DE10122968A1 - Apparatus for identifying feed devices, e.g. transport screens circulating on conveyor lines, comprises passive transponder on feed devices, and detectors on stationary structures - Google Patents

Abstract

An apparatus for identifying feed devices, preferably transport screens circulating on conveyors in press installations producing chipboard, comprises passive transponder (6) or oscillatory circuits mounted on feed devices which move past stationary detectors (7). Signals issued by the detectors are modified by the transponder so that a feed device carrying the transponder can be identified.

Description

The invention relates to a device for identification of loading devices circulating in transport lines, esp special transport screens for heatable press systems for Manufacture of chipboard, fiberboard or the like Wood-based panels. - With the heated press systems it can be continuous presses, multi-day cycle presses, steam press systems, etc. As a feeder In addition to transport sieves, press plates and loading also come sheets, embossed sheets, shiny sheets, etc. into question as to how Manufacture of wood-based panels with matt, glossy or structured surfaces, but also for manufacturing of laminates are used.

Feeding agent for a heatable press system for the manufacturer make chipboard, fiberboard or the like Wood-based panels must be identifiable to them for example, to carry out regular cleaning can. It also needs to be considered a predetermined service life, how long the feed agents are already in use. Because are the feed materials circulating in transport systems regularly significant mechanical influences and in the heatable press systems even at high temperatures puts. For example, transport sieves are used in the course of Manufacture of fiberboard with fibers to form Sprinkled fiber mats and with these fiber mats a Be feeding device fed. The loading device is used the transport sieves with the fiber mats to a more floor-level cycle press to hand over. After the pressing process  is handed over to one of the heated press systems downstream emptying device. Then be the transport freed from the pressed fiberboard sieves again fed to a fiber scattering machine. In this Feed circulation is always a plurality of Transport sieves, um, practically an uninterrupted loading the multi-day cycle press and its emptying enable. It is immediately clear from this that the Transport sieves not only need to be cleaned frequently, but also subject to considerable wear and tear need to be replaced regularly.

The invention has for its object a device to create with the circulating in transport roads Feeding agent and in particular transport sieves perfectly get identified.

To achieve this object, the invention teaches a

Device for identifying in transport routes running feeders, especially transport sieves, for heatable press systems for the production of chip boards, fiberboard or similar wood-based panels or laminates, with at least one in each feed located transponder or resonant circuit and with a Detector on which the feed means pass, the Transponder or resonant circuit is passive and signals sent by the detector specifically changed and the feed agent-specific ver changed signals from the detector as the individual feed materials are received and evaluated.  

- Within the scope of the invention, the energy supply to the passive transponders by emitted by the detector electromagnetic energy. Generally you go with it so that the electromag emitted by the detector netic energy by be from the passive transponder Transmit signals that are specific to the agent becomes. Consequently, the signals to be changed serve the same purpose early for the energy transfer to the transponder. The signals emitted by the detector can be permanently to the transponders in the feed media wear, preferably with transmission frequencies in the MHz range or kHz range is worked. - In the case of a swing circle can be a charged resonant circuit act as a coil and at least one capacitor.

Both the transponder and such a resonant circuit form relatively simple and inexpensive Response (transmission) equipment. In both cases, the Induction of AC powered coil systems in the Change detector. As a result, the passive transponder works or oscillating circuit like an inductive transmitter, which the Inductance or self-induction in the usual way from im Detector provided coils for sending corresponding Signals changed. Here in particular offer magnetic materials in the transponder, which ent speaking inductance changes in the detector correspon explosion. An embodiment is also conceivable, according to which Transponder and detector as if they were different plates of a capacitive sensor. In any case, it changes when the transponder or resonant circuit and Detector the inductance or capacitance accordingly  Wise. As a result, can be simple and inexpensive Identify the way of each feed. From the Changes in inductance or changes in capacitance not only the pure presence of a feed agent, but also derive its type. There is a bidirek national data exchange between transponders or resonant circuit and on the other hand detector possible. This Data exchange can be designed in such a way that Detector sent signals as binary data telegrams are executed. Preferably the detector is as a Read / write device with its own power supply, micro processor, memory and at least one antenna forms. The memory is generally used to be save data specific to the media. A appropriate sending of this data can be controlled by the microprocessor.

Further measures essential to the invention are as follows listed. According to a proposal of the invention Transponder or resonant circuit designed as a chip brand and can therefore be used as a chip brand in the feeder deploy. Provided that these feed agents are a Transport sieve in the embodiment of a trailing sieve deals with a Siebzugleiste, the invention provides that the chip mark is inserted in the wire pull bar. There the strainer rail is regularly made of steel, is recommended the invention further that the chip mark in a protection cover made of plastic, e.g. B. Polytetrafluoroethylene (PTFE) embedded and the plastic cover in the strainer bar is inserted. This not only results in a water and dustproof, especially metal dustproof housing  the chip brand, but beyond that Realize chip brands that are independent of the protection or plastic cover temperature resistant up to 240 ° C are. This is within the scope of the invention Significance as the feeder or transport sieves in the heatable press system relatively high Are exposed to temperatures within the Invention chip brands used a sufficient extent Have temperature resistance. Since it is also about Chip tags with a passive transponder or resonant circuit acts, the chip brands are characterized by a practical unlimited lifespan and are maintenance free. The Protective cover prevents metal dust on the chips reflected. Such metal dust occurs during transportation seven with a steel strainer bar inevitably and could read / write distance to the fixed Disrupt detector. However, this is due to the embedding in PTFE prevents. PTFE is resistant to high temperatures and does not affect the signal output from the detector broadcast. In addition, the protective cover allows one flush installation of the chip mark in the strainer bar. This flush installation ensures permanent cleaning of the protective or plastic cover safely. In addition, the chip mark in the surface of the protective cover near the detector to ensure particularly good signal reception Afford. The loading means and in particular special transport screens with the chip brand in a pre given distance past the detector, which at for example, is only 15 to 20 mm when the chip ensure a read / write distance of 30 mm. The loading means or transport sieves and  hence their chip brands at a speed of a maximum of 300 mm / s past the detector in order to for example read and write a multi-digit number can. The temperature is during the read / write cycle regularly not higher than 100 ° C after a pressing process.

In the following, the invention is based on only one Embodiment showing drawing he closer purifies. Show it:

Fig. 1 is a heatable press installation for producing fiber boards, with a transport line to transport ongoing screening for charging the press plant with fiber mats,

Fig. 2, the Siebzugleiste view of a transport wire, in plan,

Fig. 3 is a vertical section through the article of Fig. 2 in the area of a chip mark and

Fig. 4 shows the object of FIG. 3 (without drag screens) when driving over a detector.

The figures show a device for identifying feed means circulating in a transport line 1 as transport screens 2 for a heatable multi-day cycle press 3 for the production of fiberboard, the multi-day cycle press 3 being preceded by a charging station 4 and a discharge station 5 being arranged downstream. The device for identifying has at least one transponder 6 located in each transport screen 2 and a stationary detector 7 , on which the transport screens 2 pass. The transponder 6 is designed as a passive transponder. Signals emitted by the detector 7 are changed specific to the transport sieve, and the signals which are changed specific to the transport sieve are received and evaluated by the detector 7 as the individual transport sieves 2 pass. The passive transponder 6 is supplied with energy by electromagnetic energy emitted by the detector 7 . The electromagnetic energy emitted by the detector 7 is transmitted by the signals to be changed specifically by the passive transponder 6 transport sieve. It works with transmission frequencies in the kHz range.

The transponder is designed as a chip tag 6 . This chip mark 6 is inserted into the strainer 8 of each transport screen 2 . In detail, the chip brand 6 is embedded in a protective cover 9 made of plastic made of PTFE. This protective or plastic sleeve 9 is inserted into the respective strain-relief strip 8 , for example in a recess 10 provided therefor and secured by means of a snap ring 11 . The transport sieves 2 and consequently the sieve pull strips 8 with a chip mark 6 are guided past the detector 7 at a predetermined distance A, which ensures sufficient signal transmission. For this reason, the chip mark 6 is used in each case to the detector in the region near the surface in the protective or plastic sheath. 9

The detector 7 is designed as a reader / writer with its own power supply, microprocessor, memory and at least one antenna. That is not shown.

Claims (10)

1. Device for identifying feed means ( 2 ) rotating in transport lines ( 1 ), in particular transport sieves, for heatable press systems for producing chipboard, fiberboard or similar wood-based panels or laminates, with at least one transponder ( 6 ) located in each feed means ( 2 ) or resonant circuit and with a detector ( 7 ) past which the feed means ( 2 ) pass, the transponder ( 6 ) or resonant circuit being passive and changing signals emitted by the detector ( 7 ) in a feed agent-specific manner and the feed agent specific signals being changed by the detector ( 7 ) are received and evaluated when the individual feed means ( 2 ) drive past. 2. Device according to claim 1, characterized in that the passive transponder ( 6 ) or resonant circuit is supplied with energy by electromagnetic energy emitted by the detector ( 7 ). 3. Device according to claim 1 or 2, characterized in that the electromagnetic energy emitted by the detector ( 7 ) is transmitted by the signals to be changed specific to the feed agent by the passive transponder ( 6 ) or resonant circuit. 4. Device according to one of claims 1 to 3, characterized characterized that with transmission frequencies in the MHz range or kHz range is worked.   5. Device according to one of claims 1 to 4, characterized in that the transponder or resonant circuit is designed as a chip mark ( 6 ). 6. Device according to one of claims 1 to 5, with a transport sieve with a strainer bar, characterized in that the chip mark ( 6 ) is inserted into the strainer bar ( 8 ). 7. Device according to one of claims 1 to 6, characterized in that the chip mark ( 6 ) in a protective cover ( 9 ) made of plastic, for. B. PTFE, embedded and the protective cover ( 9 ) is inserted into the strainer bar ( 8 ). 8. Device according to one of claims 1 to 7, characterized in that the chip mark ( 6 ) in the area near the detector upper area in the protective sheath ( 9 ) or wire ( 8 ) is used. 9. Device according to one of claims 1 to 8, characterized in that the loading means ( 2 ) and in particular special transport sieves with the chip mark ( 6 ) are guided past the detector ( 7 ) at a predetermined distance (A). 10. Device according to one of claims 1 to 9, characterized in that the detector ( 7 ) is designed as a read / write device with its own power supply, at least microprocessor, memory and antenna.