(19)
(11)EP 3 651 267 A1

(12)EUROPEAN PATENT APPLICATION

(43)Date of publication:
13.05.2020 Bulletin 2020/20

(21)Application number: 18204575.7

(22)Date of filing:  06.11.2018
(51)International Patent Classification (IPC): 
H01Q 1/04(2006.01)
G01F 15/06(2006.01)
H01Q 1/20(2006.01)
H01Q 1/52(2006.01)
G01D 4/00(2006.01)
H01Q 1/22(2006.01)
E02D 29/14(2006.01)
(84)Designated Contracting States:
AL AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HR HU IE IS IT LI LT LU LV MC MK MT NL NO PL PT RO RS SE SI SK SM TR
Designated Extension States:
BA ME
Designated Validation States:
KH MA MD TN

(71)Applicant: Walter Tecyard GmbH & Co. KG
24106 Kiel (DE)

(72)Inventors:
  • BEHRENS, Ralf
    24109 Kiel (DE)
  • LÜRING, Carsten
    24105 Kiel (DE)
  • LEYBOLD, Axel
    24107 Kiel (DE)

(74)Representative: Zacco GmbH 
Bayerstrasse 83
80335 München
80335 München (DE)

  


(54)COVER ELEMENT WITH TRANSMITTER SYSTEM


(57) The invention relates to a remote sensing system comprising an internal antenna unit securable to the lower surface of a cover element, especially a manhole cover, an external antenna unit for transmitting a signal to a communication device outside of the upper surface of the cover element, especially the manhole cover, and coupling means electrically coupling the internal antenna unit to the external antenna unit. The invention also relates to a cover element, especially a manhole cover, with an aperture comprising an internal antenna unit secured to the lower surface and an external antenna unit placed within/inside the aperture and coupling means electrically coupling the internal antenna unit to the external antenna unit. The invention further also relates to a transmitter system comprising a cover element, especially a manhole cover, with an aperture, an internal antenna unit secured to the lower surface of the manhole cover body, an external antenna unit placed within/inside the aperture, coupling means electrically coupling the internal antenna unit to the external antenna unit, and finally a transmitter unit configured to transmit radio signals to the internal antenna unit.




Description

1. Summary:



[0001] The invention relates to a remote sensing system comprising an internal antenna unit securable to the lower surface of a cover element, especially a manhole cover, an external antenna unit for transmitting a signal to a communication device outside of the upper surface of the cover element, especially the manhole cover, and coupling means electrically coupling the internal antenna unit to the external antenna unit. The invention also relates to a cover element, especially a manhole cover, with an aperture comprising an internal antenna unit secured to the lower surface and an external antenna unit placed within/inside the aperture and coupling means electrically coupling the internal antenna unit to the external antenna unit. The invention further also relates to a transmitter system comprising a cover element, especially a manhole cover, with an aperture, an internal antenna unit secured to the lower surface of the manhole cover body, an external antenna unit placed within/inside the aperture, coupling means electrically coupling the internal antenna unit to the external antenna unit, and finally a transmitter unit configured to transmit radio signals to the internal antenna unit.

2. Background:



[0002] Cover elements, especially manhole cover are usually made of massive cast iron, sometimes even being reinforced on the surface by a layer of concrete. In addition, manhole covers are electrically well-grounded, Accordingly, any attempt at sending a signal (radio signal) or date from inside a shaft or manhole through a manhole cover to the outside (e.g. to gateways and on to the internet) faces massive difficulties and calls for specific solutions and constructions.

[0003] The following documents have been identified as touching the area of the problem described above.

[0004] DE102005062732A1 of Deutsche Telekom (DE) discloses a cover element for a shaft with an antenna for a radio network being fixed to the lower surface and sending a signal upwards.

[0005] DE202007006970U1 of Selfsan Consult GmbH (DE) refers to a cover element with a monitoring unit being bound to the frame.

[0006] EP 1 894 174 of Hadronex, LLC (US) discloses a cover element for a shaft in which at least one hole is drilled into the cover element through which a connector cable connects from within to an external antenna.

[0007] DE20209228U1 (as well as DE10227896A1) of Ms. Susanne Weritz (DE) discloses a cover element that comprises a transponder unit which stores data that may be read with a specific reader.

[0008] The inventors have found a solution to the above-described problem as further defined below.

3. Summary of the invention:



[0009] The invention relates in an ASPECT A to a remote sensing system comprising:

an internal antenna unit securable to the lower surface of a cover element, especially a manhole cover, configured to receive a signal from a transmitting unit placed within the manhole;

an external antenna unit for transmitting a signal to a communication device outside of the upper surface of the cover element, especially the manhole cover;

the external antenna unit configured to be placed within an aperture,
the aperture perforating the cover element, especially the manhole cover, from the upper to the lower surface of the cover element, especially the manhole cover, and

the external antenna unit not protruding beyond the upper surface of the cover element, especially the manhole cover;

coupling means electrically coupling the internal antenna unit to the external antenna unit,
whereby the internal antenna unit and the external antenna unit are coupled by the coupling means for transmitting a signal from the internal antenna unit to the external antenna unit.



[0010] The invention further relates in an ASPECT B to a cover element, especially a manhole cover, comprising:

a manhole cover body comprising a lower surface, an upper surface and an aperture extending from the lower surface to the upper surface;

an internal antenna unit secured to the lower surface of the manhole cover body; an external antenna unit placed within/inside the aperture; and

coupling means electrically coupling the internal antenna unit to the external antenna unit. Preferably, the coupling means transmit radio signals received by the internal antenna unit to the external antenna unit.



[0011] The invention finally also relates in an ASPECT C to a transmitter system comprising:

a cover element, especially a manhole cover, comprising:

a manhole cover body comprising a lower surface, an upper surface and an aperture extending from the lower surface to the upper surface;

an internal antenna unit secured to the lower surface of the manhole cover body;

an external antenna unit placed within/inside the aperture; and

coupling means electrically coupling the internal antenna unit to the external antenna unit; and

a transmitter unit configured to transmit radio signals to the internal antenna unit. Preferably, the transmitter unit is placed within the manhole and/or the transmitter unit comprises a sensor or is coupled to a sensor unit. In a further preferred embodiment of ASPECT C the coupling means transmit radio signals received by the internal antenna unit to the external antenna unit.



[0012] The above-mentioned ASPECTS A, B and C with the arrangements including the aperture extending from the lower surface to the upper surface of the cover element (manhole cover), with the external antenna unit placed within/inside the aperture provides a highly advantageous solution to the above-mentioned problem with an effective protection of the external antenna combined with a signal transmission.

4. Description of the figures



[0013] 

Figure 1) schematically shows a cross section of a manhole (1) showing a manhole cover (2) with an internal antenna unit (3), an external antenna unit (4) being coupled via coupling means (5) (here a connector cable). It is an example of an embodiments of ASPECTS A, B and C of the invention making use of passive transmission, using e.g, LoRaWAN.

Figure 2) schematically shows a cross section of a manhole (1), showing a manhole cover (2) with an internal antenna unit (3), an external antenna unit (4) being coupled via coupling means (5) (here two connector cables with a battery-driven repeater unit (13)). It is an example of an embodiments of ASPECTS A, B and C of the invention using active transmission using e.g,. LoRaWAN with a battery driven repeater unit.

Figure 3) schematically shows - in a plan view at an angle from above - a manhole cover (2) according to the invention. It is an example of an embodiments of ASPECTS A and B of the invention.

Figure 4) schematically shows - in a plan view at an angle from below - a manhole cover (2) according to the invention. It is an example of an embodiments of ASPECTS A and B of the invention.

Figure 5) shows a cross section view of a manhole cover (2) according to a preferred embodiment of the invention focusing on flexibly fixing by a holding body (15) the external antenna unit (4) in relation to the upper surface (7) of the manhole cover (2) if e.g. a car's tire (X) would pass over it.

Figure 6) shows - in detail of Figure 5) - as a preferred embodiment of the invention the holding body (15) flexibly fixing the external antenna unit (4) to the manhole cover (2).

Figure 7) schematically shows a cross section of a manhole (1), showing a manhole cover (2) with an internal antenna unit (3), an external antenna unit (4) being coupled via coupling means (5). It is also showing the arrangement of two loop antennas, one being part of the internal antenna unit (3) on the lower surface (6) of the manhole cover (2) and the other being the antenna (25) of the transmitter unit (10) from within the manhole (1) which are brought in close communication. It is an example of an embodiments of ASPECTS A, B and C of the invention making use of passive transmission being also usable for the transfer of mobile communications data.

Figure 8) schematically shows a plan view on an antenna used in the invention.


5. Detailed Description of the invention:


5.1 Details of the first ASPECT A:



[0014] In an EMBODIMENT A1 the present invention relates to a remote sensing system comprising:

an internal antenna unit (3) securable to the lower surface (6) of a cover element, especially a manhole cover (2), configured to receive a signal from a transmitting unit (10) placed within the manhole (1);

an external antenna unit (4) for transmitting a signal to a communication device outside of the upper surface (7) of the cover element, especially the manhole cover (2);

the external antenna unit (4) configured to be placed within an aperture (8),
the aperture (8) perforating the cover element, especially the manhole cover (2), from the upper (6) to the lower surface (7) of the cover element, especially the manhole cover (2), and

the external antenna unit (3) not protruding beyond the upper surface (7) of the cover element, especially the manhole cover (2);

coupling means (5) electrically coupling the internal antenna unit (3) to the external antenna unit (4),
whereby the internal antenna unit (3) and the external antenna unit (4) are coupled by the coupling means (5) for transmitting a signal from the internal antenna unit (3) to the external antenna unit (4).



[0015] The ASPECT A with the arrangements including the aperture extending from the lower surface to the upper surface of the cover element (manhole cover) and with the external antenna unit placed within/inside the aperture provides a highly advantageous solution to the above-mentioned problem with an effective protection of the external antenna combined with a signal transmission.

[0016] The remote sensing system of ASPECT A is especially suitable for the use of LoRaWAN (Long Range Wide Area Network) systems.

[0017] It has to be noted that ASPECT A does not have a fixed connector (e.g. cable) connecting the cover element with any part connected to the walls of the shaft or manhole. This has the advantage that otherwise this would easily result in damage to the connector if the cover element is moved or removed from the shaft.

[0018] Further, in ASPECT A coupling means (5) do not reach into or are found within the aperture.

[0019] Within the meaning of the invention, the term "external antenna unit" refers to a unit including an antenna able to transmit a signal received from beyond the lower surface of the cover element to the external antenna unit.

[0020] Within the meaning of the invention, the term "internal antenna unit" refers to a unit including an antenna able to receive a signal transmit the external antenna unit (e.g. via coupling means) for transmitting a signal to a communication device outside of the upper surface of the cover element.

[0021] Both antenna units but especially the external antenna unit must be built to withstand harsh usage conditions. These include resistance to wear (as seen if constantly in contact with traffic (tires, boots etc.) the use of salt, sand and grains in winter as well as vandalism. These antennas, especially the "external antenna unit" thus most often has a "top" which is preferably formed of wear resistant polymers like Polyethylenterephthalat or Polyethylen (as PE-HD. As these shafts are often connected to the communal water supply care has to be taken in selecting these materials from a toxicological aspect.

[0022] Within the meaning of the invention, the term "shaft" refers to all kinds of perpendicular opening especially a drainage body including specifically a "manhole".

[0023] Within the meaning of the invention, the term "manhole" shall be taken in its broadest sense to include, without limitation, underground vaults, for example manholes or utility vaults, as well as any other enclosed area, underground or above ground, that has instrumentation or materials or aspects in or about the enclosed area that may be monitored.

[0024] Within the meaning of the invention, the term "cover element" refers to all elements for covering the horizontal surface of any kind of shaft or any other drainage body. It specifically also encompasses any frame element (usually found at the upper end of the shaft (or manhole)) used to position the cover element (horizontally) over the shaft. "Cover element" as a preferred element encompasses also a "manhole cover".

[0025] Within the meaning of the invention, the term "manhole cover" shall be taken in its broadest sense to include, without limitation, covers for underground vaults, for example manholes or utility vaults, as well as enclosure barriers such as doors or walls for any other enclosed area, underground or above ground, that has instrumentation or materials or aspects in or about the enclosed area that may be monitored. In most cases, a manhole cover is made of cast iron, sometimes being reinforced on the surface by a layer of concrete, although also polymers are used either fully or partly in combination with cast iron.

[0026] Within the meaning of the invention, the term "coupling means" refers all elements that could electrically couple the internal antenna unit to the external antenna unit, including one or more connector cables and could include further elements like a "repeater unit".

[0027] Within the meaning of the invention, the term "upper surface of the cover element" refers to the surface of a cover element (or of a manhole cover) that would face up and face the outside of a shaft (or a manhole) if the cover element is used to horizontally close the shaft or manhole. The "upper surface" would include also the upper surface of a manhole cover body (usually made of cast iron) or the upper surface of a concrete layer of top of a "manhole cover body" but could also include fully or partly polymer material.

[0028] Within the meaning of the invention, the term "lower surface of the cover element" refers to the surface of a cover element (or of a manhole cover) that would face down and face the inside of a shaft (or a manhole) if the cover element is used to horizontally close the shaft or manhole. The "lower surface" would include also the lower surface of a manhole cover body (usually made of cast iron but could also include fully or partly polymer material) or one or more "ridges" fixed (or annealed" to the lower surface of the "cover element". Thus, one or more "ridges" fixed (or annealed" to the lower surface of the "cover element" becomes part of the "lower surface of the cover element".

[0029] Within the meaning of the invention, the term "transmitting a signal to a communication device outside of the upper surface" means that the signal is transmitted in a direction to the upside of the upper surface of the cover element and thus, outside the shaft or manhole. The communication device could be any device able to receive a signal including one or more gateways and on (through these) to a communication network (e.g. the internet).

[0030] Within the meaning of the invention, the term "aperture" means any opening that perforates the cover element or manhole cover from the upper to the lower surface of the cover element or manhole cover (2). The aperture may take any form but must be able to accommodate the external antenna unit.

[0031] In a preferred EMBODIMENT A2 of the remote sensing system of EMBODIMENT A1, the cover element is a manhole cover (2)

[0032] In a preferred EMBODIMENT A3 of the remote sensing system of any one of EMBODIMENTS A1 or A2, the coupling means (5) is a connector cable connecting the internal antenna unit (3) directly to the external antenna unit (4).

[0033] In a preferred EMBODIMENT A4 of the remote sensing system of any one of EMBODIMENTS A1 to A3, the coupling means (5) comprise a repeater unit (13).

[0034] In a preferred EMBODIMENT A5 of the remote sensing system of EMBODIMENTS A1 to A4, the external antenna unit (4) is configured to cancel the electromagnetic interference (EMI) of the cover element or manhole cover (2).

[0035] Within the meaning of the invention, the term "electromagnetic interference (EMI)" refers to the EMI seen in the environment the invention is used in, the cover elements or manholes. As said above, manhole cover are usually made of massive cast iron, sometimes even being reinforced on the surface by a layer of concrete and sometimes also specific polymers. In addition, manhole covers are electrically well-grounded. Accordingly, an antenna used inside a manhole cover faces a strong EMI effect, making it preferably to specifically adapt the antenna. If successful, it also results in the antenna fulfilling criteria of electromagnetic compatibility (EMC).

[0036] The antenna should preferably be adapted to the surrounding material, especially regarding the length of the antenna. Potentially influencing factors besides the attributes of the surrounding material (including their connectivity), are the electrical grounding, the mass, the position relative to the manhole and the positioning of the circuit paths on the circuit board as well as the material of the circuit board.

[0037] Examples of preferred antenna include antenna with one or more of the following attributes:
  • based on a circuit board,
  • are a resonant narrow band antenna,
  • show a sinusoidal path of the current in the antenna,
  • have a length of the antenna of a multitude of ¼ λ (wavelength)
  • has a base impedance and transmitter impedance of 50 Ω, and/or
  • a directional radio pattern being an upwards pointing kidney characteristic.


[0038] Preferably, an antenna - used in this invention - shows 2 of the above attributes, 3 of the above attributes or 4 of the above attributes, and most preferably all of the above attributes.

[0039] In a preferred embodiment the circuit board - used in this invention - has a breadth of 10 mm to 100 mm, preferably of 20 mm to 50 mm, and a length of 10 mm to 100 mm, preferably of 20 mm to 50 mm, most preferably a breadth and a length of 20 mm to 50 mm.

[0040] Preferably, the antenna, especially if build on a circuit board uses material, e.g. polymeric material protecting the antenna against corrosion.

[0041] In a preferred EMBODIMENT A6 of the remote sensing system of any one of EMBODIMENTS A1 to A4, the internal antenna unit (3) is configured to cancel the electromagnetic interference (EMI) of the cover element or manhole cover (2).

[0042] In a preferred EMBODIMENT A7 of the remote sensing system of any one of EMBODIMENTS A1 to A4, the internal antenna unit (3) and the external antenna unit (4) are configured to cancel the electromagnetic interference (EMI) of the cover element or manhole cover (2).

[0043] In a preferred EMBODIMENT A8 of the remote sensing system of any one of EMBODIMENTS A1 to A7, the external antenna unit (4) is formed on a circuit board (21) preferably the antenna has a base impedance and transmitter impedance of 50 Ω, and/or is a resonant narrow band antenna and/or has a length of a multitude of ¼ λ (wavelength).
In a preferred embodiment of EMBODIMENT A8 the external antenna unit (4) is configured to cancel the electromagnetic interference (EMI) of the cover element, especially the manhole cover (2), formed on a circuit board (21), the antenna having a base impedance and transmitter impedance of 50 Ω, and is a resonant narrow band antenna and has a length of a multitude of ¼ λ (wavelength).

[0044] In a preferred EMBODIMENT A9 of the remote sensing system of any one of EMBODIMENTS A1 to A7, the internal antenna unit (3) is formed on a circuit board (21) preferably the antenna has a base impedance and transmitter impedance of 50 Ω, and/or is a resonant narrow band antenna and/or has a length of a multitude of ¼ λ (wavelength).

[0045] In a preferred EMBODIMENT A10 of the remote sensing system of any one of EMBODIMENTS A1 to A7, the internal antenna unit (3) and the external antenna unit (4) are formed on a circuit board (21) preferably the antennas have a base impedance and transmitter impedance of 50 Ω, and/or are resonant narrow band antenna and/or have a length of a multitude of ¼ λ (wavelength).

[0046] In a preferred EMBODIMENT A11 of the remote sensing system of any one of EMBODIMENTS A1 to A10, the external antenna unit (4) is not attached to the walls of the aperture (8).

[0047] In a preferred EMBODIMENT A12 of the remote sensing system of any one of EMBODIMENTS A1 to A11, a gap (14) is provided between the external antenna unit (4) and the wall of the aperture (8).

[0048] In a preferred EMBODIMENT A13 of the remote sensing system of any one of EMBODIMENTS A1 to A12, the external antenna unit (4) is flexibly attached to the lower surface (6) of the cover element, of the manhole cover (2) or to a ridge being fixed to them forming part of said lower surface (6).

[0049] In a preferred EMBODIMENT A14 of the remote sensing system of any one of EMBODIMENTS A1 to A13, there is further a holding body (15) having a first arm (16) extending into a first direction and a second arm (17) extending in a second direction essentially perpendicular to the first direction, wherein the first arm (16) is flexibly attached to the lower surface (6) of the cover element or the manhole cover (2), and the second arm (17) comprises the external antenna unit (4) and extending into the aperture (8).

[0050] In a preferred EMBODIMENT A15 of the remote sensing system of any one of EMBODIMENT A14, the second arm (17) is not attached to the walls of the aperture (8).

[0051] In a preferred EMBODIMENT A16 of the remote sensing system of any one of EMBODIMENTS A14 or A15, a gap (14) is provided between the second arm (17) and the wall of the aperture (8).

[0052] In a preferred EMBODIMENT A17 of the remote sensing system of any one of EMBODIMENTS A1 to A16, one or more ridges (20) are fixed to the cover element, to the manhole cover (2). By being fixed to the cover element, or to the manhole cover (2), the one or more ridges (20) become part of the lower surface (6) of the cover element, especially the manhole cover (2). In this EMBODIMENT A17 the one or more ridges (20) protrude beyond the internal antenna unit (3, 4), the coupling means (5) and the optional repeater unit (13) and/or any optional electrical source (18).

[0053] In a preferred EMBODIMENT A18 of the remote sensing system of any one of EMBODIMENTS A1 to A17, the antenna units (3, 4), the coupling means (5) and the optional repeater unit (13) are powered by an electrical source (18). EMBODIMENT A18 is the example of active transmission. One option the source to be selected is a battery.

[0054] Within the meaning of the invention, the term "electrical source " refers to any source of electrical energy including batteries batteries/accumulators, local power supply voltage local power supply voltage or also electricity supplied by so called "energy harvesting" structures (e.g. solar power).

[0055] In principle, the system according to ASPECT A could be used - depending on the requirements on the distance of the emitted radio signals - in two variants, the active (powered by an electrical source) or the passive (not powered by an electrical source) transmission (of the signal through the cover element/manhole).

[0056] Passive transmission has the advantage that no energy source is needed. The disadvantage is the limited range achievable and that can - depending on obstacles being present close to the cover element - only be 400m to 1500m. Still, the passive transmission may be used alone or additionally even if an active repeater is used (e.g. if a gateway is in range). Passive transmission may also be used as a back-up-system if the active repeater fails.

[0057] In a preferred embodiment of EMBODIMENT A18 the antenna units (3,4), the coupling means (5) and/or the optional repeater unit (13) are powered by energy harvesting. Methods and devices for energy harvesting that could e.g. be integrated into the cover element/manhole cover (2) are:
  • Generating electricity by elements using the thermoelectric effect (e.g. peltiere elements). These elements would use the difference in temperature between the inner part of the manhole or shaft and the environment. Examples of fitting uses would be areas of district heating.
  • Generating electricity by solar panels Examples of fitting uses would be pedestrian zones.
  • Generating electricity by piezo elements. The kinetic energy generated by stepping on or diving over a cover element or manhole cover is transformed into electric energy. The piezo element could be integrated into flexible polymeric elements of a frame element used to position the cover element or manhole cover over the shaft or manhole. The piezo element could also be integrated into the upper surface of the cover element or manhole cover by polymeric elements.


[0058] In a preferred EMBODIMENT A19 of the remote sensing system of any one of EMBODIMENTS A1 to A17, the antenna units (3, 4), the coupling means (5) and the optional repeater unit (13) are not powered by any electrical source. EMBODIMENT A19 is the example of passive transmission.

[0059] In a preferred EMBODIMENT A20 of the remote sensing system of any one of EMBODIMENTS A1 to A19, there is more than one of the internal antenna unit (3) and/or of the external antenna unit (4).

[0060] In a preferred EMBODIMENT A21 of the remote sensing system of any one of EMBODIMENTS A1 to A19, there are two internal antenna units (3) and one external antenna unit (4).

[0061] In a preferred EMBODIMENT A22 of the remote sensing system of any one of EMBODIMENTS A1 to A19, there is one internal antenna unit (3) and two external antenna units (4).

[0062] In a preferred EMBODIMENT A23 of the remote sensing system of any one of EMBODIMENTS A1 to A19, there are two internal antenna units (3) and two external antenna units (4).

[0063] In a preferred EMBODIMENT A24 of the remote sensing system of any one of EMBODIMENTS A20 to A23, one of the antenna units (3, 4) with its coupling means (5) are not powered by any electrical source, while one of the antenna units (3, 4) with its coupling means (5) and a repeater unit (13) is powered by an electrical source, like a battery.

5.2 Details of the second ASPECT B:



[0064] In an EMBODIMENT B1 the present invention relates to a cover element, especially a manhole cover (2), comprising:

a manhole cover body (2a) comprising a lower surface (6), an upper surface (7) and an aperture (8) extending from the lower surface (6) to the upper surface (7);

an internal antenna unit (3) secured to the lower surface (6) of the manhole cover body (2a);

an external antenna unit (4) placed within/inside the aperture (8); and coupling means (5) electrically coupling the internal antenna unit (3) to the external antenna unit (4).



[0065] All definition, example of embodiments and explanations given above for ASPECT A also apply for ASPECT B.

[0066] Within the meaning of the invention, the term "manhole cover body" refers to a part of a manhole cover or a cover element which is the core element of a manhole cover. It is most often made from cast iron. In this context, the term "lower surface of the cover element" refers to the surface of a cover element (or of a manhole cover) and thus is also synonymous to "lower surface of a manhole cover body". In this context, the term "upper surface of the cover element" refers to the surface of a cover element (or of a manhole cover) and thus is also synonymous to "upper surface of a manhole cover body".

[0067] In a preferred EMBODIMENT B2 of the cover element of EMBODIMENT B1 the cover element is a manhole cover (2).

[0068] In a preferred EMBODIMENT B3 of the cover element of any one of EMBODIMENTS B1 or B2 the coupling means transmits radio signals received by the internal antenna unit (3) to the external antenna unit (4).

[0069] In a preferred EMBODIMENT B4 of the cover element of any one of EMBODIMENTS B1 to B3, the coupling means (5) is a connector cable connecting the internal antenna unit (3) directly to the external antenna unit (4).

[0070] In a preferred EMBODIMENT B5 of the cover element of any one of EMBODIMENTS B1 to B4, the coupling means (5) comprise a repeater unit (13).

[0071] In a preferred EMBODIMENT B6 of the cover element of EMBODIMENTS B1 to B5, the external antenna unit (4) is configured to cancel the electromagnetic interference (EMI) of the cover element or manhole cover (2) or manhole cover body (2a).

[0072] In a preferred EMBODIMENT B7 of the cover element of any one of EMBODIMENTS B1 to B5, the internal antenna unit (3) is configured to cancel the electromagnetic interference (EMI) of the cover element or manhole cover (2) or manhole cover body (2a).

[0073] In a preferred EMBODIMENT B8 of the cover element of any one of EMBODIMENTS B1 to B5, the internal antenna unit (3) and the external antenna unit (4) are configured to cancel the electromagnetic interference (EMI) of the cover element or manhole cover (2) or manhole cover body (2a).

[0074] In a preferred EMBODIMENT B9 of the cover element of any one of EMBODIMENTS B1 to B8, the external antenna unit (4) is formed on a circuit board (21) preferably the antenna has a base impedance and transmitter impedance of 50 Ω, and/or is a resonant narrow band antenna and/or has a length of a multitude of ¼ λ (wavelength). In a preferred embodiment of EMBODIMENT B9 the external antenna unit (4) is configured to cancel the electromagnetic interference (EMI) of the cover element, especially the manhole cover (2), formed on a circuit board (21), the antenna having a base impedance and transmitter impedance of 50 Ω, and is a resonant narrow band antenna and has a length of a multitude of ¼ λ (wavelength).

[0075] In a preferred EMBODIMENT B10 of the cover element of any one of EMBODIMENTS B1 to B8, the internal antenna unit (3) is formed on a circuit board (21) preferably the antenna has a base impedance and transmitter impedance of 50 Ω, and/or is a resonant narrow band antenna and/or has a length of a multitude of ¼ λ (wavelength).

[0076] In a preferred EMBODIMENT B11 of the cover element of any one of EMBODIMENTS B1 to B8, the internal antenna unit (3) and the external antenna unit (4) are formed on a circuit board (21) preferably the antennas have a base impedance and transmitter impedance of 50 Ω, and/or are resonant narrow band antenna and/or have a length of a multitude of ¼ λ (wavelength)..

[0077] In a preferred EMBODIMENT B12 of the cover element of any one of EMBODIMENTS B1 to B11, the external antenna unit (4) is not attached to the walls of the aperture (8).

[0078] In a preferred EMBODIMENT B13 of the cover element of any one of EMBODIMENTS B1 to B12, a gap (14) is provided between the external antenna unit (4) and the wall of the aperture (8).

[0079] In a preferred EMBODIMENT B14 of the cover element of any one of EMBODIMENTS B1 to B13, the external antenna unit (4) is flexibly attached to the lower surface (6) of the cover element, of the manhole cover (2), of the manhole cover body (2a) or to a ridge being fixed to them forming part of said lower surface (6).

[0080] In a preferred EMBODIMENT B15 of the cover element of any one of EMBODIMENTS B1 to B14, there is further a holding body (15) having a first arm (16) extending into a first direction and a second arm (17) extending in a second direction essentially perpendicular to the first direction, wherein the first arm (16) is flexibly attached to the lower surface (6) of the cover element or the manhole cover (2), and the second arm (17) comprises the external antenna unit (4) and extending into the aperture (8).

[0081] In a preferred EMBODIMENT B16 of the cover element of any one of EMBODIMENT B15, the second arm (17) is not attached to the walls of the aperture (8).

[0082] In a preferred EMBODIMENT B17 of the cover element of any one of EMBODIMENTS B15 or B16, a gap (14) is provided between the second arm (17) and the wall of the aperture (8).

[0083] In a preferred EMBODIMENT B18 of the cover element of any one of EMBODIMENTS B1 to B17, one or more ridges (20) are fixed to the cover element, to the manhole cover (2), or to the manhole cover body (2a). By being fixed to the cover element, to the manhole cover (2), or to the manhole cover body (2a), the one or more ridges (20) become part of the lower surface (6) of the cover element, especially the manhole cover (2). In this EMBODIMENT B18 the one or more ridges (20) protrude beyond the internal antenna unit (3, 4), the coupling means (5) and the optional repeater unit (13) and/or any optional electrical source (18).

[0084] In a preferred EMBODIMENT B19 of the cover element of any one of EMBODIMENTS B1 to B18, the antenna units (3, 4), the coupling means (5) and the optional repeater unit (13) are powered by a electrical source (18). EMBODIMENT B19 is the example of active transmission. One option the source to be selected is a battery.

[0085] In principle, the cover according to ASPECT B could be used - depending on the requirements on the distance of the emitted radio signals - in two variants, the active (powered by an electrical source) or the passive (not powered by an electrical source) transmission (of the signal through the cover element/manhole).
In a preferred embodiment of EMBODIMENT B19 the antenna units (3,4), the coupling means (5) and/or the optional repeater unit (13) are powered by energy harvesting. Methods and devices for energy harvesting that could e.g. be integrated into the cover element/manhole cover (2) are:
  • Generating electricity by elements using the thermoelectric effect (e.g. peltiere elements). These elements would use the difference in temperature between the inner part of the manhole or shaft and the environment. Examples of fitting uses would be areas of district heating.
  • Generating electricity by solar panels Examples of fitting uses would be pedestrian zones.
  • Generating electricity by piezo elements. The kinetic energy generated by stepping on or diving over a cover element or manhole cover is transformed into electric energy. The piezo element could be integrated into flexible polymeric elements of a frame element used to position the cover element or manhole cover over the shaft or manhole. The piezo element could also be integrated into the upper surface of the cover element or manhole cover by polymeric elements.


[0086] In a preferred EMBODIMENT B20 of the cover element of any one of EMBODIMENTS B1 to B18, the antenna units (3, 4), the coupling means (5) and the optional repeater unit (13) are not powered by any electrical source. EMBODIMENT B20 is the example of passive transmission.

[0087] In a preferred EMBODIMENT B21 of the cover element of any one of EMBODIMENTS B1 to B20, there is more than one of the internal antenna unit (3) and/or of the external antenna unit (4).

[0088] In a preferred EMBODIMENT B22 of the cover element of any one of EMBODIMENTS B1 to B20, there are two internal antenna units (3) and one external antenna unit (4).

[0089] In a preferred EMBODIMENT B23 of the cover element of any one of EMBODIMENTS B1 to B20, there is one internal antenna unit (3) and two external antenna units (4).

[0090] In a preferred EMBODIMENT B24 of the cover element of any one of EMBODIMENTS B1 to B20, there are two internal antenna units (3) and two external antenna units (4).

[0091] In a preferred EMBODIMENT B25 of the cover element of any one of EMBODIMENTS B21 to B24, one of the antenna units (3, 4) with its coupling means (5) are not powered by any electrical source, while one of the antenna units (3, 4) with its coupling means (5) and a repeater unit (13) is powered by an electrical source, like a battery.

5.3 Details of the third ASPECT C:



[0092] In an EMBODIMENT C1 the present invention relates to a transmitter system comprising:

a cover element, especially a manhole cover (2), comprising:

a manhole cover body (2a) comprising a lower surface (6), an upper surface (7) and an aperture (8) extending from the lower surface (6) to the upper surface (7);

an internal antenna unit (3) secured to the lower surface (6) of the manhole cover body (2a);

an external antenna unit (4) placed within/inside the aperture (8); and

coupling means (5) electrically coupling the internal antenna unit (3) to the external antenna unit (4); and

a transmitter unit (10) configured to transmit radio signals to the internal antenna unit.

All definition, example of embodiments and explanations given above for ASPECT A also apply for ASPECT C.

[0093] Within the meaning of the invention, the term "manhole cover body" refers to a part of a manhole cover or a cover element which is the core element of a manhole cover. It is most often made from cast iron. In this context, the term "lower surface of the cover element" refers to the surface of a cover element (or of a manhole cover) and thus is also synonymous to "lower surface of a manhole cover body". In this context, the term "upper surface of the cover element" refers to the surface of a cover element (or of a manhole cover) and thus is also synonymous to "upper surface of a manhole cover body".
In a preferred EMBODIMENT C2 of the transmitter system of EMBODIMENT C1 the cover element is a manhole cover (2).

[0094] In a preferred EMBODIMENT C3 of the transmitter system of any one of EMBODIMENTS C1 or C2 the transmitter unit (10) is placed within the manhole (1).

[0095] In a preferred EMBODIMENT C4 of the transmitter system of any one of EMBODIMENTS C1 to C3, the transmitter unit comprises a sensor (11).

[0096] In a preferred EMBODIMENT C5 of the transmitter system of any one of EMBODIMENTS C1 to C4, the transmitter unit is coupled to a sensor unit (12).

[0097] In a preferred EMBODIMENT C6 of the transmitter system of any one of EMBODIMENTS C1 or C5 the coupling means transmits radio signals received by the internal antenna unit (3) to the external antenna unit (4).

[0098] In a preferred EMBODIMENT C7 of the transmitter system of any one of EMBODIMENTS C1 to C6, the coupling means (5) is a connector cable connecting the internal antenna unit (3) directly to the external antenna unit (4).

[0099] In a preferred EMBODIMENT C8 of the transmitter system of any one of EMBODIMENTS C1 to C7, the coupling means (5) comprise a repeater unit (13).

[0100] In a preferred EMBODIMENT C9 of the transmitter system of EMBODIMENTS C1 to C8, the external antenna unit (4) is configured to cancel the electromagnetic interference (EMI) of the cover element or manhole cover (2) or manhole cover body (2a).

[0101] In a preferred EMBODIMENT C10 of the transmitter system of any one of EMBODIMENTS C1 to C8, the internal antenna unit (3) is configured to cancel the electromagnetic interference (EMI) of the cover element or manhole cover (2) or manhole cover body (2a).

[0102] In a preferred EMBODIMENT C11 of the transmitter system of any one of EMBODIMENTS C1 to C8, the internal antenna unit (3) and the external antenna unit (4) are configured to cancel the electromagnetic interference (EMI) of the cover element or manhole cover (2) or manhole cover body (2a).

[0103] In a preferred EMBODIMENT C12 of the transmitter system of any one of EMBODIMENTS C1 to C11, the external antenna unit (4) is formed on a circuit board (21) preferably the antenna has a base impedance and transmitter impedance of 50 Ω, and/or is a resonant narrow band antenna and/or has a length of a multitude of ¼ λ (wavelength).
In a preferred embodiment of EMBODIMENT C12 the external antenna unit (4) is configured to cancel the electromagnetic interference (EMI) of the cover element, especially the manhole cover (2), formed on a circuit board (21), the antenna having a base impedance and transmitter impedance of 50 Ω, and is a resonant narrow band antenna and has a length of a multitude of ¼ λ (wavelength).

[0104] In a preferred EMBODIMENT C13 of the transmitter system of any one of EMBODIMENTS C1 to C11, the internal antenna unit (3) is formed on a circuit board (21) preferably the antenna has a base impedance and transmitter impedance of 50 Ω, and/or is a resonant narrow band antenna and/or has a length of a multitude of ¼ λ (wavelength).

[0105] In a preferred EMBODIMENT C14 of the transmitter system of any one of EMBODIMENTS C1 to C11, the internal antenna unit (3) and the external antenna unit (4) are formed on a circuit board (21) preferably the antennas have a base impedance and transmitter impedance of 50 Ω, and/or are resonant narrow band antenna and/or have a length of a multitude of ¼ λ (wavelength).

[0106] In a preferred EMBODIMENT C15 of the transmitter system of any one of EMBODIMENTS C1 to C14, the external antenna unit (4) is not attached to the walls of the aperture (8).

[0107] In a preferred EMBODIMENT C16 of the transmitter system of any one of EMBODIMENTS C1 to C15, a gap (14) is provided between the external antenna unit (4) and the wall of the aperture (8).

[0108] In a preferred EMBODIMENT C17 of the transmitter system of any one of EMBODIMENTS C1 to C16, the external antenna unit (4) is flexibly attached to the lower surface (6) of the cover element, of the manhole cover (2), of the manhole cover body (2a) or to a ridge being fixed to them forming part of said lower surface (6).

[0109] In a preferred EMBODIMENT C18 of the transmitter system of any one of EMBODIMENTS C1 to C17, there is further a holding body (15) having a first arm (16) extending into a first direction and a second arm (17) extending in a second direction essentially perpendicular to the first direction, wherein the first arm (16) is flexibly attached to the lower surface (6) of the cover element or the manhole cover (2), and the second arm (17) comprises the external antenna unit (4) and extending into the aperture (8).

[0110] In a preferred EMBODIMENT C19 of the transmitter system of any one of EMBODIMENT C18, the second arm (17) is not attached to the walls of the aperture (8).

[0111] In a preferred EMBODIMENT C20 of the transmitter system of any one of EMBODIMENTS C18 or C19, a gap (14) is provided between the second arm (17) and the wall of the aperture (8).

[0112] In a preferred EMBODIMENT C21 of the transmitter system of any one of EMBODIMENTS C1 to C20, one or more ridges (20) are fixed to the cover element, to the manhole cover (2), or to the manhole cover body (2a). By being fixed to the cover element, to the manhole cover (2), or to the manhole cover body (2a), the one or more ridges (20) become part of the lower surface (6) of the cover element, especially the manhole cover (2). In this EMBODIMENT C21 the one or more ridges (20) protrude beyond the internal antenna unit (3, 4), the coupling means (5) and the optional repeater unit (13) and/or any optional electrical source (18).

[0113] In a preferred EMBODIMENT C22 of the transmitter system of any one of EMBODIMENTS C1 to C21, the antenna units (3, 4), the coupling means (5) and the optional repeater unit (13) are powered by a electrical source (18). EMBODIMENT C22 is the example of active transmission. One option the source to be selected is a battery.

[0114] In principle, the system according to ASPECT C could be used - depending on the requirements on the distance of the emitted radio signals - in two variants, the active (powered by an electrical source) or the passive (not powered by an electrical source) transmission (of the signal through the cover element/manhole).

[0115] In a preferred embodiment of EMBODIMENT C22 the antenna units (3,4), the coupling means (5) and/or the optional repeater unit (13) are powered by energy harvesting. Methods and devices for energy harvesting that could e.g. be integrated into the cover element/manhole cover (2) are:
  • Generating electricity by elements using the thermoelectric effect (e.g. peltiere elements). These elements would use the difference in temperature between the inner part of the manhole or shaft and the environment. Examples of fitting uses would be areas of district heating.
  • Generating electricity by solar panels Examples of fitting uses would be pedestrian zones.
  • Generating electricity by piezo elements. The kinetic energy generated by stepping on or diving over a cover element or manhole cover is transformed into electric energy. The piezo element could be integrated into flexible polymeric elements of a frame element used to position the cover element or manhole cover over the shaft or manhole. The piezo element could also be integrated into the upper surface of the cover element or manhole cover by polymeric elements.


[0116] In a preferred EMBODIMENT C23 of the transmitter system of any one of EMBODIMENTS C1 to C21, the antenna units (3, 4), the coupling means (5) and the optional repeater unit (13) are not powered by any electrical source. EMBODIMENT C23 is the example of passive transmission.

[0117] In a preferred EMBODIMENT C24 of the transmitter system of any one of EMBODIMENTS C1 to C23, there is more than one of the internal antenna unit (3) and/or of the external antenna unit (4).

[0118] In a preferred EMBODIMENT C25 of the transmitter system of any one of EMBODIMENTS C1 to C23, there are two internal antenna units (3) and one external antenna unit (4).

[0119] In a preferred EMBODIMENT C26 of the transmitter system of any one of EMBODIMENTS C1 to C23, there is one internal antenna unit (3) and two external antenna units (4).

[0120] In a preferred EMBODIMENT C27 of the transmitter system of any one of EMBODIMENTS C1 to C23, there are two internal antenna units (3) and two external antenna units (4).

[0121] In a preferred EMBODIMENT C28 of the transmitter system of any one of EMBODIMENTS C24 to B27, one of the antenna units (3, 4) with its coupling means (5) are not powered by any electrical source, while one of the antenna units (3, 4) with its coupling means (5) and a repeater unit (13) is powered by an electrical source, like a battery.

5.4 Details on certain aspects of the invention as shown in the figures:



[0122] Figure 1) is an example of embodiments of all ASPECTS A, B and C of the invention using passive transmission e.g. using LoRaWAN.
Figure 1) schematically shows in a cross section view a manhole (1) with a manhole cover (2) (having a manhole cover body (2a)) with a lower surface (6), an upper surface (7) and an aperture (8) in the manhole cover. An internal antenna unit (3) and an external antenna unit (4) are coupled via coupling means (5) (here a connector cable). The Figure is thus showing an example of ASPECT A and - in connection with the manhole cover (2) - also of ASPECT B. The manhole also shows in its lower surface (6) more than one ridge (20) protecting the internal antenna unit (3) and the coupling means (5). The figure also shows a transmitter unit (10) (with a transmitter antenna (10a)) thus also being an Example of ASPECT C. As part of this transmitter unit there is also depicted a sensor (11) which might also take the form of a further LoRaWAN Unit.

[0123] Figure 2) is an example of embodiments of all ASPECTS A, B and C of the invention using active transmission e.g. using LoRaWAN together with a battery-driven Repeater Unit.
Figure 2) schematically shows in a cross section view a manhole (1) with a manhole cover (2) (having a manhole cover body (2a)) with a lower surface (6), an upper surface (7) and an aperture (8) in the manhole cover. An internal antenna unit (3) and an external antenna unit (4) are coupled via coupling means (5) (here two connector cables with/or via a battery-driven repeater unit (13)). The Figure is thus showing an example of ASPECT A and - in connection with the manhole cover (2) - also of ASPECT B. The manhole also shows in its lower surface (6) more than one ridge (20) protecting the internal antenna unit (3), the coupling means (5) and the repeater unit (13). The figure also shows a transmitter unit (10) (with a transmitter antenna (10a)) thus also being an Example of ASPECT C. As part of this transmitter unit (10) there is also depicted a sensor (11) which might also take the form of a further LoRaWAN Unit. Any longstanding supply of energy will be greatly enhanced if steps of energy-management will be implemented at the same time. Examples of possible steps are:

∘ The repeater may send LoRaWAN and receive LoRaWAN control commands.

∘ Gateways used should be able to send such LoRaWAN control commands.

∘ Data of relevance like weather forecast of historical weather data are implemented in the sytems of the invention,

∘ The repeater be able to change its frequency of sending and receiving data according to the needs. E.g.: if weather data predict a phase of dryness, it is not necessary to use a water level sensor very often. Only when rain is likely again, the transmission frequency is increased.

∘ Sender und Receiver are timewise synchronised.



[0124] Figure 3) is an example of embodiments of ASPECTS A and B of the invention. Figure 3) schematically shows - in a plan view at an angle from above - a manhole cover (2) (having a manhole cover body (2a)) with an upper surface (7) and an aperture (8) in the manhole cover. An external antenna unit (4) marked by its top (9) with more than one protecting bump (19) being placed on top of the upper surface (7) of the manhole (2) in immediate contact with the aperture (8) containing the external antenna (4) with its top (9). The external antenna unit (3) is visible, protected by more than one ridge (20) on the lower surface (6) of the manhole (2).

[0125] Figure 4) is an example of embodiments of ASPECTS A and B of the invention. Figure 4) schematically shows - in a plan view at an angle from below - a manhole cover (2) (having a manhole cover body (2a)) with an upper surface (7) and an aperture (8) in the manhole cover. A holding body (15) with a first arm (16) and a second arm (17) holding the external antenna unit (4) can be seen on the lower surface (6) of the manhole cover (2). The internal antenna unit (3) is connected to the external antenna unit (4) by coupling means (5) including a repeater unit (13) which is protected by more than one ridge (20) on the lower surface (6) of the manhole (2).

[0126] Figure 5) is a partial aspect that could be embodied in any of the embodiments of ASPECTS A and B of the invention. Figure 5) shows a cross section view of a manhole cover (2) according to a preferred embodiment of the invention focusing on flexibly fixing by a holding body (15) the external antenna unit (4) in relation to the upper surface (7) of the manhole cover (2) if e,.g,. a car's tire (X) would pass over it. Figure 6) shows in more detail the partial aspect shown in Figure 5). This aspect represents a preferred embodiment of the invention and refers to the holding body (15). The holding body 15 is - in principle - flexibly fixing the external antenna unit (4) to the manhole cover (2), protecting the external antenna unit from damage if e.g. a car's tire (X) would pass over it. The holding body (15) is having a first arm (16) extending into a first direction and a second arm (17) extending in a second direction essentially perpendicular to the first direction. The first arm (16) is flexibly attached to the lower surface (6) of the cover element, especially the manhole cover (2). The flexible attachment may take the form as shown in Figures 5) and 6) in which the holding body is fixed to the lower surface (6) of the manhole cover (2) (or a ridge being part of the lower surface (6)) by fixing means like a screw and nut while attachment means (28) are placed between the ridge (20)/manhole cover (2) and the main part of the holding body (15). These attachment means (28) enable the flexible fixing of the holding body (15) - and thus of the external antenna unit (3) - to the cover element/manhole cover (2). In an embodiment, the attachment means are made of a polymer, preferably a artificial or natural polymer like rubber, having a high flexibility and a high resistance to chemical and physical influences (e.g. aging, pollution, high and low temperatures). It enables a circular evasion move of the second arm (17) if pressure is coming from the upper side of the cover element/manhole (e.g. by a car).
The second arm (17) comprises the external antenna unit (4) and is extending into the aperture (8). In a preferred embodiment the second arm (17) comprising the external antenna unit (4) is not attached to the walls of the aperture (8). It is preferred if there is a gap (14) formed between (the second arm (17) comprising) the external antenna unit (4) and the wall of the aperture (8). The second arm (17) is placed in the cover element/manhole cover that it remains approximately 2 mm to 0.5 mm, preferably approximately 1 mm below the upper surface (7). The top (9) of the external antenna unit within the second arm (17) is made of polymeric material and has a thickness of approximately 4 mm to 1 mm, preferably approximately 2.5mm.
In addition, there could be - as shown in Figure 5) - protection bumps (19) formed around the aperture (8) of the coversheet/manhole cover (2). These protection bumps (19) could by formed entirely around the aperture (8). They could also take the form of a circle formed around the aperture, forming either a full circle or one or more part-circles. As also shown in Figure 3), the protection bumps (19) could form 2 part-circles around the aperture (8). The preferred embodiment above shows the advantage that by flexibly fixing the external antenna unit (4) to the manhole cover (2), the external antenna unit is protected from damage if e.g. a car's tire (X) would pass over the cover element/the manhole cover (2). This would protect both the external antenna unit (4) itself as well as its top (9). As said above the top (9) could be formed of highly resistant polymers.
Finally, this arrangement - if the second arm (17) comprising the external antenna unit (4) is not attached to the walls of the aperture (8) and a gap (14) is formed between the external antenna unit (4) and the wall of the aperture (8) - this would further protect the external antenna as debris (like sand) would pass through the gap and no additional friction would be delivered to the external antenna unit (4). The special geometry shown in these Figures is improving the cleaning of the gap by moving the second arm (17).
Figure 7) schematically shows a cross section of a manhole (1), showing a manhole cover (2) with an internal antenna unit (3), an external antenna unit (4) being coupled via coupling means (5). It is also showing the arrangement of two loop antennas, one being part of the internal antenna unit (3) on the lower surface (6) of the manhole cover (2) and the other being the antenna (25) of the transmitter unit (10) from within the manhole (1) which are brought in close communication. It is an example of an embodiments of ASPECTS A, B and C of the invention making use of passive transmission being also usable for the transfer of mobile communications data. This passive transmission could also be standard solution for the transfer of mobile communications data in which a modem from a mobile telephone provider might be used (27) integrated into the transmitter unit (10). This modem (27) could be provided within the manhole with electricity by the local power supply voltage being supplied with data through fixed data line like a glass fiber line. Thus, by using this use of passive transmission avoids the problem an active system would face with these large amount of data having to be transferred. A self-sustaining energy supply like a battery would not be able to keep up for any longer time with the power consumption becoming necessary.
In a preferred embodiment also depicted in this Figure 7) there is provided two loop antenna. the arrangement of two loop antennas, one being part of the internal antenna unit (3) on the lower surface (6) of the manhole cover (2) and the other being the antenna (25) of the transmitter unit (10) from within the manhole (1) which are brought in close communication (even potentially touching each other).Thus, this allows transmission of large volumes of data to the external antenna unit. To help this, it is an option to install massive conic means into the shaft/manhole so that the flexibly fixed (26) loop antenna (25) of the transmitter unit (10) will always end up in direct contact with the loop antenna being part of the internal antenna unit (3) on the lower surface (6) of the manhole cover (2).

[0127] Figure 8) schematically shows a plan view on two antennas used in the invention. The antennas are formed on a circuit board (21), with circuit paths (22) on the circuit board and pins for the antenna plug (24) shown. The circuit boards (21) used in these antennas are approximately 15 mm by 25 mm and 45 mm by 40 mm.
In a version of the depicted antennas with a base impedance of 50 Ω, a protection against EMI was seen. The antenna was subjected in a lab to high energetic electromagnetic interference (EMI) and remained protected.

REFERENCE SIGNS:



[0128] 

1) manhole

2) manhole cover

2a) manhole cover body

3) internal antenna unit

4) external antenna unit

5) coupling means

6) lower surface of the manhole cover (or the manhole cover body)

7) upper surface of the manhole cover (or the manhole cover body)

8) aperture in the manhole cover

9) top of the external antenna unit

10) transmitter unit

11) sensor

12) sensor unit

13) repeater unit

14) gap in the aperture

15) holding body

16) first arm of the holding body

17) second arm of the holding body

18) electrical source

19) protection bumps

20) ridge

21) circuit board

22) circuit paths on the circuit board

23) fixing means

24) pins for the antenna plug

25) transmitter antenna

26) flexible transmitter antenna fixing means

27) transmitter modem

28) attachment means




Claims

1. A remote sensing system comprising:

an internal antenna unit (3) securable to the lower surface (6) of a cover element, especially a manhole cover (2), configured to receive a signal from a transmitting unit (10) placed within the manhole (1);

an external antenna unit (4) for transmitting a signal to a communication device outside of the upper surface (7) of the cover element, especially the manhole cover (2);

the external antenna unit (4) configured to be placed within an aperture (8),
the aperture (8) perforating the cover element, especially the manhole cover (2), from the upper (6) to the lower surface (7) of the cover element, especially the manhole cover (2), and

the external antenna unit (3) not protruding beyond the upper surface (7) of the cover element, especially the manhole cover (2);

coupling means (5) electrically coupling the internal antenna unit (3) to the external antenna unit (4),
whereby the internal antenna unit (3) and the external antenna unit (4) are coupled by the coupling means (5) for transmitting a signal from the internal antenna unit (3) to the external antenna unit (4).


 
2. A cover element, especially a manhole cover (2) comprising:

a manhole cover body (2a) comprising a lower surface (6), an upper surface (7) and an aperture (8) extending from the lower surface (6) to the upper surface (7);

an internal antenna unit (3) secured to the lower surface (6) of the manhole cover body (2a);

an external antenna unit (4) placed within/inside the aperture (8); and

coupling means (5) electrically coupling the internal antenna unit (3) to the external antenna unit (4).


 
3. A transmitter system comprising:

a cover element, especially a manhole cover (2), comprising:

a manhole cover body (2a) comprising a lower surface (6), an upper surface (7) and an aperture (8) extending from the lower surface (6) to the upper surface (7);

an internal antenna unit (3) secured to the lower surface (6) of the manhole cover body (2a);

an external antenna unit (4) placed within/inside the aperture (8); and

coupling means (5) electrically coupling the internal antenna unit (3) to the external antenna unit (4); and

a transmitter unit (10) configured to transmit radio signals to the internal antenna unit.


 
4. The transmitter system of claim 3, wherein the transmitter unit (10) is placed within the manhole (1).
 
5. The transmitter system of claims 3 or 4, wherein the transmitter unit comprises a sensor (11) or is coupled to a sensor unit (12).
 
6. The cover element, especially the manhole cover (2), of claim 2 or the transmitter system of claims 3 to 5, wherein the coupling means transmits radio signals received by the internal antenna unit (3) to the external antenna unit (4).
 
7. The remote sensing system of claim 1, the cover element, especially the manhole cover (2), of claims 2 or 6 or the transmitter system of claims 3 to 6, wherein the coupling means (5) is a connector cable connecting the internal antenna unit (3) directly to the external antenna unit (4).
 
8. The remote sensing system of claims 1, the cover element, especially manhole cover (2), of claims 2 or 6 or the transmitter system of claims 3 to 6, wherein the coupling means (5) comprise a repeater unit (13).
 
9. The remote sensing system of claims 1, 7 or 8, the cover element, especially the manhole cover (2), of claims 2 or 6 to 8 or the transmitter system of claims 3 to 8, wherein one or both of the external antenna unit (4) or internal antenna unit (3) is/are configured to cancel the electromagnetic interference (EMI) of the cover element, especially the manhole cover (2), preferably wherein both the external antenna unit (4) and internal antenna unit (3) are configured to cancel the electromagnetic interference (EMI) of the cover element, especially the manhole cover (2), or preferably wherein the external antenna unit (4) is configured to cancel the electromagnetic interference (EMI) of the cover element, especially the manhole cover (2);
and/or
wherein one or both of the external antenna unit (4) or internal antenna unit (3) is/are formed on a circuit board (21) preferably wherein the antenna has a base impedance and transmitter impedance of 50 Ω, and/or is/are a resonant narrow band antenna and/or has/have a length of a multitude of ¼ λ (wavelength); preferably wherein both the external antenna unit (4) and internal antenna unit (3) are formed on a circuit board (21), the antennas have a base impedance and transmitter impedance of 50 Ω, and/or are resonant narrow band antennas and/or have a length of a multitude of ¼ λ (wavelength); or preferably wherein the external antenna unit (4) is configured to cancel the electromagnetic interference (EMI) of the cover element, especially the manhole cover (2), formed on a circuit board (21), the antenna having a base impedance and transmitter impedance of 50 Ω, and is a resonant narrow band antenna and has a length of a multitude of ¼ λ (wavelength).
 
10. The remote sensing system of claims 1, 7 to 9, the cover element, especially the manhole cover (2), of claims 2 or 6 to 9 or the transmitter system of claims 3 to 9, wherein the external antenna unit (4) is not attached to the walls of the aperture (8) and/or wherein there is a gap (14) between the external antenna unit (4) and the wall of the aperture (8).
 
11. The remote sensing system of claims 1, 7 to 10, the cover element, especially the manhole cover (2), of claims 2 or 6 to 10 or the transmitter system of claims 3 to 10, wherein the external antenna unit (4) is flexibly attached to the lower surface (6) of the cover element, especially the manhole cover (2).
 
12. The remote sensing system of claims 1, 7 to 11, the cover element, especially the manhole cover (2), of claims 2 or 6 to 11 or the transmitter system of claims 3 to 11, wherein there is further a holding body (15) having a first arm (16) extending into a first direction and a second arm (17) extending in a second direction essentially perpendicular to the first direction, wherein the first arm (16) is flexibly attached to the lower surface (6) of the cover element, especially the manhole cover (2), and the second arm (17) comprises the external antenna unit (4) and extending into the aperture (8).
 
13. The remote sensing system of claims 1, 7 to 12, the cover element, especially the manhole cover (2), of claims 2 or 6 to 12 or the transmitter system of claims 3 to 12, wherein one or more ridges are fixed to the manhole body (2a) becoming part of the lower surface (6) of the cover element, especially the manhole cover (2), so that the one or more ridges (20) protrude beyond the internal antenna unit (3, 4), the coupling means (5) and the optional repeater unit (13) and/or electrical source (18).
 
14. The remote sensing system of claims 1, 7 to 13, the cover element, especially the manhole cover (2), of claims 2 or 6 to 13 or the transmitter system of claims 3 to 13, wherein the antenna units (3, 4), the coupling means (5) and the optional repeater unit (13) are not powered by any electrical source.
 
15. The remote sensing system of claims 1, 7 to 14, the cover element, especially the manhole cover (2), of claims 2 or 6 to 14 or the transmitter system of claims 3 to 14, wherein the antenna units (3, 4), the coupling means (5) and the optional repeater unit (13) are powered by a electrical source (18), preferably wherein the antenna units (3,4), the coupling means (5) and/or the optional repeater unit (13) are powered by energy harvesting.
 




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Cited references

REFERENCES CITED IN THE DESCRIPTION



This list of references cited by the applicant is for the reader's convenience only. It does not form part of the European patent document. Even though great care has been taken in compiling the references, errors or omissions cannot be excluded and the EPO disclaims all liability in this regard.

Patent documents cited in the description