It can also have holes, recesses or elevations.

The mechanical interface is, for example, a screw-in thread or a bayonet lock.

According to a further embodiment, the information contained in the readable coding enables the sensor to be assigned to the container and/or the measuring point. After the sensor has been attached, this information can be sent wirelessly to a higher-level control unit, for example the cloud or a central server, which then triggers a corresponding parameterization of the sensor.

Another aspect of the present disclosure relates to a sensor used for mounting the Sensor is set up on the mounting adapter described above and below. In particular, the sensor has a reading head which, when the sensor is moved from the receiving position to the holding position, moves over the readable coding in order to read it.

The sensor includes one or more sensor elements that are positioned over the one or more circular or linear paths when the sensor is mounted to the mounting adapter.

According to a further embodiment, the sensor has a data memory for storing the information read out about the container/the measuring point.

According to a further embodiment, the sensor has a radio module for transmitting the information read out about the container/the measuring point to an external control unit.

According to a further embodiment, the sensor has a closed plastic housing through which a sensor system of the sensor measures.

According to a further embodiment, the sensor forms a closed plastic housing together with the mounting adapter, through which the sensor system of the sensor measures

The sensor system includes, for example, an antenna or an antenna array, which emits the radar signal from the sensor and receives the signal reflected on the surface of the filling material. The housing can be configured, for example, cylindrical or cuboid.

According to a further embodiment, the sensor is set up for measuring through a wall of the container.

According to a further embodiment of the present disclosure, a method for automatically assigning a sensor to a container or a measuring point is specified. First, the sensor is received in a mounting adapter in a receiving position. The user then rotates or pushes the sensor from the pick-up position to the final holding position, in which the sensor is/is firmly fixed. During this rotation or displacement process, a readable code containing information about the container/measuring point is read out by a read head of the sensor, which moves over this readable code when the sensor is moved from the receiving position to the holding position. This information can then either be processed directly in the sensor or automatically transmitted to an external control unit. The sensor or the external control unit then determines the form in which the sensor must be parameterized so that it is optimally adjusted to the existing measurement conditions. The control unit then transmits the corresponding parameterization commands/parameterization information to the sensor, which then carries out the parameterization independently.

Further embodiments of the invention are described below. The representations in the figures are schematic and not to scale. If the same reference symbols are used in the following description of the figures, then these denote the same or similar elements.

character list

• 1A 12 shows the bottom surface of a sensor according to one embodiment.
• 1B 12 shows the bottom surface of a sensor according to another embodiment.
• 2A 12 shows the top of a mounting adapter according to one embodiment.
• 2 B shows the top of a mounting adapter according to a further embodiment.
• 3 shows a sensor attached to a mounting adapter.
• 4 shows an exploded view of a sensor with mounting adapter.
• 5 shows a measuring system with a sensor and an external control unit.
• 6 12 shows a flow diagram of a method according to an embodiment.

Detailed Description of Embodiments

1A 12 shows the underside of a sensor according to an embodiment of the present disclosure. A sensor element 115 is provided, which is located on a circular path 117 with a first radius. The sensor element 115 can be integrated into the front housing section of the sensor. It can also be arranged inside the housing and measure through the housing wall or, alternatively, even protrude a little from the housing wall.

1B shows the underside of a similar sensor. Two circular paths 117, 118 are provided here, with different radii. A sensor element 115, 116 is located on each of the two circular paths.

2A shows the top of a mounting adapter, which is ring-shaped and thus has an opening in the middle, through which measurements can be taken.

Six elements 105, 106, 107, 108, 109, 110 are provided, which are arranged along a circular path whose radius corresponds to the circular path 117 of the sensor. If the sensor is screwed into the mounting adapter, the sensor element 115 slides (cf. 1A) along the circular path over the six elements 105 to 110 so that they can be read out.

In the 2 B are four additional sensor elements 111, 112, 113, 114 shown, which are also arranged along a circular path whose radius corresponds to the radius of the circular path 118 of the 1B corresponds, so that here too the sensor element 116 slides over the four markings 111 to 114 when the sensor is screwed into the mounting adapter.

The elements 105 to 110 can have different colors or a magnetization. They can also be in the form of recesses, holes or elevations. In a simple case, it can be stickers.

The different measuring containers/tanks can have different geometries and volumes. As a result, after changing the sensor, the parameterization of the sensor has to be readjusted. This can be done via a cloud service or directly in the sensor. Using the coded/marked mounting adapter 101 (cf. 3 and 4 ) there is no need for subsequent reconfiguration. Each measuring point only has to be created once in the cloud service.

When the measuring sensor 102 is screwed into the mounting adapter 101, the coding/marking is recognized and stored in the measuring sensor. In the case of a level measurement with subsequent data transmission, the coding/marking is also transmitted. The cloud service can thus automatically assign the correct measuring point setting.

Due to the fact that there are no storage modules or electronics in the mounting adapter 101, the mounting adapter can remain permanently installed on the measuring container/tank. Cleaning processes above 80°C are not a problem.

At this point it should be pointed out that the sensor can be a filling level sensor, for example a filling level radar or an ultrasonic sensor. The sensor can also be a pressure sensor, a flow sensor or a point level sensor. The term “sensor” is to be interpreted broadly.

4 shows an exploded view of the sensor 102 with the mounting adapter 101. The mounting adapter 101 has a screw thread 103. The sensor housing has a corresponding screw-in thread 104 with which it can be screwed into the mounting adapter.

In principle, however, another type of attachment can also be provided. The decisive factor is that when the sensor is attached to the mounting adapter, a movement is carried out during which the read head of the sensor is moved over the code so that the code can be read.

In the example of 1A until 2 B are clearly marked on one, two or more circular paths. These markings can be provided magnetically, in color, by stickers, holes, bulges, recesses, etc. The sensor has a corresponding sensor element at a fixed position per circular path. The sensor elements can be designed as Hal sensors reed contacts, optical sensors, etc. When screwing/sliding the sensor onto the mounting adapter, the marking is automatically read out and saved in the sensor.

5 12 shows a measurement system according to an embodiment of the present disclosure. The sensor 102 has a plurality of sensor elements 115, 116, which transmit the information read out to a control unit 121, which can then store it in the memory 119. A radio module 120 is provided, by means of which the information read out can be transmitted to an external control unit 121, which then provides the parameterization data. Alternatively, provision can also be made for the parameterization data to be provided by the device-internal control unit of the sensor 102 .

6 10 shows a flow chart of a method according to an embodiment of the present disclosure. In step 601 the sensor is received in a mounting adapter in a receiving position. In step 602, the sensor is moved from the receiving position in the direction of the holding position, and during this movement, in step 603, the read head of the sensor detects information about the container and/or the measuring point, which is contained in a coding of the mounting adapter. In step 604, this information is processed and corresponding parameterization data is generated, via which the sensor can be automatically parameterized.

In addition, it should be noted that "comprising" and "having" do not exclude other elements or steps and the indefinite articles "a" or "an" do not exclude a plurality. Furthermore, it should be pointed out that features or steps that have been described with reference to one of the above exemplary embodiments can also be used in combination with other features or steps of other exemplary embodiments described above. Any reference signs in the claims should not be construed as limitations.

Claims (17)

Mounting adapter (101) set up for mounting a sensor (102) on a container, comprising: a mechanical interface (103) configured to receive the sensor in a sensor receiving position and to hold the sensor in a sensor holding position; and a readable coding (105 - 110, 111 - 114) which has information about the container and/or the measuring point; wherein the mechanical interface is designed in such a way that a reading head (115, 116) of the sensor moves over the readable coding when the sensor is moved from the receiving position to the holding position. Mounting adapter (101) according to claim 1 , wherein the sensor (102) is a level radar sensor. Mounting adapter (101) according to any one of the preceding claims, wherein the information contained in the readable coding enables the sensor (102) to be assigned to the container and/or the measuring point. Mounting adapter (101) according to one of the preceding claims, wherein the readable coding (105 - 110, 111 - 114) is arranged along one or more circular paths (117, 118) or straight paths. Mounting adapter (101) according to one of the preceding claims, wherein the readable coding (105 - 110, 111 - 114) has magnetic or colored elements. Mounting adapter (101) according to one of the preceding claims, wherein the readable coding (105 - 110, 111 - 114) has holes, recesses or elevations. Mounting adapter (101) according to any one of the preceding claims, wherein the mechanical interface (103) is a screw-in thread. Sensor (102) set up for mounting the sensor (102) on a mounting adapter (101) according to any one of the preceding claims, comprising: a reading head (115, 116) which moves over the readable coding when the sensor is moved from the pick-up position to the holding position in order to read it out. Sensor (102) after claim 8 , wherein the reading head (115, 116) has one or more sensor elements (115, 116) which are arranged over the one or more circular tracks (117, 118) or linear tracks when the sensor is mounted on the mounting adapter. Sensor (102) after claim 8 or 9 , further comprising a data memory (119) for storing the read out information about the container. Sensor (102) according to one of Claims 8 until 10 , Further comprising a radio module (120) for transmitting the information read about the container to an external control unit (121). Sensor (102) according to one of Claims 8 until 11 , designed as a level radar sensor. Sensor (102) according to one of Claims 8 until 12 , arranged to measure through a wall of the container. Sensor (102) according to one of Claims 8 until 13 , Having a mounting adapter according to one of Claims 1 until 7 to which it is attached. Sensor (102) after Claim 14 , having a closed plastic housing through which a sensor system of the sensor measures. Method for automatically assigning a sensor (102) to a container or a measuring point, comprising the steps: receiving the sensor in a mounting adapter (101) in a receiving position; Reading out a readable code (105 - 110, 111 - 114), which has information about the container and/or the measuring point, using a reading head (115, 116) of the sensor, which moves from the receiving position to a holding position when the sensor is moved the readable coding moves. procedure after Claim 16 , further comprising the step: Automatic transmission of the information read out to an external control unit (121).

Images