EP1156266A2 - Support fot identification data and said data for a composite pressure vessel - Google Patents

Abstract

The data carrier is formed as a transponder (11) mounted on the pressurised gas container (1). The transponder is formed as a thin-walled disc and is arranged underneath the outermost layer of the composite pressurised gas container, and preferably between the inner liner and this outer layer.

Description

The invention relates to a carrier for identity data and other data an inner liner and a wrap around existing composite pressure vessels the preamble of claim 1.

In the case of steel bottles, the individual bottle itself has so far been the carrier for the identity data. For this purpose, after the weight and volume determination, the data with a Stamp stamped in the polar cap area of the bottle (see extract from the MRW company brochure 1987, seamless steel bottles, pages 6, 7). The data for the later recurring tests must be looked up on the respective bottle. The advantage of this procedure is that the data cannot be lost and that it is insensitive the data that has once been captured during transport and storage.

As an alternative, there is now also the option of using a laser to burn in the data. This is particularly used for aluminum light metal bottles. Disadvantage of both Methods is that they are not for composite containers with a fiber-reinforced synthetic resin winding are applicable. Another disadvantage is that the area to be labeled is limited and the data for later periodic inspections are largely manual have to be added.

As an alternative to wrapping the data in, use is especially for composite pressure vessels of labels that have been suggested either with plain text or with a Labeled barcode. The disadvantage is that the labels can be lost or if they are placed below the winding, no longer readable from the outside are.

The object of the invention is to provide a carrier for identity data and other data Specify composite pressure vessel that is captive and legible from the outside.

This task is based on the generic term in conjunction with the characteristic ones Features of claim 1 solved. Advantageous further developments are the subject matter of subclaims.

According to the teaching of the invention, the carrier is designed as a transponder (chip card) and arranged on the pressure vessel. The transponder is preferably thin-walled Disc formed with a thickness of ≤ 1 mm and a total extent of ≤ 30 mm. On thus designed transponder is in a simple manner, for example below the outermost one Position of the winding and the data on the transponder can still be made visible from the outside with an appropriate reader. Another The location for the transponder is, for example, the position between the surface the inner liner and the wrapping. Alternatively, the transponder can also be used inside be wrapped around the wrap.

For composite pressure vessels, the polar cap areas of which are preferably impact-absorbing Layer z. b. are covered with polyurethane foam, the space has between the outermost layer of the wrap and the inside of the shock absorbing Layer was identified as a convenient location for the transponder. It can be advantageous to design the impact-absorbing layer as a separate pole cap and put this on the outermost winding or press it on. For fixation the separate pole cap is glued to the outermost wrapping.

When attaching such a separate pole cap, it has proven to be advantageous to provide a recess on the inside of the polar cap and therein the Arrange transponder.

Alternatively, the transponder can also be arranged in flexible PU foam that the integration is particularly easy. In the simplest way, the transponder is as So-called "Read" transponder trained, to which the corresponding data are given and from which you can read the data again at any time.

Such transponders, the so-called "read and write" transponders, can be used in many different ways are trained. This means that you can, for example, get data from the recurring Enter the test in a corresponding table field in the memory and can also read again.

The arrangement of a "Read and Write" transponder can also be used for acquisition Use the current state of the composite pressure vessel. This is the transponder by means of lines with at least one temperature sensor and / or at least one Strain gauges connected for pressure measurement; where temperature sensors and Strain gauges are arranged on the pressure vessel. Temperature sensors are preferred and strain gauges integrated in the transponder.

Further features, advantages and details of the invention emerge from the following Description of an embodiment shown in a drawing.

Show it:

Figure 1

a longitudinal view of a composite pressure vessel

Figure 2

the detail X on the move

Figure 3

like Figure 1, but with temperature sensor and strain gauge

Figure 4

a section A - A in Figure 3.

Figure 1 shows a longitudinal view of a pressure vessel 1 in the form of a composite pressure vessel. For example, in this embodiment, the cylindrical part is 2 of the pressure vessel 1 applied a wrap 3, which consists of a fiber-reinforced Resin is made. The wrapping 3 was applied to an inner liner 4 (Fig. 2) made of plastic such as polyethylene (PE) or one made of metal or metal alloy like aluminum, stainless steel or titanium.

A closure 5, consisting of a section 6, is attached in the upper neck region with internal thread for screwing in a valve and a collar 7 with key attachment 8 to hold back when applying the moment to screw in the here valve, not shown.

The two pole caps 9, 10 are provided with an impact-absorbing layer, for. B. made of polyurethane foam, in particular the area of the closure 5 and the Protect wrapping 3 from impact stress.

According to the invention, a transponder 11 is, for example, in the upper pole cap area 10 arranged. In Figure 2 it can be seen that the transponder 11 between the outermost Position of the wrapping 3 and the inner surface of the impact absorbing layer 12 is arranged is. With a specially developed reading device you can read the standing or lying down pressure vessels 1 and the given on the transponder Query data. If the transponder 11 is designed as a "read and write" transponder is, you can also actively label the transponder, d. H. add new data.

3 shows, like FIG. 1, a pressure vessel 1 in the form of a composite pressure vessel, the same reference numerals have been chosen for the same parts. Around the in the polar cap area 10 arranged "Read and Write" transponders also for determining the To be able to use the actual state of the pressure vessel 1, it is connected via lines 13, 14 a strain gauge 15 symbolically shown here for pressure detection and one Temperature sensor 16 connected. To represent the current state as representative as possible to get the pressure vessel 1 can also spread over the outer surface several strain gauges 15 and temperature sensors 16 arranged and with the transponder 11 are connected.

The impact absorbing layer 12 can be designed as a separately produced pole cap 18 be, as Figure 4 shows. Such a separately manufactured pole cap 18 is on the outermost layer of the winding 3 in the pole area or slightly pressed on not to damage the winding 3. With such an arrangement, it becomes advantageous viewed to provide a recess 17 on the inside of the pole cap 18 to arrange the transponder 11 therein.

Reference list

No. description 1 pressure vessel 2nd cylindrical part 3rd Wrapping 4th Inner liner 5 Clasp 6 Threaded section 7 collar 8th Key approach 9.10 Polar caps 11 Transponder 12th impact absorbing layer 13, 14 cables 15 Strain gauge 16 Temperature sensor 17th Recess 18th separately manufactured pole cap

Claims (14)

Carrier for identity data and other data of a composite pressure vessel consisting of an inner liner and a wrapping for storing gaseous and pressurized media
characterized in that a transponder (11) (chip card) is arranged on the pressure container (1) as the carrier. Carrier according to claim 1
characterized in that the transponder (11) is designed as a thin-walled disk. Carrier according to claim 2
characterized in that the thickness of the transponder (11) is ≤ 1 mm and the greatest extension in the area is ≤ 30 mm. Carrier according to one of claims 1 to 3
characterized in that the transponder (11) is arranged below the outermost layer of the wrapping (3). Carrier according to one of claims 1 to 3
characterized in that the transponder (11) is arranged between the inner liner (4) and the wrapping (3). Carrier according to one of claims 1 to 3
characterized in that the transponder (11) is laminated within the wrapping (3). Carrier according to one of claims 1 to 3
characterized in that the transponder (11) is arranged in the polar cap area (10) of the pressure vessel (1). Carrier according to claim 7
characterized in that the transponder (11) is arranged in the pole cap region (10) between the outermost layer of the wrapping (3) and the inside of an impact-absorbing layer (12) arranged in the pole cap region (10). Carrier according to claim 8
characterized in that the impact-absorbing layer is designed as a separately produced cardboard (18) and a recess (17) is provided on the inside of the cardboard for receiving the transponder (11). Carrier according to claim 7
characterized in that the transponder (11) is arranged within a shock-absorbing layer (12) arranged in the polar cap region (10). Carrier according to one of claims 1 to 10
characterized in that the transponder is designed as a "read" transponder. Carrier according to one of claims 1 to 10
characterized in that the transponder is designed as a "read and write" transponder. Carrier according to one of claims 1 to 12
characterized in that the transponder (11) is connected by means of lines (12, 13) to at least one temperature sensor (16) arranged on the pressure vessel (1) and / or to at least one strain gauge (15) arranged on the pressure vessel (1). Carrier according to claim 13
characterized in that temperature sensors and / or strain gauges are integrated in the transponder.

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