NL8801895A - Flow control tap for gas pressure vessel - has capacitive sensor probe with gas-tight connector so that capacitance depends on liq. gas level - Google Patents

Abstract

The tap assembly has a body (2) of electrically conductive material with a tapered thread (4) which screws into the neck of a standard gas cylinder. When the knob (7) on the valve is opened, gas flows from the cylinder out of the outlet connection (6) on the side of the body. A capacitive sensor probe (8) is installed in the inlet aperture (3) of the valve. The probe consists of two concentric copper alloy tubes (9, 10), held apart by a spiral spacer (11). The lower end (12) of the probe is open and there is a radial hole (16) in the wall of the outer tube. The probe is connected to a sensing circuit via a gas-tight connector (13, 14, 15) on the side of the valve body.

Description

Gas tap for a gas bottle

The invention relates to a gas tap for a gas bottle, provided with a shaft part with an external thread, which is provided with a central bore, with which the gas tap is to be mounted in a mounting hole of the gas bottle with corresponding thread.

Such gas-collection valves are known in various embodiments. Some known types of gas collection valves are equipped with a level meter, which makes the gas supply in the gas cylinder visible in a mechanical manner. Such level meters are very inaccurate and relatively fragile. Moreover, these level meters are not effective over the entire height of the gas bottle, so that level measurement is not possible over the top or bottom part of the gas bottle. The gas collection valves of this type are therefore not very widely used. In addition, this known gas collection tap has the drawback that the level meter is mounted on the gas collection tap, which makes it difficult for the user to read the level, since the gas bottle is placed as much as possible out of sight.

However, users of gas cylinders equipped with a gas tap of the above-mentioned type generally require information about the remaining contents of the gas cylinder, since otherwise it may turn out to be very inconvenient that the gas cylinder is empty.

There is therefore a need for an aid with which an accurate level measurement over the entire height of a gas cylinder is possible, whereby the measuring result is made visible in a location that is easily accessible to the user.

The object of the invention is to provide a gas extraction tap of the type mentioned in the preamble, with which this need is met in a particularly simple manner.

To this end, the gas take-off valve according to the invention is characterized by a capacitive sensor, which comprises two concentric, electrically conductive elongated tubes, which are electrically mounted in the bore of the shaft part.

This produces a gas tap, which in a simple manner is combined with a capacitive sensor, which is robust and resistant to rough use. The capacitance value of the sensor depends on the level of the liquid gas in the gas bottle, which level information can be made visible in a simple manner by means of electronic means known per se on a display. Such a display can be mounted at any desired location.

According to a simple embodiment, the tubes are separated from each other by an insulating spacer element, which consists of a plastic wire wound spirally on the inner tube.

The invention is explained in more detail below with reference to the drawing, in which an exemplary embodiment of the gas-taking tap according to the invention is shown.

Fig. 1 depicts a view of a gas cylinder equipped with an embodiment of the gas extraction valve according to the invention.

Fig. 2 shows the gas take-off valve of fig. 1 on a larger scale.

Fig. 1 schematically shows a gas cylinder 1, which can be filled with propane or butane gas. A gas extraction valve 2 is mounted in a threaded mounting hole of the gas cylinder 1. For this purpose, the gas extraction valve 2 is provided with a shaft part 3 with external screw thread 4. The gas extraction valve 2 is made of an electrically conductive metal.

A central bore 5 is provided in the shaft part 3, via which the gas can flow to an outlet 6, when a closing element (not shown) is opened with a manually operable button 7. A capacitive sensor 8 is mounted in the bore 5.

The sensor 8 comprises 2 concentric elongated tubes 9, 10, which are electrically insulated from each other by means of a spacer element 11. The tubes 9, 10 can for instance be made of a copper alloy or the like. The spacer element 11 consists of a plastic wire wound in a spiral on the inner tube 9. The ends of the plastic wire 11 are fixed in openings 12 in the inner tube 9.

; The outer tube 10 is electrically conductively connected to the shaft part 3. The inner tube 9 is connected to a conductor 13 which is led out via a mounting bush 14. The mounting sleeve 14 is arranged in a pipe stub 15 of the gas extraction valve 2. The hollow space of the mounting sleeve 14 is sealed gas-tight with a sealant (not shown). If desired, a coaxial connector element can be mounted on the mounting sleeve 14. Via this connector element, the sensor 8 can be connected to an electronic circuit, not shown, which makes the level in the gas bottle 1 visible on a display. It will be clear that in this way the level in the gas bottle 1 can be displayed at any desired location. The electronic circuit can be designed in a manner known per se and need not be described here in more detail.

A radial opening 16 is arranged in the tube 10 just below the shaft part 3, through which gas can flow to the bore 5.

The invention is not limited to the exemplary embodiment described above, which can be varied in a number of ways within the scope of the invention.

Claims (4)

1. Gas bottle tap, equipped with a central bore shaft part with external thread, with which the gas tap can be mounted in a corresponding threaded mounting hole of the gas bottle, characterized by a capacitive sensor, which has two concentric, electrically conductive elongated pipes electrically insulated from each other in the bore of the shaft portion. A gas extraction valve according to claim 1, characterized in that the tubes are separated from each other by an insulating spacer element, which consists of a plastic wire wound spirally on the inner tube. Gas-taking-off valve according to claim 1 or 2, characterized in that the outer tube is connected to the gas-taking-off tap in a conducting manner, while the inner tube is connected to a conductor which is led out sealingly from the bore of the shaft part. A gas take-off valve according to any one of the preceding claims, characterized in that the outer tube has a radial opening just below the shaft part.