DE2231792B2 - Test apparatus for X-ray testing of vehicle tyres - has tyre mounted rotatably on horizontal axle running through middle - Google Patents

Abstract

One of two X-ray tubes is designed as a two-window tube with beam exit windows displaced 180 deg. in relation to one another and directed at opposite regions of the side walls of the tyre. The other X-ray tube has only one exit window and is directed at the tread region of the tyre. The X-ray tubes can be packed so closed that the zones penetrated by the radiation belong to a narrow cross-sectional area of the tyre. The images recorded by the recording devices are conveyed to a common image-reproducing unit. An adjusting device can be used to approximate adjacent beam zone limits to one another.

Description

The invention relates to devices for testing Pneumatic vehicle tires with the help of X-rays which the tire is rotatably mounted and clamped about a horizontal axis running through its mute.

In known devices, one is satisfied either with an X-raying of the tread, in particular the belt area, or other critical zones,

for example the bead. H.erbe. Either the X-ray radiation must penetrate twice the wall thickness, whereby the X-ray beam cannot be sent perpendicularly through the bead area everywhere, or it is necessary to arrange several X-ray tubes inside the bead, which illuminate the two bead areas and / or the tread area separately. One must accept that the images observed come from different tire segments. The investigation of the fault effect to other areas of the defective Reifenaba ca ^ based on the recognition that for the investi-K tes Rdiens the tread (belt) ^g range! Both sides thereof, the regions of interest are within the sidewalls k Hers, in which ^^ reinforcement, superimpose or bulge reinforcement

"Fen ^verse _in a _* i _au, by the invention ^s« * ™ to | * _e ⁸ _{elost expectant} s, one with X-rays * ^{e A} ^ 8th _{To improve fc fgerUi in such a} way that species _from the same section area

two β J of _{the tire are} taken and

.ο the be of _{the catwalk} right to this one

a ° _{jch as possible} ij _c hst close to neighboring BeAbschn

^rel f? "^," ^ G solves this problem with the in

υ marked measures.

^Α "? ^Ρ Γ" ^ £, _elTeicht that in gle.chze.t.ger Betrachuam _{Bi, daussc} hnhte, for example e.nem

tion α ßildausschnitte a narrowly limited

JTJ, "_'nt which come-in Bildse'emente directly to the same ^d Reifenab the side strips _UIID' ⁿ J j ^ _Ummen. This is of particular importance £"""_{"d s z. B.} metallic reinforcing inserts Dei 1 * ^c * _{of Wuls1 to} bead in a plane transverse '' J ^ _{richlu "g} of the tire extend mry * _Advantage | _Hafti the Bildauswertur.g and -betrach-" _bnenfa i | _s using Bildverstär ^tu "f ^B t _an intermediate television system ^ f "_{'7uführen with} the aid of which the two-Fensteraun _{entstan;. rnenden} Biilder directly side by side * _fd screen of a monitor transmit the _aui _Gege benenfa ls can also without!

who enters ° ^e "■ _{äC] ni clothes of} clarity, em" ^eei _Se i _te nwandbildern the tube the supplied image also be considered on the ^ _Monhor of the _scan so that the g _{"ljchst a mö the} entire cross

E.g.lder _represent the picture complement. Are both

^sc ? "'" J ^lia , " ^e _dichtes Paket within the Re.fens κα-ni», ^^ ^ _{Hj | fe wn} ^ jschengeschaHeten

i ", tiereinrichtiuigen for parallax compensation that of the The image from the zenith part of the tire is faded in between the images of the sidewall parts, that each individual vUiärkunese'inlage of the tire running from bead to bead on the screen as

^du ™ ^ ™ £ ™ „ wise working tire _{testers have particular} advantages, since the effect of a

^ f ^ ^β _{error on} the associated areas of the

^ ™ _fe ^ _section can be observed.

^gl ^ ^he "S _fler development of the invention is provided at% ^{before e1} ^ ™ £ M.rkieruigssystem,

de Vo ^r ™ Pla _{detection of} errors the

^ ^ fä ™™ _unm ittelbar or straight ™ ^ _te ^to;, _eifenabschn can be labeled _tt i, leased ™. _{h Fenlfabrikate} in conventional causes of the error formation on if necessary _to remedy the manufacturing ^ _η.

_Image viewing not to the

, wiped television sys- ^^ j »v, g _special ^^

«Ems ^ gebu, ^ ^ _immediate side-by-side

Inner wall of the tire can be pivoted.

to consider related, opposite image sections in the tire, with the for this purpose X-rays used in both segments are directed radially outwards at the same time, and that fade in between the zenith segment of the tire between the sidewall images.

The X-ray tubes are inside the tire testing device movably arranged in particular so that at least the two-window tube, preferably both tubes, inserted into the interior of the tire after the tire has been fixed within the guide can be. Here it is within the scope of the invention to the pivoting devices for Provide X-ray tube locking points according to the different tire dimensions, one of cause the tire size-dependent centering inside the tire. The image recording organs are in advantageous embodiment of the invention also movably arranged to optionally the various Tire sizes, tire cross-sections or the focus setting can be adapted.

The transmission of images with the aid of television systems is known per se and is not the subject of the invention.

The use of television systems also offers the advantage that the images of a tire can be recorded and with corresponding images of the same tire, e.g. B. after implementation of a driving test can be compared directly with each other. Another advantage is that, in cases of doubt, a re-inspection of rejected tires for the purpose of evaluation, without this must be re-examined is possible.

A preferred embodiment of the invention is shown schematically in the drawings and described in more detail. It shows

Fig. 1 is a sectional view through one in a tire testing system located pneumatic vehicle tires with the arranged in its interior X-ray tubes and the associated image acquisition units and

2 shows a view of an image viewing device (monitor) with the arrangement of the image segments.

In Fig. 1, the tire 1 is arranged in a tire testing system, which is not shown here. A combination of a two-window X-ray tube 2 with the associated windows 2 ', 2 " with a further X-ray tube 3 with a window 3' arranged on the front side is inserted as a fluoroscopic unit. Both tubes are tightly in contact with each other as a tight packing and can be moved against each other arranged so that with the help of adjustment devices - not shown here - the radiation fields hitting the tire wall can be coordinated so that adjacent border lines of the radiation fields fall, touch or at least lie close to one another. The projection results in a gapless or at least - up to uninteresting sub-areas - almost complete picture of the entire tire circumference.

The images generated when the radiation fields pass through the tire are separated from each other Recording units 4, 5, 6 recorded and fed to viewing devices.

Viewing can take place via a single monitor 10 (FIG. 2), the image area of which is in the segments I, II. HI reproduces the individual images recorded by the associated recording units 4, 5, 6. In is advantageous for the parallax compensation between the segment II and the segments 1 and III Another adjustment device is available, so that each individual reinforcement insert running from bead to bead of the tire can be seen on the screen as a continuous meridian.

During testing, the tire 1 is put in rotating motion and simultaneously austretendet through from the windows 2 ', 2 "and 3' of the X-ray tubes 2 and 3 ¹ radiation fields abc penetrated, while the X-ray tubes 2, 3 and the associated Aufnahmeeinheilen 4, 5, 6 for the images generated by the radiation are in the idle state.

The recorded images are, as described above, a viewing device 10 (FIG. 2) fed.

Occurring error patterns can be recognized immediately and the point of error through a - not here - Marking device can be marked on the tire itself.

The image of the defect - possibly also the entire running circumferential image - can be recorded and closed can be used for error analysis at a later point in time.

1 sheet of drawings

Claims (5)

Patent claims: 1. Tire testing device for the X-ray examination of pneumatic vehicle tires, in which the to examining tires around a by seme mute running horizontal axis rotatably mounted .st and movable into the inside of the tire x-ray tube heads are arranged and the images generated by the X-ray tubes image recording and / or Image transmission units are assigned, marked draws through two x-ray tubes. one of which as two-window tubes (2) with Radius frieze windows offset from one another by 180 ° (2 '. 2 ") are formed on each other opposite areas of the tire sidewalls are directed, while the second X-ray tube (3) with only one radiation exit window (3 ') on the Tread area of the tire is directed. 2. Tire testing device according to claim 1, characterized in that the X-ray tubes (2, 3) are arranged in such close packing that the fields penetrated by the radiation (abc) (belong to a narrow cross-sectional area of the tire. 3. Tire testing device according to claims 1 and 2, characterized in that the image recording devices (4, 5, 6) recorded images (I, U, III) to a common image output device (10) are supplied. 4. Tire testing device according to claim 3, characterized by an adjusting device for parallax-free Fade in the image section (II) from the Tread area in the image sections (1, III) of the Side surface areas of the tire in the common Image on the playback device (10). 5. Tire testing device according to one or more of the preceding claims, characterized by an adjustment device for approaching each other neighboring radiation field boundaries.