Body Of Level Gauge With Electrical Lead Extending Therethrough

Abstract

The invention is directed to a gauge body for a container for pressurized gas, comprising a mounting surface for mounting the body to the container; an inner side in contact with the pressurized gas when mounted on the container; an outer side opposite to the inner side with regard to the mounting surface, the outer side being outside of the container when the body is mounted on the container; an electrical lead extending in a gas tight manner through the body from the inner side to the outer side. The electrical lead comprises a metallic rod and a bushing around the rod, the bushing being mounted a gas tight manner on the body.

Claims

1-20. (canceled)

21. A gauge body for a container for pressurized gas, said gauge comprising: a mounting surface for mounting the body to the container; an inner side in contact with the pressurized gas when mounted on the container; an outer side opposite to the inner side with regard to the mounting surface, the outer side being outside of the container when the body is mounted on the container; an electrical lead extending in a gas tight manner through the body from the inner side to the outer side; wherein, the electrical lead comprises a metallic rod and a bushing around the rod, the bushing being mounted in a gas tight manner on the body.

22. The gauge body according to claim 21, wherein the electrical lead comprises a glass annulus between the metallic rod and the bushing, the annulus forming a gas tight barrier between the rod and the bushing.

23. The gauge body according to claim 22, wherein the glass annulus is molten on the rod and the bushing so as form the gas tight barrier.

24. The gauge body according to claim 22, wherein the bushing is housed in a bore of the body, the bore forming a passageway between the inner side and the outer side.

25. The gauge body according to claim 24, wherein the bushing comprises a collar that rests on a shoulder portion of the bore.

26. The gauge body according to claim 25, wherein the bore comprises a first portion housing the bushing, and a second portion of a larger diameter than the first portion, the shoulder portion being located between the first and second portions, the second portion housing a retainer of the electrode.

27. The gauge body according to claim 26, wherein the retainer is threaded and engages a female thread formed in the second portion of the bore.

28. The gauge body according to claim 26, wherein the retainer comprises a central aperture through which the rod of the electrical lead freely extends.

29. The gauge body according to claim 26, wherein the retainer rests on the collar of the bushing.

30. The gauge body according to claim 26, wherein the first portion of the bore comprises an annular recess receiving a gasket that contacts the outer surface of the bushing.

31. The gauge body according to claim 30, wherein the annular recess is adjacent to the shoulder portion of the bore, the gauge body further comprising a washer fitted around the bushing and pressed between the collar of the bushing and the shoulder portion, the washer contacting the gasket in the annular recess.

32. The gauge body according to claim 26, wherein the bore comprises a third portion on a side of the second portion that is opposite to the first portion, the third portion being of a larger diameter than the second portion, the rod extending freely through the third portion.

33. The gauge body according to claim 32, wherein the third portion of the bore comprises a female thread for holding a tube of a capacitive level sensor.

34. The gauge body according to claim 21, wherein the gauge body comprises a cavity on the outer side, for receiving an electric interface, the rod of the electrical lead extending into the cavity.

35. The gauge body according to claim 34, wherein the cavity comprises a circular inner wall with a groove receiving a gasket.

36. A level gauge for a container of liquefied pressurized gas, said gauge comprising: a body to be mounted on the container; a capacitive level sensor attached to the body and for extending inside the container; wherein the body comprises: a mounting surface for mounting the body to the container; an inner side in contact with the pressurized gas when mounted on the container; an outer side opposite to the inner side with regard to the mounting surface, the outer side being outside of the container when the body is mounted on the container; and an electrical lead extending in a gas tight manner through the body from the inner side to the outer side; and wherein the electrical lead comprises a metallic rod and a bushing around the rod, the bushing being mounted in a gas tight manner on the body.

37. The level gauge according to claim 36, wherein the capacitive level sensor comprises a tubular electrode and a central electrode extending inside and distant from the tubular electrode so as to allow the liquefied gas to fill the space between both electrodes, the central electrode being electrically connected with the electrical lead of the gauge body.

38. The level gauge according to claim 37, wherein the central electrode comprises a hole into which the rod of the electrical lead is fitted.

39. The level gauge according to claim 37, wherein the tubular electrode is attached via threaded engagement to a holding sleeve mounted on the body of the gauge.

40. The level gauge according to claim 39, wherein the bushing is housed in a bore of the body, the bore forming a passageway between the inner side and the outer side, the bushing comprises a collar that rests on a shoulder portion of the bore, the bore comprises a first portion housing the bushing, and a second portion of a larger diameter than the first portion, the shoulder portion being located between the first and second portions, the second portion housing a retainer of the electrode, the bore comprises a third portion on a side of the second portion that is opposite to the first portion, the third portion being of a larger diameter than the second portion, the rod extending freely through the third portion, wherein the holding sleeve is in threaded engagement with the third portion of the bore of the gauge body.

Description

DRAWINGS

[0028] FIG. 1 is a plan view of a level gauge in accordance with various embodiments of the invention.

[0029] FIG. 2 is a sectional view II-II of the level gauge of FIG. 1, in accordance with various embodiments of the invention.

[0030] FIG. 3 is an enlarged sectional view of the upper portion of the level gauge of FIGS. 1 and 2, illustrating the body of the gauge and the connection of the capacitive electrodes with the body, in accordance with various embodiments of the invention.

DETAILED DESCRIPTION

[0031] FIG. 1 is a plan view of a level gauge device in accordance with various embodiments of the invention. The device 2 comprises a body 4 that is intended to be mounted on a gas tank or container (not illustrated). The body 4 is in various instances made of metallic material like for example steel, stainless steel or brass. The device 2 comprises also a capacitive level sensor 6 that is mounted on the body 4 and intended to extend inside the container, in contact with the liquid or the liquefied gas. The device 2 comprises also an electric or electronic part 8 designed for connecting the capacitive sensor 6 to an external displaying and/or controlling device. The electric/electronic part 8 can comprise a connector 8.sup.1, electric cables 8.sup.2 and an interface element 8.sup.3 housed in a cavity of the body 4 and in electrical connection with the gauge 6.

[0032] FIG. 2 is a sectional view II-II of the gauge device of FIG. 1, in accordance with various embodiments of the invention. As is apparent, the body 4 comprises an inner side 4.sup.1 that is intended to be in contact with the interior of the container, and an outer side 4.sup.2 that is intended to be outside of the container. The inner and outer sides 4.sup.1 and 4.sup.2 are separated by a mounting surface of the body with the container, illustrated by the gasket 4.sup.3, being understood that any other means of providing a gas tight contact are also possible.

[0033] The capacitive level sensor 6 comprises a first external tubular electrode 6.sup.1 and a second central electrode 6.sup.2 extending inside and coaxially with the first tubular electrode 6.sup.1. Both electrodes 6.sup.1 and 6.sup.2 are arranged such as to leave an annular space between the two electrodes. This space can be filled by the liquid in the container onto which the device is mounted. Both electrodes and the liquid located in that space form a capacitor. The level of liquid in that space modifies the dielectric value of the capacitor and thereby also its capacitance. This change of capacitance can be detected by electronic means in a manner that is as such known to the skilled person.

[0034] As is also apparent in FIG. 2, the lower ends of the two electrodes 6.sup.1 and 6.sup.2 are held together in a fixed relative position by means of a holder 6.sup.3. The upper ends of the electrodes 6.sup.1 and 6.sup.2 are fastened to the body 4. The upper end of the first tubular electrode 6.sup.1 is attached to a holding sleeve 10 that is itself mounted on the body 4. The upper end of the second inner electrode 6.sup.2 is kept centered inside of the corresponding upper end of the tubular electrode by means of a ring 6.sup.4. This latter is made of electrically insulating material. It can be made of elastomer.

[0035] As is also apparent in FIG. 2, an electrical lead 12 is housed in, and extends through, the body 4. It connects the second inner electrode 6.sup.2 with the electric or electronic part 8, more particularly with the interface element 6.sup.3. The details of the electrical lead 12 are better visible in FIG. 3 which will be described here after.

[0036] FIG. 3 is an enlarged sectional view of the upper portion of the device of FIGS. 1 and 2. It is to be noted that the section has a different angular orientation as in FIG. 2. FIG. 3 comprises also a blow-up of the central portion of the body, more particular of the electric lead 12.

[0037] As is apparent in the main part of FIG. 3, the cavity 4.sup.4 on the outer side 4.sup.2 of the body 4 houses the interface element 8.sup.3 of the electric part 8. A joint or gasket can be provided between the walls of the cavity and the interface element 8.sup.3 for connecting parts from the outside. The electric lead 12 is a first lead extending into the cavity and into a corresponding hole in the interface element 8.sup.3. A second lead 14 can extends aside the first lead, the second lead 14 electrically connecting the interface element 8.sup.3 with the body 4.

[0038] As is more apparent in the blow-up part of FIG. 3, the electric lead 12 comprises a rod 12.sup.1, a bushing 12.sup.3 and a glass annulus 12.sup.2 between the rod and bushing. The glass annulus 12.sup.2 is molted between and on the outer surface of the rod 12.sup.1 and the inner surface of the bushing 12.sup.3 so as to hold the rod and bushing together and to form an insulating and gas tight barrier. A clearance or play is therefore provided between the rod and the bushing.

[0039] The bushing 12.sup.3 of the electric lead 12 is housed in a bore 20 of the body 4, the bore forming a passageway between the inner side 4.sup.1 and the outer side 4.sup.2 of the body 4. More particularly, the bore 20 comprises a first portion 20.sup.1 housing the bushing 12.sup.3. The latter comprises a collar resting on a washer 16 that itself rests on a shoulder portion between the first portion 201 of the bore 20 and a second portion 20.sup.2 of a larger diameter. The second portion 20.sup.2 is on a side of the first one 20.sup.1 that is directed towards the level gauge 6.

[0040] The washer can be metallic, elastomeric or a combination of both. It can thereby provide a gas tight connection between the outer surface of the bushing 12.sup.3 and the bore 20.

[0041] The first portion 20.sup.1 of the bore 20 can comprise an annular groove 20.sup.4 housing a circular gasket 18, e.g. of the O-ring type, contacting the outer surface of the bushing 12.sup.3 in a gas tight fashion.

[0042] A nut 22 is engaged with the second portion 20.sup.2 of the bore 20 and exerts a contact pressure on the bushing 12.sup.3, more particularly on its collar, pushing it against the shoulder portion between the first and second portions 20.sup.1 and 20.sup.2 of the bore 20. The nut 22 is annular shaped so as to be void of material in its center, thereby allowing the rod 12.sup.1 to extend towards the capacitive sensor 6.

[0043] More particularly, the rod 12.sup.1 extends towards the sensor 6 through a third portion 20.sup.3 of the bore 20; the portion can be of a larger diameter than the second one 20.sup.2. Similarly to the second portion 20.sup.2, the third portion 20.sup.3 of the bore 20 can provide an inner thread. This latter provides then an engagement with a male thread of the holding sleeve 10. This latter holds the ring 6.sup.4. As is visible in the main part of FIG. 3, this ring 6.sup.4 is housed in a corresponding bore machined or generally formed inside the sleeve 10 and held in abutment on one side against a shoulder portion of the bore and the other side by the first tubular electrode 6.sup.1 of the sensor 6. The first tubular electrode 6.sup.1 can comprise a male thread on its external surface, the thread engaging with a corresponding female thread formed inside the sleeve 10, next to the bore receiving the ring 6.sup.4.

[0044] As is still visible in FIG. 3, as well as in FIG. 2, the ring 6.sup.4 can comprise an inner rib or annular projecting surface that engages with a corresponding annular groove on the outer surface of the second inner electrode 6.sup.2 of the sensor. The ring being deformable can then be slid over the inner electrode 6.sup.2 until its inner annular projecting surface engages with the groove. The inner electrode 6.sup.2 can then be inserted into the holding sleeve 10 until the ring 6.sup.4 engages the corresponding bore and abuts against the above mentioned shoulder of the bore. The first annular electrode 6.sup.1 can then be slid over the second inner electrode 6.sup.2 and be screwed on the sleeve 10 so as to retain the ring 6.sup.4 in the sleeve. The holder 6.sup.3 (see FIG. 2) can then be mounted in order to attach to each other the respective lower ends of the two electrodes 6.sup.1 and 6.sup.2. The holding sleeve 10 is in various instances made of metal in order to provide an electrical contact between the tubular electrode 6.sup.1 and the body 4.

[0045] The inner electrode 6.sup.2 comprises at its upper end face a blind hole receiving the rod 12.sup.1 of the electric lead 12. A deformable clip 24 can be provided between the hole and the rod, the clip providing an increased contact pressure at some locations and thereby an improved electrical contact. It can also be elastic to constantly provide a contact pressure irrespective of vibrations, thermal contraction and/or expansion of the rod and/or the electrode.

[0046] During assembly of the level gauge device, the electric lead 12 can be mounted on the body 4, thereby providing a modular body for different gauge devices. Different types and/or sizes of level sensors can then be mounted on the inner side of the body. Similarly, different kinds of electric parts and/or electric interfaces can be mounted on the outer side of the body. The level gauge must not necessarily comprise two concentric electrodes but can also comprise a single electrode.