DE3731612C2 - - Google Patents

Description

The invention relates to a pendulum floor conveyor for piece and bulk goods, with substantially parallel and horizontal in Pendulum beam movable relative to each other in the direction of its longitudinal axis, being between the adjacent pendulum beams against material sealed longitudinal joints are formed.

Such a pendulum floor conveyor has been proposed at which the pendulum beams consist of reversed U-profiles and with their flanking U-legs in U-shaped channel profiles ge leads are. To seal the neighboring between the U-legs Pendulum beams formed longitudinal joints each have one of these U-legs an angle profile, which is wedge-like against the U-leg of the adjacent pendulum beam is present. The U-legs themselves have saw their bottom engaging in the U-shaped channel profiles tooth-like recesses to the in the U-shaped channel profiles fine material entering the pendulum despite the longitudinal joint sealing to be able to convey bar movements. - With the older floating floor the longitudinal joint sealing is unsatisfactory in that Signs of wear occur and even signs of jamming conditions are not excluded if the fine material is in the longitudinal joints entry.

Pendulum beams are also used in which the neighboring ones Form flanks vertical side surfaces and by means of a lip device are sealed in one of the side surfaces by means of a groove is attached. The upper sealing lip closes approximately with the top of the Pendulum beam from, so that this sealing lip under heavy wear phenomena is exposed to the material being conveyed. With another out is the sealing lip offset downwards and by a nose-like projection of one of the two facing one another The upper edges of the pendulum beams are partially protected. If however  once fine material past the nose-like projection into the below and above the actual lip seal Has pushed cavity, this leads to a pressure build-up and one rapid wear of the seal. Otherwise, this is execution shape to one-sided and the different materials according to grain size, moisture (water) content, corrosion and wear apparitions not adjusted.

In addition, you know a swing floor conveyor that described above benen embodiment, in which the edges of the neighboring Pendulum beams run parallel to each other and consequently a through Form a step gap without any opening angle. The passage column are covered by metal strips, which are attached to one of the be neighboring pendulum beams are attached. For the rest, this metal stripes are so elastic that they can turn upwards, so that loose material can enter the passage gap (cf. DE-OS 20 37 321). - In another embodiment are between the Pendulum beam sealing profiles arranged. These sealing profiles are always attached to one of the neighboring pendulum beams. So far no overlapping or against each other gasket pro file realized (cf. US-PS 41 84 587).

The invention has for its object a pendulum floor conveyor for support goods and bulk goods of the type described above fen, in which the longitudinal joint sealing is optimized, jamming disc prevents wear and tear and signs of wear to a minimum are reduced.  

The invention solves this problem in a generic pendulum floor conveyor in that the adjacent flanks of the pendulum bal a V-shaped, upward-opening throat with an opening Form angles of less than 90 ° and the longitudinal joints with formation a gap zone open to the conveyor floor with movement play over bridges. - The measures of the invention have first of all Consequence that a through the adjacent flanks of the pendulum beam Bridge formation is achieved, which relieves the pressure in the sealing zone conditional upper joint area. This results in the greatest congestion effects avoided. It is also important that the sealing profile ge for the longitudinal joints of the pendulum beams or their flanks is forming. The flank formation is such that itself fine material over the gap zone adjoining at the bottom bridges and is thereby prevented, under wear or even ver jamming symptoms to pass through the gap zone. But even entering the gap zone Fine goods become counter to gravity due to the relative movements the pendulum beam moves diagonally upwards because there is less rice Resistance occurs and there is fine material in connection with Moisture can rub into larger balls that are in the top Push back the area of the joint. It is actually invented by the Joint formation between the adjacent flanks of the Pendulum beam reduces the static material pressure and the problem the signs of wear and jamming are significantly reduced.

Advantageous embodiments of the subject matter of the invention - also with regard to the training the narrowest gap zone - are listed below. So points the V-shaped throat preferably has an opening angle of 75 ° to 90 ° and extends from 15% to 40%, preferably 25%, the pendulum beam thickness. Advantageously, the overlap  adjacent flanks of the pendulum jaws or are under gap zone bil with the movement play required for the longitudinal movement encountered. In the simplest embodiment, the edges of the Pendulum beams have a wedge shape, with the offset wedge tips form the gap zones. According to a preferred embodiment with independent meaning, however, it is provided that the flanks of the Pendulum beams have gap zone-forming nose profiles or as under Crevice-like interlocking groove profiles formed forms are. According to another proposal of the invention, the adjacent flanks of the pendulum beam together in V or W or X-shaped channel profiles. The channel profiles to avoid sliding friction support and / or abutment strips for the flanks of the pendulum beam. Definitely worry the channel profiles for the fact that possibly through the gap zone fine material is caught. The channel profiles can statio när arranged, but there is also the possibility that the Channel profiles parallel and movable relative to the pendulum beam ge are stored, for example at the same time with one of the two next pendulum beam to remove fine material that has passed through to be able to, provided it doesn't go through against its gravity anyway the relative movements of the pendulum beams are carried obliquely upwards becomes.

The adjacent flanks of the pendulum beam or the pendulum beam themselves can be made of flexible material or friction and ver wear-resistant plastic. Both in this embodiment and also if, according to a further recommendation of the invention, the flan the pendulum beam on one or both sides with overlapping or fitted sealing profiles against each other, can Touch contact between the adjacent pendulum beam or the Sealing profiles without jamming and serious wear  can be brought about, whereby the longitudinal joint sealing is optimized becomes. In fact, these sealing measures make it flawless free bridging of the fine material entering the longitudinal joints reached. In any case, it is ensured that the fine material, which in Gap zone has penetrated, can relieve pressure downwards or at least no jamming or no wear-generating press against the sealing profiles. - After a change th embodiment of the invention provides that between the neighboring flanks of the pendulum beam, the flank or pendulum ball ken comprehensive sealing profiles, e.g. B. X-shaped sealing profiles are used. Such a sealing profile in the embodiment a double lip or compression seal ensures that one on the one hand the longitudinal joint is closed at the bottom, on the other hand press the upper lips against the flanks of the pendulum beams. It there is also the possibility that the adjacent flanks of the Pendulum beams have sealing profiles protruding into the gap zone, e.g. B. downward lip seal. This can also help Release fine material that has penetrated into the gap zone most. Finally, between the flanks of the pendulum beam and the channel profiles are arranged sealing profiles. - Preferably the pendulum beams show art that protrudes into the gap zone fabric coating of considerable thickness, namely a shock absorber beer, wear-resistant or friction-reducing elastomer, which also fulfills the sealing effect in the area of the flanks.

In the following, the invention is based on several exemplary embodiments illustrative drawings explained in more detail; show it  

Fig. 1 to 4 is a schematic cross-section through two Benach disclosed pendulum beam of a pendulum according to the invention floor conveyor in different embodiments

Fig. 5 to 11 modified embodiments of the articles 1 to 4 profiles arranged below the gap zone, and

Fig. 12 to 22 modified embodiments of the articles 1 to 11 with sealing profiles inserted in the area of the longitudinal joint seal.

In the figures, a pendulum floor conveyor for piece and bulk goods is shown, which has substantially parallel and horizontally in the direction of its longitudinal axis synchronously or relatively movable pendulum beam 1 , wherein between the respective pendulum beam 1 against material passage sealed longitudinal joints 2 are formed are. The adjacent flanks 3 of the pen delbalken 1 bridge the longitudinal joints to form a gap zone 4 with a predetermined range of motion. The adjacent flanks 3 of the pendulum beam 1 form a V-shaped upward opening 5 . The V-shaped throat 5 has an opening angle ( α ) of 90 ° and extends over a depth of 15% to 40%, preferably 25%, of the pendulum beam density. The adjacent flanks 3 of the pendulum bar 1 can overlap or be encountered with movement. The flanks 3 of the pendulum beam 1 preferably have a wedge shape, the offset wedge tips forming the gap zones 4 . However, the flanks 3 of the pendulum beam 1 may have 6 or be designed as claw-like interlocking nip zone under formation groove profiles 7 also nip zones 4 forming nose profiles.

According to a modified embodiment each Benach disclosed edges 3 engage the pendulum beam 1, a common X-shaped in a V or W or channel sections. 8 These channel profiles 8 have, if applicable, support and / or abutment strips 9, 10 for the flanks 3 of the pendulum beam 1 . The channel profiles 8 can be movably mounted parallel and rela tively to the pendulum beam 1 . The pendulum beam 1 and / or channel sections 8 are mounted longitudinally displaceable on a transverse bearing profile 11, the bearing profile 11 has extending in the bar or channel longitudinal direction of the hold-down rails 12 for them overlapped guide strips 13 on the pendulum beam 1 or groove / tongue connections with the flanks 3 of the pendulum beam 1 forms, possibly by overcoming a flexible projection. The adjacent flanks 3 of the pendulum beam 1 or the Pendelbal ken 1 itself can be made of flexible material or plastic be.

According to a further modified embodiment, the flanks 3 of the pendulum beams are equipped on one or both sides with overlapping or mutually abutting sealing profiles 14 . Between the adjacent flanks 3 of the pendulum beam 1 , the flanks 3 or pendulum beam 1 bridging sealing profiles 15 , z. B. X-shaped device profiles can be used. But there is also the possibility that the adjacent flanks 3 of the pendulum beam 1 have in the gap zone 4 before cantilevered sealing profiles 16 , for. B. downward lip seals. According to another variant, 8 Dichtungspro file 17 are arranged between the flanks 3 of the pendulum beam 1 and the channel profiles 8 . Finally, the pendulum beam 1 can have a plastic coating of considerable thickness protruding into the gap zone 4 from a shock-absorbing, wear-resistant or friction-reducing elastomer.

Claims (15)

1. Pendulum floor conveyor for piece goods and bulk goods, with pendulum beams arranged essentially parallel and horizontally movable relative to each other in the direction of their longitudinal axis, with longitudinal gaps formed between the adjacent pendulum beams to prevent material penetration, characterized in that the adjacent flanks ( 3 ) the pendulum beam ( 1 ) form a V-shaped upward-opening throat ( 5 ) with an opening angle of less than 90 ° and bridge the longitudinal joints ( 2 ) to form a gap zone ( 4 ) that is open towards the conveyor floor with movement play . 2. Pendulum floor conveyor according to claim 1, characterized in that the V-shaped throat ( 5 ) has an opening angle ( α ) of 75 ° to 90 ° and extends over a depth of 15% to 40%, preferably 25%, of the pendulum beam thickness . 3. Pendulum floor conveyor according to one of claims 1 to 2, characterized in that the adjacent flanks ( 3 ) of the Pendelbal ken ( 1 ) overlap or are encountered with movement. 4. Pendulum floor conveyor according to one of claims 1 to 3, characterized in that the flanks ( 3 ) of the pendulum beam ( 1 ) have a wedge shape, the wedge tips forming the gap zone ( 4 ). 5. Pendulum floor conveyor according to one of claims 1 to 3, characterized in that the flanks ( 3 ) of the pendulum beam ( 1 ) have gap zones ( 4 ) forming nose profiles ( 6 ). 6. Pendulum floor conveyor according to one of claims 1 to 3, characterized in that the flanks ( 3 ) of the pendulum beam ( 1 ) as claw-like interlocking groove profiles ( 7 ) are formed. 7. Pendulum floor conveyor according to one of claims 1 to 6, characterized in that the respective adjacent flanks ( 3 ) of the pendulum beam ( 1 ) engage together in V- or W- or X-shaped channel profiles ( 8 ). 8. Pendulum floor conveyor according to one of claims 1 to 7, characterized in that the channel profiles ( 8 ) support and / or abutment strips ( 9, 10 ) for the flanks ( 3 ) of the pendulum beam ( 1 ) aufwei sen. 9. Pendulum floor conveyor according to one of claims 1 to 8, characterized in that the trough profiles ( 8 ) are mounted parallel and movable relative to the pendulum beam ( 1 ). 10. Pendulum floor conveyor according to one of claims 1 to 9, characterized in that the adjacent flanks ( 3 ) of the pendulum beam ( 1 ) or the pendulum beam ( 1 ) itself consist of flexible material or plastic. 11. Pendulum floor conveyor according to one of claims 1 to 10, characterized in that the flanks ( 3 ) of the pendulum beam ( 1 ) on one or both sides with overlapping or mutually abutting you device profiles ( 14 ) are equipped. 12. Pendulum floor conveyor according to one of claims 1 to 10, characterized in that between the adjacent flanks ( 3 ) of the pen delbalken ( 1 ) the flanks ( 3 ) or pendulum beam ( 1 ) overlapping sealing profiles ( 15 ), z. B. X-shaped sealing profiles are used. 13. Pendulum floor conveyor according to one of claims 1 to 10, characterized in that the adjacent flanks ( 3 ) of the pendulum beam ( 1 ) in the gap zone ( 4 ) projecting sealing profiles ( 16 ), for. B. downward sealing lips. 14. Pendulum floor conveyor according to one of claims 1 to 10, characterized in that between the flanks ( 3 ) of the pendulum beam ( 1 ) and the channel profiles ( 8 ) sealing profiles ( 17 ) are arranged. 15. Pendulum floor conveyor according to one of claims 1 to 14, characterized in that the pendulum beams ( 1 ) have a plastic coating projecting into the gap zone ( 4 ).