PROTECTION DEVICE FOR SEALING A SENSOR DEVICE

Abstract

A protective device for sealing a sensor device of an intermediate area outside a sensor device attached to a container, a measuring device, a container with a fastening device for fastening a protective device and the use of a protective device for sealing a sensor device of an intermediate area outside a sensor device attached to a container, in particular a level radar sensor arrangement. The protective device comprises a housing and a circumferential seal arranged on a side of the housing intended for abutment against the container or on an outer side of the housing.

Claims

1. A protective device for sealing an intermediate region outside a sensor device attached to a container, comprising: a housing; and a circumferential seal disposed on a side of the housing configured to abut the container or disposed on an outer side of the housing.

2. The protective device of claim 1, further comprising: a fastening device configured to fasten the protective device to the container.

3. The protective device according to claim 1, wherein the circumferential seal is configured to seal the intermediate region created by the circumferential seal, the housing, and the container or created by the circumferential seal, the housing, the container, and a fastening device.

4. The protective device according to claim 1, wherein the housing comprises a connection channel and a membrane provided at one end of the connection channel and configured to enclose the sensor device.

5. The protective device according to claim 4, wherein the housing is configured to equalize pressure in the intermediate region through the connecting channel and the membrane.

6. The protective device according to claim 4, wherein the protective device is configured to protect the sensor device from the formation of condensate in the intermediate region by way of the circumferential seal and the connecting channel and the membrane of the housing and a fastening device.

7. The protective device according to claim 1, wherein the circumferential seal is configured to be deformable.

8. The protective device according to claim 1, wherein the circumferential seal comprises a hollow chamber profile, or wherein the circumferential seal is made of a closed porous material.

9. The protective device according to claim 1, wherein the circumferential seal comprises a widening configured to press in and secure the circumferential seal to the housing.

10. The protective device according to claim 4, wherein the membrane is a waterproof and gas permeable pressure equalizing membrane.

11. The protective device according to claim 2, wherein the fastening device is formed as a snap lock, a bayonet lock, or a screw lock.

12. The protective device according to claim 2, wherein the fastening device is configured to generate a compressive force on the circumferential seal when the protective device is fastened to the container to press the circumferential seal against the container or against the fastening device.

13. A measuring device, comprising: a sensor arrangement; and a protective device configured to seal an intermediate region outside a sensor device attached to a container, wherein the protective device includes a housing and a circumferential seal-disposed on a side of the housing configured to abut the container or disposed on an outer side of the housing.

14. A container, comprising: a fastening device configured to fasten a protective device, wherein the protective device is configured to seal an intermediate region outside a sensor device attached to the container and includes a housing and a circumferential seal disposed on a side of the housing configured to abut the container or disposed on an outer side of the housing.

15. (canceled)

16. The protective device according to claim 2, wherein the circumferential seal is configured to seal the intermediate region created by the circumferential seal, the housing, and the container or created by the circumferential seal, the housing, the container, and the fastening device.

17. The protective device according to claim 2, wherein the housing comprises a connection channel and a membrane provided at one end of the connection channel and configured to enclose the sensor device.

18. The protective device according to claim 3, wherein the housing comprises a connection channel and a membrane provided at one end of the connection channel and configured to enclose the sensor device.

19. The protective device according to claim 5, wherein the protective device is configured to protect the sensor device from the formation of condensate in the intermediate region by way of the circumferential seal and the connecting channel and the membrane of the housing and a fastening device.

20. The protective device according to claim 2, wherein the circumferential seal is configured to be deformable.

21. The protective device according to claim 3, wherein the circumferential seal is configured to be deformable.

Description

SHORT DESCRIPTION OF THE FIGURES

[0040] FIG. 1A shows a schematic representation of a protective device for sealing a sensor device according to an embodiment.

[0041] FIG. 1B shows a schematic representation of a protective device for sealing a sensor device according to a further embodiment.

[0042] FIG. 2A shows a schematic representation of a protective device for sealing a sensor device according to a further embodiment.

[0043] FIG. 2B shows a schematic diagram of an arrangement of a seal according to an embodiment.

[0044] FIG. 3A shows a schematic representation of a circumferential seal of the protective device according to an embodiment.

[0045] FIG. 3B shows a schematic representation of a circumferential seal of the protective device according to a further embodiment.

[0046] FIG. 4 shows a schematic representation of a circumferential seal of the protective device according to a further embodiment.

DETAILED DESCRIPTION OF EXAMPLES OF EXECUTION

[0047] FIG. 1A shows a schematic illustration of a protective device for sealing an intermediate area 160 outside a sensor device 110 attached to a container 150. The protective device comprises a housing 140 and a circumferential seal 130. Further, the protective device comprises a fastening device 100 configured to fasten the protective device to the container 150.

[0048] The housing 140 has a lower side, namely a side 142 provided for abutment against the container 150, on which the seal 130 circulating on the outer side of the housing 140 is arranged when the protective device is fastened to the container 150.

[0049] Alternatively, FIG. 1B shows a protective device having a housing 140 and a perimeter seal 130 disposed on an exterior 143 of the housing 140.

[0050] FIG. 1A and FIG. 1B show that the sensor arrangement 110 is enclosed by the housing 140. The sensor arrangement 110 comprises an antenna 125, which is arranged to transmit and receive a measurement signal in the direction of the container 150 or of a filling material in the container 150, and an electronics unit 126, which is arranged to evaluate the measurement signal. The measurement signal, for example in the form of an electromagnetic wave, propagates along a main beam direction 120 in the direction of the container 150.

[0051] In FIG. 1A, an intermediate region or enclosed space 160 is created or formed by the circumferential seal 130, the housing 140, and the container 150 when the housing 140 is attached to the container 150. Compared to FIG. 1A, an intermediate region 160 is formed by the circumferential seal 130, the housing 140, the container 150, and the attachment device 100 when the housing 140 is attached to the container 150. The intermediate region 160 is separated from the surrounding environment, which is the entire space outside the container and the enclosed intermediate region 160.

[0052] Furthermore, the housing 140 comprises a connecting channel 180 and a membrane 190, in particular a waterproof and gas-permeable pressure equalizing membrane, and is adapted to equalize the pressure in the intermediate region 160 with the environment through the connecting channel 180 and the membrane 190.

[0053] The connecting channel 180 is in the form of a feedthrough in the housing and may have an upper end and a lower end. The membrane 190 is provided at the upper end of the connecting channel 180. Further, the connecting channel 180 is configured to connect the volume in the intermediate region 160 to the environment via the waterproof, gas-permeable pressure equalization membrane 190. Pressure equalization occurs, for example when a higher pressure is present in the intermediate region, by transporting the gaseous molecules from the intermediate region 160 to the environment. Thus, formation of condensate or water accumulation in the intermediate region 160 can be prevented.

[0054] Further, the protective device is adapted to protect the sensor device 110 from condensate in the intermediate region 160 by means of the circumferential seal 130, the connecting channel 180, and the membrane 190.

[0055] By means of the circumferential seal 130, the penetration of a large portion of moisture, such as rainwater or other liquid media, as well as moist air, from the environment into the enclosed intermediate region 160 can be prevented. However, the penetration or permeation of moist air or other gases into the intermediate region 160 cannot be completely prevented by the circumferential seal 130. In addition, a condensate may also be formed from the volume of air existing in the intermediate region in the form of the condensed water due to the change in the environmental conditions such as the temperature variation, and may be accumulated on the outer wall of the container 150 in the region of the intermediate region 160. This may interfere with or significantly complicate the measurement of the sensor arrangement 110, as the measurement signal may be reflected, absorbed, or not continued at all in the main beam direction 120 by the condensate.

[0056] The protective device is adapted to prevent, by means of the connecting channel 180 and the membrane 190 of the housing 140, the formation of the condensate in the intermediate region 160 by allowing the intermediate region 160 to be reconnected to the environment via the connecting channel 180 and the waterproof, gas-permeable pressure equalizing membrane 190, and equalizing the pressure within the intermediate region 160 with the environment. The diffusion of the gaseous molecules from the intermediate region 160 through the pressure equalization membrane 190 may cause the amount of the condensate formed, which is formed in a small amount due to the temperature or pressure variation, for example, to decrease. Thus, the formation of the condensate in the main beam direction 120 of the measurement signal can be prevented.

[0057] Advantageously, the protective device with the arrangement of the circumferential seal and the housing with the connecting channel and the membrane can enable a double protection for the sensor device. Due to the double protection, on the one hand against the penetration of the majority of water or other liquid media as well as humid air from the environment into the enclosed space 160 by means of the circumferential seal 130 and on the other hand against the formation of the condensate within the enclosed space by means of the connecting channel 180 and the membrane 190 of the housing 140, the durability as well as the reliability of the sensor arrangement 180 can be improved in an increased manner. As a result, the cost of maintenance and repair of the sensor arrangement can be saved.

[0058] The mounting device 100 of the protective device may be fixedly mounted to the container 150.

[0059] Alternatively, the protective device 110 may be secured, for example, by means of a double-sided closed-cell acrylic adhesive tape 195 directed to seal the enclosed intermediate region 160.

[0060] For example, the protective device in FIG. 1A and FIG. 1B is fastened by screwing or bolting the housing 140 to the container 150 via the fastening device 100 using screws. The fastening device 100 may also be a snap-on fastener or bayonet fastener.

[0061] Alternatively, the fastening device 100 can be designed as a screw cap, as shown in FIG. 2A. For this purpose, a thread 145 is provided on the housing 140 and a corresponding counter-thread 105 on the fastening device 100.

[0062] Alternatively, as shown in FIG. 2B, the seal 130 may be between the housing 140 and the fastening device 100. For this purpose, the attachment of the fastening device 100 and/or the bonding by means of the adhesive tape 195 may have a sealing property.

[0063] Further, when the protective device 110 is attached to the container 150, the attachment device 100 is configured to generate a compressive force on the circumferential seal 130 to press the circumferential seal against the container 150 or against the attachment device 100.

[0064] The fastening device 100 may be configured to create a deformation or compression of the flexible circumferential seal 130 when the housing 140 is attached to the container 150, thereby applying a compressive force to the circumferential seal 130. The compression may deform the circumferential seal 130 sufficiently to increase the contact area between the seal 130 and the housing 140, and to increase the contact area between the seal 130 and the container 150 or the attachment device 100, thereby ensuring sealing of the enclosed intermediate region 160.

[0065] Alternatively, or in addition, the attachment device 100 may include a tensioning strap to compress the perimeter seal 130 when the housing 140 is attached to the container 150 such that the intermediate area 160 is minimized.

[0066] To ensure that the circumferential seal 130 is always in contact due to the applied compressive force, the circumferential seal 130 is designed to be flexible, deformable or compressible and is arranged on the outside between the housing 140 and the container 150 or the fastening device 100. The circumferential seal 130 may be made of an elastomer or an elastic plastic. Since it is possible for the container 150, the housing 140 or the fastening device 100 to have a non-uniformly curved surface after long use and/or for the surface of the container 150 to deform as a result of the filling or emptying process, or as a result of the movement of the filling material during transport or as a result of the influence of temperature changes, the use of the flexibly deformable circumferential seal 130 can enable better adaptation to the surfaces contacting the seal and thus optimize the seal.

[0067] The circumferential seal 130 can be formed such that the seal either has a hollow chamber profile, as shown in FIG. 3A, or is made of a closed porous material, as shown in FIG. 3B.

[0068] Alternatively, FIG. 4 shows that the circumferential seal 130 includes a widening 310 configured to press in and secure the circumferential seal 130 to the housing 140. Accordingly, the housing 140 includes a recess 320. To this end, the recess 320 may be formed in a shape corresponding to the widening 310 of the circumferential seal 130. The housing 140 may be integrally formed with the circumferential seal 130 by means of the recess 320 and the widening 310.

[0069] Supplementally, it should be noted that “comprising” or “having” does not exclude other elements, and “a” or “an” does not exclude a plurality. It should further be noted that features described with reference to any of the above embodiments may also be used in combination with other features of other embodiments described above. Reference signs in the claims are not to be regarded as a limitation.