EP2392537B1 - Locking head - Google Patents
Locking head Download PDFInfo
- Publication number
- EP2392537B1 EP2392537B1 EP20110153791 EP11153791A EP2392537B1 EP 2392537 B1 EP2392537 B1 EP 2392537B1 EP 20110153791 EP20110153791 EP 20110153791 EP 11153791 A EP11153791 A EP 11153791A EP 2392537 B1 EP2392537 B1 EP 2392537B1
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- EP
- European Patent Office
- Prior art keywords
- cylinder
- locking head
- telescopic
- head according
- crown gear
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- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B66—HOISTING; LIFTING; HAULING
- B66C—CRANES; LOAD-ENGAGING ELEMENTS OR DEVICES FOR CRANES, CAPSTANS, WINCHES, OR TACKLES
- B66C23/00—Cranes comprising essentially a beam, boom, or triangular structure acting as a cantilever and mounted for translatory of swinging movements in vertical or horizontal planes or a combination of such movements, e.g. jib-cranes, derricks, tower cranes
- B66C23/62—Constructional features or details
- B66C23/64—Jibs
- B66C23/70—Jibs constructed of sections adapted to be assembled to form jibs or various lengths
- B66C23/701—Jibs constructed of sections adapted to be assembled to form jibs or various lengths telescopic
- B66C23/708—Jibs constructed of sections adapted to be assembled to form jibs or various lengths telescopic locking devices for telescopic jibs
Definitions
- the invention relates to a locking head for telescoping cylinders of a crane telescope comprising a plurality of telescopic sections,
- the individual telescopic sections of a crane boom of a mobile crane are successively extended by means of a telescoping cylinder and locked together in the extended position.
- a locking head is required.
- a telescopic section Before a telescopic section can be moved, it must be coupled with the locking head. For this purpose, two cylinder latch are extended, which come into engagement with the telescopic section. Subsequently, the still coupled with the adjacent telescopic section telescopic arm is unlocked by a corresponding unlocking mechanism is activated. For example, a spring-loaded bolt is pulled by means of an unlocking claw. Now the locking head is displaced by means of the telescoping cylinder, so that the inside lying telescopic shot is extended. In the approached position, the telescopic section must first be locked again with the adjacent telescopic section. For this purpose, the unlocking claw must be returned to its original position.
- the DE 10 2007 00 6873 B3 discloses a locking head according to the preamble of claim 1.
- the invention has the object, as small as possible, compact locking head for telescoping a to provide multiple telescopic shots crane boom, which is ensured by means of mechanical systems that the release of a two adjacent telescopic shots summarizing locking bolt is only possible when the cylinder latch are set and the cylinder latch can only be disengaged when the dissolved locking bolt after completed Hub again is set.
- the locking head according to the invention for telescoping cylinders has in a housing translationally displaceable cylinder latch, which serve to lock the locking head with a telescopic section.
- the cylinder latches each have a rack portion, which is in meshing engagement with a pinion respectively.
- the translational displacement of the cylinder bolt is done by actuating the pinion, which must be put into a rotary motion for this purpose. This is done according to the invention via a sprocket, with which the pinion are in meshing engagement.
- the ring gear surrounds a cylinder receptacle, which serves to receive the Teleskopierzylinders.
- the particular advantage is that the cylinder latch can be arranged by means of a simple and robust mechanical system in the radial orientation for cylinder reception, which allows a very space-saving, compact and thus lightweight design.
- the ring gear couples the two cylinder latches with each other by means of the respectively meshing with the ring gear and the associated cylinder latch pinion, so that a rotational movement of the ring gear inevitably leads to a uniform displacement of the preferably diametrically arranged cylinder latch.
- the rack portion of a bolt is to be arranged opposite to the rack portion of the other bolt.
- the drive of the ring gear can be done via a drive gear portion which is engaged with a rack portion of a translationally displaceable drive pin.
- the drive bolt is displaced in particular hydraulically, since hydraulic drives for locking heads are particularly well suited due to the high power density.
- the drive bolt has a toothed rack section, which translates the sprocket into a rotational movement by translational movement, so that the rotational movement is transmitted to the toothed rack sections of the cylinder locks.
- the drive bolt is preferably displaceable against the spring force of a return spring.
- the ring gear in addition to the drive gear section on another toothed portion, which is referred to as a locking toothed portion.
- the individual gear sections are located in different circumferential segments of the ring gear.
- the sprocket therefore does not have to be fully interlocked. Since he performs only a limited pivoting movement, it is therefore sufficient to provide only individual sections with a corresponding toothing.
- the tooth geometry may be quite different in the individual gear sections, if required by the individual gear pairings.
- the locking gear portion of the ring gear is used to engage with a locking pinion, which in turn is engaged with a rack portion of a translationally movable locking bolt.
- the locking bolt has the function to block a transversely displaceable to the direction of action of the cylinder latch telescopic bolt body of the locking head.
- the telescopic bolt body serves to actuate the unlocking of successive telescopic shots.
- the displacement of the telescopic bolt body and thus the unlocking of successive telescopic shots is only permitted if the unlocked telescopic section is held by the cylinder locks.
- a mechanical dependence must be ensured. This is achieved in that the locking bolt is displaced in the stroke of the telescopic bolt body.
- the telescopic bolt body may comprise a safety bolt in an advantageous development, which is displaceable in the stroke of the locking bolt or a cylinder bolt. This ensures that the cylinder locks can not be retracted when the telescopic latch body is actuated to unlock successive telescoping shots.
- the pinion meshing with the locking bolt can not rotate.
- the sprocket is fixed, which is engaged via further pinion with the cylinder locks. The sprocket with all its rotation-dependent functions can thus not only effect the adjustment of the telescopic bolt, but also prevent it.
- the telescopic bolt body is mounted on a plurality of circumferentially arranged on the telescopic bolt body guide elements in the building to guide the telescopic bolt body in its translational movement relative to the housing of the locking head. Due to the compact design with the ring gear, the guide elements can run very close to the cylinder bolts. It is even possible to arrange the telescopic bolt body in the same spatial plane as the cylinder latch.
- the guide elements are preferably arranged diametrically.
- the guide elements can serve in an advantageous embodiment of the invention at the same time as an external guide of a helical compression spring, via which the telescopic bolt body is supported on the housing.
- the helical compression springs serve to return the telescopic bolt body to its original position.
- the displacement of the telescopic bolt body takes place in an advantageous manner by means of hydraulically actuated unlocking pistons, which engage on the opposite side of the helical compression springs on the telescopic bolt body.
- two unlocking pistons are provided, which are also arranged opposite one another, so that the forces are introduced uniformly in the telescopic bolt body.
- the guide elements are thus externally marked to guide the telescopic bolt body and take as cup-like hollow body on the inside, the helical compression spring. You have a double function.
- the sprocket itself is a very flat-building component that can be easily offset in the longitudinal direction of the Telekopierzylinders arranged to the cylinder locks without the length of the locking head would increase significantly.
- the pinion meshing with the sprocket and at the same time with the cylinder bolts are therefore correspondingly long. As a result, there is still enough space to arrange the necessary guides for the locking bolt and the securing bolt in a plane which is located between the spanned by the cylinder bolts plane and the plane of the ring gear.
- the sprocket itself is provided only in the individual, necessary for its function segments with individual toothing sections.
- the toothing is preferably an external toothing.
- the ring gear can be made smaller in diameter than an internally toothed ring gear. In the context of the invention, however, it is not excluded that the toothed sections once as external teeth and formed in a different area than internal teeth.
- the sprocket may be coupled as a central element of the locking head with means for position detection. These means for position detection must detect in particular the position of the cylinder latch. This can be read off at the position of the sprocket. It is therefore not necessary to assign each cylinder lock separately means for position detection.
- FIG. 1 shows a locking head 1 in cross section.
- the locking head 1 is attached in a manner not shown to a telescopic cylinder of a plurality of telescopic shots comprising crane jib.
- the locking head 1 comprises a housing 2, in which translationally displaceable cylinder bars 3, 4 are arranged.
- the cylinder latch 3, 4 are extendable in opposite directions from the housing 2 and serve to lock the locking head 1 with a telescopic arm to carry this when retracting or extending the Teleskopierzylinders.
- This unit may be referred to as cylinder lock ZV.
- FIG. 1 shows the two cylinder latch 3, 4 in the extended state, that is, the locking head 1 and thus the telescoping cylinder is locked with a telescopic section.
- Transverse to the cylinder bolts 3, 4 is a telescopic bolt body 5 within the housing 2 displaced.
- the telescopic bar body 5 serves not one To shift the unlocking pin shown closer and to pull in the direction of the housing 2.
- the telescoping bolt body 5 is configured as a claw that can grasp behind a provided with an undercut head of a Entriegelungsbolzens.
- the telescopic bolt body 5 is part of the so-called telescopic lock TV. In the illustrated position, the telescopic bolt body 5 is at its top dead center, that is, the release bolt, not shown, could be displaced downwards due to the set cylinder latch 3, 4 in the image plane.
- the ring gear 6 is so large that a center of the housing 2 arranged cylinder receptacle 7, which serves to receive the Teleskopierzylinders not shown, is completely surrounded by the ring gear 6. From the representation of the center lines can be seen that the central longitudinal axis of the cylinder latch 3, 4 and the central longitudinal axis of the telescopic bolt body intersect at a point. This is, on the one hand, the center of the cylinder receptacle 7, but on the other hand, the center of the ring gear. 6
- the mounted in the housing 2 ring gear 6 has a plurality of toothing sections.
- the ring gear is driven via a drive gear section 8, which engages with a rack section 9 of a translationally displaceable drive pin 10.
- the drive pin 10 is hydraulically displaceable counter to a spring force of a return spring 11, If no hydraulic pressure is applied to the drive pin 10, the drive pin 10 is in the position shown. That is, the cylinder latch 3, 4 are set. When pressure is applied, the drive pin 10 moves to the right, so that the ring gear 6 moved from this direction according to the arrow in the counterclockwise direction.
- the ring gear 6 serves to actuate the two cylinder latch 3, 4.
- each gear teeth sections 12, 13 are provided on the ring gear 6, which are in engagement with pinion 14, 15, which rotate in accordance with the arrows.
- the pinions 14, 15 are in turn with rack sections 16, 17 of the cylinder latch 3, 4 in engagement, so that they would shift according to the arrows, that would be retracted in this case.
- the two cylinder latch 3, 4 are thus in a dependency. When the one cylinder latch 3 retracts, inevitably the other cylinder latch 4 must retract and vice versa.
- FIG. 1 also shows a third gear section. This is referred to as Sperrveriereungsabêt 18 and communicates with a locking pinion 19 in meshing engagement.
- the locking pinion 19 in turn serves to displace a translationally displaceable locking bolt 20, which has a rack portion 21 for this purpose.
- a helical compression spring 25 On the opposite side of the collar 24 is a helical compression spring 25, so that the displacement of the telescopic bolt body 5 is against a spring force of the helical compression spring 25.
- a plurality of helical compression springs 25 are provided in particular in a diametrical arrangement in order to allow a uniform application of force to the collar 24 and thus of the telescopic locking bolt body 5.
- a special feature of the locking head 1 according to the invention is also the type of leadership of the telescopic bolt body 5.
- Above the locking bolt 22 is located on the side opposite the collar 24 a hollow pin-shaped or cup-shaped effetselenlent 26 which is mounted in the housing 2.
- the guide element 26 is located in the immediate vicinity of the telescopic bolt body, so that act on the guide only very low bending moments.
- a second, not shown in detail guide member 26 is located in diametrical relationship to the illustrated guide element 26, as shown in FIG. 2 can be seen.
- the securing bolt 22 also has a guiding function for the telescopic bolt body 5.
- FIG. 2 it can be seen how short the locking head 1 according to the invention builds.
- the cylinder bolts 3, 4 are together with the telescopic bolt body 5 in the same spatial plane, which is referred to here as a sectional plane A - A.
- the pinions 14, 15 In the longitudinal direction offset to the sectional plane A - A is the ring gear 6.
- the pinions 14, 15 have a correspondingly large longitudinal extent, as they naturally have to extend from the ring gear 6 into the area of the cylinder latches 3, 4. Due to the relatively large diameter of the cylinder latches 3, 4, it is not necessary for the pinions 14, 15 to extend over the entire width of the cylinder latches 3, 4.
- the pinions 14, 15 are also in use only with slightly more than half of the toothing width of the corresponding toothed rack sections 16, 17 of the cylinder latches 3, 4.
- the helical compression springs 25 lie exactly below / within the guide elements 26 in the image plane. Between the two guide elements 26 and helical compression springs 26 on one side, the respective unlocking piston 23 and below it are located exactly in the middle the other side of the collar 24, the safety pin 22nd
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Jib Cranes (AREA)
Description
Die Erfindung betrifft einen Verriegelungskopf für Teleskopierzylinder eines mehrere Teleskopschüsse umfassenden Kranauslegers,The invention relates to a locking head for telescoping cylinders of a crane telescope comprising a plurality of telescopic sections,
Die einzelnen Teleskopschüsse eines Kranauslegers eines Mobilkrans werden mit Hilfe eines Teleskopierzylinders nacheinander ausgefahren und in der ausgefahrenen Position miteinander verriegelt. Hierzu ist ein Verriegelungskopf erforderlich.The individual telescopic sections of a crane boom of a mobile crane are successively extended by means of a telescoping cylinder and locked together in the extended position. For this purpose, a locking head is required.
Bevor ein Teleskopschuss verfahren werden kann, muss er mit dem Verriegelungskopf gekoppelt werden. Hierzu werden zwei Zylinderriegel ausgefahren, die mit dem Teleskopschuss in Eingriff gelangen. Anschließend wird der noch mit dem benachbarten Teleskopschuss gekoppelte Teleskopschuss entriegelt, indem ein entsprechender Entriegelungsmechanismus aktiviert wird. Beispielsweise wird ein federbelasteter Bolzen mittels einer Entriegelungsklaue gezogen. Nun wird der Verriegelungskopf mittels des Teleskopierzylinders verlagert, so dass der innen liegende Teleskopschuss ausgefahren wird. In der angefahrenen Position muss der Teleskopschuss zunächst wieder mit dem benachbarten Teleskopschuss verriegelt werden. Hierzu muss die Entriegelungsklaue wieder in ihre Ausgangsposition gebracht werden. Erst wenn die beiden benachbarten Teleskopschüsse miteinander verriegelt sind, dürfen die Zylinderriegel zwischen dem Verriegelungskopf und dem Teleskopschuss wieder gelöst werden. Anschließend fährt der Teleskopierzylinder wieder ein, um gegebenenfalls einen weiteren Teleskopschuss in der vorstehend beschriebenen Art und Weise zu verlagern.Before a telescopic section can be moved, it must be coupled with the locking head. For this purpose, two cylinder latch are extended, which come into engagement with the telescopic section. Subsequently, the still coupled with the adjacent telescopic section telescopic arm is unlocked by a corresponding unlocking mechanism is activated. For example, a spring-loaded bolt is pulled by means of an unlocking claw. Now the locking head is displaced by means of the telescoping cylinder, so that the inside lying telescopic shot is extended. In the approached position, the telescopic section must first be locked again with the adjacent telescopic section. For this purpose, the unlocking claw must be returned to its original position. Only when the two adjacent telescopic sections are locked together, the cylinder bolts between the locking head and the telescopic section may be released again. Subsequently, the telescoping cylinder retracts to possibly displace another telescopic section in the manner described above.
Entscheidend für die Betriebssicherheit ist eine zuverlässige Ansteuerung der beiden Verriegelungsmechanismen. In diesem Zusammenhang ist beispielsweise in der
Es zählt durch die
Die
Hiervon ausgehend liegt der Erfindung die Aufgabe zugrunde, einen möglichst kleinbauenden, kompakten Verriegelungskopf für Teleskopierzylinder eines mehrere Teleskopschüsse umfassenden Kranauslegers zu schaffen, bei welchem mittels mechanischer Systeme sichergestellt ist, dass das Lösen eines zwei angrenzende Teleskopschüsse zusammenfassenden Verriegelungsbolzens erst möglich wird, wenn die Zylinderriegel gesetzt sind und die Zylinderriegel erst außer Eingriff bringbar sind, wenn der gelöste Verriegelungsbolzen nach vollzogenem Hub wieder gesetzt ist.On this basis, the invention has the object, as small as possible, compact locking head for telescoping a to provide multiple telescopic shots crane boom, which is ensured by means of mechanical systems that the release of a two adjacent telescopic shots summarizing locking bolt is only possible when the cylinder latch are set and the cylinder latch can only be disengaged when the dissolved locking bolt after completed Hub again is set.
Diese Aufgabe ist bei einem Verriegelungskopf mit den Merkmalen des Patentanspruchs 1 gelöst.This object is achieved in a locking head with the features of
Vorteilhafte Weiterbildungen des Erfindungsgedankens sind Gegenstand der Unteransprüche.Advantageous developments of the inventive concept are the subject of the dependent claims.
Der erfindungsgemäße Verriegelungskopf für Teleskopierzylinder besitzt in einem Gehäuse translatorisch verlagerbare Zylinderriegel, welche zur Verriegelung des Verriegelungskopfes mit einem Teleskopschuss dienen. Die Zylinderriegel besitzen jeweils einen Zahnstangenabschnitt, der jeweils mit einem Ritzel in Verzahnungseingriff steht. Die translatorische Verlagerung der Zylinderriegel erfolgt durch Betätigung der Ritzel, welche hierzu in eine Drehbewegung versetzt werden müssen. Das erfolgt erfindungsgemäß über einen Zahnkranz, mit welchem die Ritzel in Verzahnungseingriff stehen. Der Zahnkranz umgibt hierbei eine Zylinderaufnahme, die zur Aufnahme des Teleskopierzylinders dient.The locking head according to the invention for telescoping cylinders has in a housing translationally displaceable cylinder latch, which serve to lock the locking head with a telescopic section. The cylinder latches each have a rack portion, which is in meshing engagement with a pinion respectively. The translational displacement of the cylinder bolt is done by actuating the pinion, which must be put into a rotary motion for this purpose. This is done according to the invention via a sprocket, with which the pinion are in meshing engagement. The ring gear surrounds a cylinder receptacle, which serves to receive the Teleskopierzylinders.
Der besondere Vorteil ist, dass die Zylinderriegel mittels eines einfachen und robusten mechanischen Systems in radialer Orientierung zur Zylinderaufnahme angeordnet sein können, was eine sehr Platz sparende, kompakte und damit leichte Bauweise ermöglicht. Der Zahnkranz koppelt die beiden Zylinderriegel mittels der jeweils mit dem Zahnkranz und dem zugehörigen Zylinderriegel in Eingriff stehenden Ritzel miteinander, so dass eine Drehbewegung des Zahnkranzes zwangsläufig zu einer gleichmäßigen Verlagerung der vorzugsweise diametral angeordneten Zylinderriegel führt. Über eine entsprechende Anordnung der Zahnstangenabschnitte an den Zylinderriegel ist es möglich, die Riegel in entgegengesetzte Richtungen translatorisch zu verlagern. Hierzu ist der Zahnstangenabschnitt eines Riegels gegenüberliegend zu dem Zahnstangenabschnitt des anderen Riegels anzuordnen.The particular advantage is that the cylinder latch can be arranged by means of a simple and robust mechanical system in the radial orientation for cylinder reception, which allows a very space-saving, compact and thus lightweight design. The ring gear couples the two cylinder latches with each other by means of the respectively meshing with the ring gear and the associated cylinder latch pinion, so that a rotational movement of the ring gear inevitably leads to a uniform displacement of the preferably diametrically arranged cylinder latch. By means of a corresponding arrangement of the toothed rack sections on the cylinder bolt, it is possible to translate the bolts in opposite directions relocate. For this purpose, the rack portion of a bolt is to be arranged opposite to the rack portion of the other bolt.
Sollten sich die Zahnstangenabschnitte auf der gleichen Seite befinden, ist auf einer Seite bzw. an einem Zylinderriegel ein Zwischenritzel erforderlich, um die Drehrichtung des mit dem Zahnstangenbereich des Zylinderriegels in Eingriff stehenden Ritzels umzukehren.Should the rack sections be on the same side, an intermediate pinion is required on one side or cylinder latch to reverse the direction of rotation of the pinion meshing with the rack portion of the cylinder bar.
Der Antrieb des Zahnkranzes kann über einen Antriebsverzahnungsabschnitt erfolgen, welcher mit einem Zahnstangenabschnitt eines translatorisch verlagerbaren Antriebsbolzens in Eingriff steht. Der Antriebsbolzen wird insbesondere hydraulisch verlagert, da sich hydraulische Antriebe für Verriegelungsköpfe aufgrund der hohen Leistungsdichte besonders gut eignen. Der Antriebsbolzen weist einen Zahnstangenabschnitt auf, der durch translatorische Bewegung den Zahnkranz in eine Drehbewegung versetzt, so dass sich die Drehbewegung auf die Zahnstangenabschnitte der Zylinderriegel überträgt. Der Antriebsbolzen ist vorzugsweise gegen die Federkraft einer Rückstellfeder verlagerbar.The drive of the ring gear can be done via a drive gear portion which is engaged with a rack portion of a translationally displaceable drive pin. The drive bolt is displaced in particular hydraulically, since hydraulic drives for locking heads are particularly well suited due to the high power density. The drive bolt has a toothed rack section, which translates the sprocket into a rotational movement by translational movement, so that the rotational movement is transmitted to the toothed rack sections of the cylinder locks. The drive bolt is preferably displaceable against the spring force of a return spring.
Bevorzugt weist der Zahnkranz neben dem Antriebsverzahnungsabschnitt einen weiteren Verzahnungsabschnitt auf, welcher als Sperrverzahnungsabschnitt bezeichnet wird. Die einzelnen Verzahnungsabschnitte befinden sich in unterschiedlichen Umfangssegmenten des Zahnkranzes. Der Zahnkranz muss daher nicht vollständig verzahnt sein. Da er nur eine begrenzte Schwenkbewegung ausführt, reicht es daher aus, nur einzelne Abschnitte mit einer entsprechenden Verzahnung zu versehen. Die Zahngeometrie kann in den einzelnen Verzahnungsabschnitten dabei durchaus unterschiedlich sein, wenn dies die einzelnen Verzahnungspaarungen erfordern.Preferably, the ring gear in addition to the drive gear section on another toothed portion, which is referred to as a locking toothed portion. The individual gear sections are located in different circumferential segments of the ring gear. The sprocket therefore does not have to be fully interlocked. Since he performs only a limited pivoting movement, it is therefore sufficient to provide only individual sections with a corresponding toothing. The tooth geometry may be quite different in the individual gear sections, if required by the individual gear pairings.
Der Sperrverzahnungsabschnitt des Zahnkranzes dient dazu, mit einem Sperrritzel in Eingriff zu gelangen, welches wiederum mit einem Zahnstangenabschnitt eines translatorisch verlagerbaren Sperrriegels in Eingriff steht.The locking gear portion of the ring gear is used to engage with a locking pinion, which in turn is engaged with a rack portion of a translationally movable locking bolt.
Der Sperrriegel hat die Funktion, einen quer zur Wirkrichtung der Zylinderriegel verlagerbaren Teleskopriegelkörper des Verriegelungskopfes zu blockieren. Der Teleskopriegelkörper dient zur Betätigung der Entriegelung von aufeinander folgenden Teleskopschüssen. Die Verlagerung des Teleskopriegelkörpers und damit das Entriegeln von aufeinander folgenden Teleskopschüssen ist nur zulässig, wenn der entriegelte Teleskopschuss von den Zylinderriegeln gehalten ist. Hier muss eine mechanische Abhängigkeit sichergestellt sein. Dies gelingt dadurch, dass der Sperrriegel in den Hubweg des Teleskopriegelkörpers verlagerbar ist.The locking bolt has the function to block a transversely displaceable to the direction of action of the cylinder latch telescopic bolt body of the locking head. The telescopic bolt body serves to actuate the unlocking of successive telescopic shots. The displacement of the telescopic bolt body and thus the unlocking of successive telescopic shots is only permitted if the unlocked telescopic section is held by the cylinder locks. Here, a mechanical dependence must be ensured. This is achieved in that the locking bolt is displaced in the stroke of the telescopic bolt body.
Umgekehrt kann der Teleskopriegelkörper in vorteilhafter Weiterbildung einen Sicherungsbolzen aufweisen, welcher in den Hubweg des Sperrriegels oder eines Zylinderriegels verlagerbar ist. Dadurch wird sichergestellt, dass die Zylinderriegel nicht eingefahren werden können, wenn der Teleskopriegelkörper zur Entriegelung von aufeinander folgenden Teleskopschüssen betätigt wird. Wenn der Hubweg des Sperrriegels durch den Sicherungsbolzen blockiert wird, kann sich das mit dem Sperrriegel in Eingriff stehende Ritzel nicht drehen. Damit ist auch der Zahnkranz festgesetzt, der über weitere Ritzel mit den Zylinderriegeln in Eingriff steht. Der Zahnkranz mit all seinen rotationsabhängigen Funktionen kann damit nicht nur die Verstellung der Teleskopriegel bewirken, sondern diese auch verhindern.Conversely, the telescopic bolt body may comprise a safety bolt in an advantageous development, which is displaceable in the stroke of the locking bolt or a cylinder bolt. This ensures that the cylinder locks can not be retracted when the telescopic latch body is actuated to unlock successive telescoping shots. When the stroke of the locking bolt is blocked by the locking bolt, the pinion meshing with the locking bolt can not rotate. Thus, the sprocket is fixed, which is engaged via further pinion with the cylinder locks. The sprocket with all its rotation-dependent functions can thus not only effect the adjustment of the telescopic bolt, but also prevent it.
In vorteilhafter Weiterbildung der Erfindung ist der Teleskopriegelkörper über mehrere umfangsseitig des Teleskopriegelkörpers angeordnete Führungselemente in dem Gebäude gelagert, um den Teleskopriegelkörper bei seiner translatorischen Bewegung gegenüber dem Gehäuse des Verriegelungskopfes zu führen. Aufgrund der kompakten Bauweise mit dem Zahnkranz können die Führungselemente sehr nahe neben den Zylinderriegeln verlaufen. Es ist sogar möglich, den Teleskopriegelkörper in der gleichen räumlichen Ebene wie die Zylinderriegel anzuordnen. Die Führungselemente sind vorzugsweise diametral angeordnet.In an advantageous embodiment of the invention, the telescopic bolt body is mounted on a plurality of circumferentially arranged on the telescopic bolt body guide elements in the building to guide the telescopic bolt body in its translational movement relative to the housing of the locking head. Due to the compact design with the ring gear, the guide elements can run very close to the cylinder bolts. It is even possible to arrange the telescopic bolt body in the same spatial plane as the cylinder latch. The guide elements are preferably arranged diametrically.
Die Führungselemente können in vorteilhafter Weiterbildung der Erfindung gleichzeitig als Außenführung einer Schraubendruckfeder dienen, über welche der Teleskopriegelkörper an dem Gehäuse abgestützt ist. Die Schraubendruckfedern dienen zur Rückstellung des Teleskopriegelkörpers in seine Ausgangsstellung. Die Verlagerung des Teleskopriegelkörpers erfolgt in vorteilhafter Weise mittels hydraulisch betätigbarer Entriegelungskolben, welche auf der entgegengesetzten Seite der Schraubendruckfedern an dem Teleskopriegelkörper angreifen. Vorzugsweise sind zwei Entriegelungskolben vorgesehen, die ebenfalls gegenüberliegend angeordnet sind, damit die Kräfte gleichmäßig in den Teleskopriegelkörper eingeleitet werden.The guide elements can serve in an advantageous embodiment of the invention at the same time as an external guide of a helical compression spring, via which the telescopic bolt body is supported on the housing. The helical compression springs serve to return the telescopic bolt body to its original position. The displacement of the telescopic bolt body takes place in an advantageous manner by means of hydraulically actuated unlocking pistons, which engage on the opposite side of the helical compression springs on the telescopic bolt body. Preferably, two unlocking pistons are provided, which are also arranged opposite one another, so that the forces are introduced uniformly in the telescopic bolt body.
Die Führungselemente sind somit außenseitig zur Führung des Teleskopriegelkörpers ausgeschildert und nehmen als napfartige Hohlkörper innenseitig die Schraubendruckfeder auf. Sie haben damit eine doppelte Funktion.The guide elements are thus externally marked to guide the telescopic bolt body and take as cup-like hollow body on the inside, the helical compression spring. You have a double function.
Der Zahnkranz selbst ist ein sehr flachbauendes Bauteil, das problemlos in Längsrichtung des Telekopierzylinders versetzt zu den Zylinderriegeln angeordnet sein kann, ohne dass die Baulänge des Verriegelungskopfes erheblich zunehmen würde. Die mit dem Zahnkranz und gleichzeitig mit den Zylinderriegeln in Eingriff stehenden Ritzel sind daher entsprechend lang ausgebildet. Dadurch besteht aber auch noch genügend Platz, um die notwendigen Führungen für den Sperrriegel und den Sicherungsbolzen in einer Ebene anzuordnen, die sich zwischen der von den Zylinderriegeln aufgespannten Ebene und der Ebene des Zahnkranzes befindet.The sprocket itself is a very flat-building component that can be easily offset in the longitudinal direction of the Telekopierzylinders arranged to the cylinder locks without the length of the locking head would increase significantly. The pinion meshing with the sprocket and at the same time with the cylinder bolts are therefore correspondingly long. As a result, there is still enough space to arrange the necessary guides for the locking bolt and the securing bolt in a plane which is located between the spanned by the cylinder bolts plane and the plane of the ring gear.
Der Zahnkranz selbst ist nur in den einzelnen, für seine Funktion notwendigen Segmenten mit einzelnen Verzahnungsabschnitten versehen. Selbstverständlich ist eine vollumfängliche Verzahnung ebenso denkbar. Bei der Verzahnung handelt es sich vorzugsweise um eine Außenverzahnung. Dadurch kann der Zahnkranz im Durchmesser kleiner gestaltet werden als ein innenverzahnter Zahnkranz. Im Rahmen der Erfindung ist jedoch nicht ausgeschlossen, dass die Verzahnungsabschnitte einmal als Außenverzahnung und in einem anderen Bereich als Innenverzahnung ausgebildet sind.The sprocket itself is provided only in the individual, necessary for its function segments with individual toothing sections. Of course, a complete interlocking is also conceivable. The toothing is preferably an external toothing. As a result, the ring gear can be made smaller in diameter than an internally toothed ring gear. In the context of the invention, however, it is not excluded that the toothed sections once as external teeth and formed in a different area than internal teeth.
Der Zahnkranz kann als zentrales Element des Verriegelungskopfes mit Mitteln zur Positionserfassung gekoppelt sein. Diese Mittel zur Positionserfassung müssen insbesondere die Position der Zylinderriegel erfassen. Diese lässt sich an der Stellung des Zahnkranzes ablesen. Es ist somit nicht notwendig, jedem einzelnen Zylinderriegel separat Mittel zur Positionserfassung zuzuordnen.The sprocket may be coupled as a central element of the locking head with means for position detection. These means for position detection must detect in particular the position of the cylinder latch. This can be read off at the position of the sprocket. It is therefore not necessary to assign each cylinder lock separately means for position detection.
Die Erfindung wird nachfolgend anhand eines in den Zeichnungen dargestellten Ausführungsbeispiels näher erläutert. Es zeigt:
Figur 1- einen Querschnitt durch einen Verriegelungskopf entlang der Linie A-A der
Figur 2 und Figur 2- den
Verriegelungskopf der Figur 1 in der Draufsicht.
- FIG. 1
- a cross section through a locking head along the line AA of
FIG. 2 and - FIG. 2
- the locking head of
FIG. 1 in the plan view.
Quer zu den Zylinderriegeln 3, 4 ist ein Teleskopriegelkörper 5 innerhalb des Gehäuses 2 verlagerbar. Der Teleskopriegelkörper 5 dient dazu, einen nicht näher dargestellten Entriegelungsbolzen zu verlagern und in Richtung des Gehäuses 2 zu ziehen. Dadurch kann die Verriegelung zwei benachbarter Teleskopschüsse aufgehoben werden, mit der Folge, dass der innenliegende Teleskopschuss, der zu diesem Zweck über die Zylinderriegel 3, 4 mit dem Verriegelungskopf verriegelt ist, mitgeführt werden kann. Bei diesem Ausführungsbeispiel ist der Teleskopriegelkörper 5 als Klaue konfiguriert, die hinter einem mit einer Hinterschneidung versehenden Kopf eines Entriegelungsbolzens fassen kann. Der Teleskopriegelkörper 5 ist Bestandteil der so genannten Teleskopverriegelung TV. In der dargestellten Position befindet sich der Teleskopriegelkörper 5 an seinem oberen Totpunkt, das heißt, der nicht näher dargestellte Entriegelungsbolzen könnte aufgrund der gesetzten Zylinderriegel 3, 4 in der Bildebene nach unten verlagert werden.Transverse to the
Die Betätigung der Zylinderriegel 3, 4 erfolgt über einen Zahnkranz 6, der innerhalb des Gehäuses 2 gelagert ist. Der Zahnkranz 6 ist so groß, dass eine mittig des Gehäuses 2 angeordnete Zylinderaufnahme 7, die zur Aufnahme des nicht näher dargestellten Teleskopierzylinders dient, von dem Zahnkranz 6 vollständig umgeben ist. Aus der Darstellung der Mittellinien ist zu erkennen, dass die Mittellängsachse der Zylinderriegel 3, 4 und die Mittellängsachse des Teleskopriegelkörpers sich in einem Punkt schneiden. Dies ist zum einen der Mittelpunkt der Zylinderaufnahme 7, zum anderen aber auch der Mittelpunkt des Zahnkranzes 6.The actuation of the
Der im Gehäuse 2 gelagerte Zahnkranz 6 besitzt mehrere Verzahnungsabschnitte. Angetrieben wird der Zahnkranz über einen Antriebsverzahnungsabschnitt 8, welcher mit einem Zahnstangenabschnitt 9 eines translatorisch verlagerbaren Antriebsbolzens 10 in Eingriff steht. Der Antriebsbolzen 10 ist entgegen einer Federkraft einer Rückstellfeder 11 hydraulisch verlagerbar, Wenn an dem Antriebsbolzen 10 kein hydraulischer Druck anliegt, befindet sich der Antriebsbolzen 10 in der dargestellten Position. Das heißt, die Zylinderriegel 3, 4 sind gesetzt. Bei Druckbeaufschlagung bewegt sich der Antriebsbolzen 10 nach rechts, so dass sich der Zahnkranz 6 aus dieser Blickrichtung entsprechend dem eingezeichneten Pfeil entgegen dem Uhrzeigersinn bewegt.The mounted in the
Der Zahnkranz 6 dient dabei zur Betätigung der beiden Zylinderriegel 3, 4. Hierzu sind an dem Zahnkranz 6 jeweils Verzahnungsabschnitte 12, 13 vorgesehen, welche mit Ritzel 14, 15 in Eingriff stehen, die sich entsprechend der eingezeichneten Pfeile drehen. Die Ritzel 14, 15 stehen wiederum mit Zahnstangenabschnitten 16, 17 der Zylinderriegel 3, 4 in Eingriff, so dass sich auch diese entsprechend der eingezeichneten Pfeile verlagern würden, das heißt in diesem Fall eingefahren würden. Die beiden Zylinderriegel 3, 4 stehen also in einer Abhängigkeit. Wenn der eine Zylinderriegel 3 einfährt, muss zwangsläufig auch der andere Zylinderriegel 4 einfahren und umgekehrt.The
Es ist zu erkennen, dass die Bewegung der beiden Zylinderriegel 3, 4 immer gegensätzlich erfolgt, was darauf zurückzuführen ist, dass der Zahnstangenabschnitt 16 des in der Bildebene rechten Zylinderriegels 4 in der Bildebene oben und sein Pendant am anderen Zylinderriegel 3 in der Bildebene unten angeordnet ist.It can be seen that the movement of the two cylinder latches 3, 4 is always opposite, which is due to the fact that the
Es ist zu erkennen, dass es in dem Hubweg des Sperrriegels 20 einen Kreuzungsbereich gibt, welcher für einen Sicherungsbolzen 22 des Teleskopriegelkörpers 5 vorgesehen ist. Wie eingangs erläutert muss durch die gegenseitige mechanische Abhängigkeit gewährleistet werden, dass der Teleskopriegelkörper 5 nur dann eingefahren werden kann, wenn die Zylinderriegel 3, 4 gesetzt sind. Bei der vorliegenden Ausgestaltung der Erfindung ist dies nur möglich, wenn sich der Sperrriegel 20 ganz links befindet, so dass der Kreuzungsbereich frei ist. Nun kann der Sicherungsbolzen 22 den Kreuzungsbereich durchfahren, das heißt, der Teleskopriegelkörper 5 kann nach unten verlagert werden. Dies erfolgt mittels Entriegelungskolben 23, in Form von Plungern, die auf einen Kragen 24 des Teleskopriegelkörpers 5 wirken. Auf der gegenüberliegenden Seite des Kragens 24 befindet sich eine Schraubendruckfeder 25, so dass die Verlagerung des Teleskopriegelkörpers 5 entgegen einer Federkraft der Schraubendruckfeder 25 erfolgt. Vorzugsweise sind mehrere Schraubendruckfedern 25 insbesondere in diametraler Anordnung vorgesehen, um eine gleichmäßige Kraftbeaufschlagung des Kragens 24 und damit des Teleskopriegelkörpers 5 zu ermögliche.It can be seen that in the stroke of the locking
Eine Besonderheit des erfindungsgemäßen Verriegelungskopfes 1 ist zudem die Art der Führung des Teleskopriegelkörpers 5. Oberhalb des Sicherungsbolzens 22 befindet sich auf der dem Kragen 24 gegenüberliegenden Seite ein hohlstiftförmiges bzw. napfförmiges Führungselenlent 26, das im Gehäuse 2 gelagert ist. Das Führungselement 26 befindet sich in unmittelbarer Nähe des Teleskopriegelkörpers, so dass auf die Führung nur sehr geringe Biegemomente wirken. Ein zweites, nicht näher dargestelltes Führungselement 26 befindet sich in diametraler Anordnung zu dem dargestellten Führungselement 26, wie aus der
Unterhalb des Teleskopriegelkörpers 5 sind in der dargestellten Schnittebene zwei Mittel zur Positionserfassung 27 zu erkennen, die als Sensoren ausgebildet sind. Die Sensoren reagieren auf Markierungen an dem Zahnkranz 6.Below the
Aus
In Längsrichtung versetzt zu der Schnittebene A - A befindet sich der Zahnkranz 6. Darüber hinaus ist in dieser Schnittdarstellung zu erkennen, das die Ritzel 14, 15 eine entsprechend große Längserstreckung besitzen, da sie sich naturgemäß vom Zahnkranz 6 bis in den Bereich der Zylinderriegel 3, 4 erstrecken müssen. Es ist aufgrund des relativ großen Durchmessers der Zylinderriegel 3, 4 nicht notwendig, dass sich die Ritzel 14, 15 über die gesamte Breite der Zylinderriegel 3, 4 erstrecken. Dementsprechend sind die Ritzel 14, 15 auch nur mit etwas mehr als der Hälfte der Verzahnungsbreite der entsprechenden Zahnstangenabschnitte 16, 17 der Zylinderriegel 3, 4 im Einsatz.In the longitudinal direction offset to the sectional plane A - A is the
Aus der Anordnung der einzelnen Führungselemente 26 ist zu erkennen, dass die Schraubendruckfedern 25 in dier Bildebene exakt unterhalb / innerhalb der Führungselemente 26 liegen, Zwischen den beiden Führungselementen 26 und Schraubendruckfedern 26 einer Seite befindet sich exakt mittig der jeweilige Entriegelungskolben 23 und unter ihm, auf der anderen Seite des Kragens 24, der Sicherungsbolzen 22.It can be seen from the arrangement of the
- 1 -1 -
- Verriegelungskopflocking head
- 2 -2 -
- Gehäusecasing
- 3 -3 -
- Zylinderriegelcylinder bolt
- 4 -4 -
- Zylinderriegelcylinder bolt
- 5 -5 -
- TeleskopriegelkörperTelescopic locking body
- 6 -6 -
- Zahnkranzsprocket
- 7 -7 -
- Zylinderaufnahmecylinder intake
- 8 -8th -
- AntriebsverzahnungsabschnittDrive gear portion
- 9 -9 -
- ZahnstangenabschnittRack section
- 10 -10 -
- Antriebsbolzendrive pin
- 11 -11 -
- RückstellfederReturn spring
- 12 -12 -
- Verzahnungsabschnitttoothed section
- 13 -13 -
- Verzahnungsabschnitttoothed section
- 14 -14 -
- Ritzelpinion
- 15 -15 -
- Ritzelpinion
- 16 -16 -
- ZahnstangenabschnittRack section
- 17 -17 -
- ZahnstangenabschnittRack section
- 18 -18 -
- SperrverzahnungsabschnittRatchet portion
- 19 -19 -
- Sperrritzellock gear
- 20 -20 -
- Sperrriegelsafety catch
- 21 -21 -
- ZahnstangenabschnittRack section
- 22 -22 -
- Sicherungsbolzensafety bolt
- 23 -23 -
- Entriegelungskolbenunlocking
- 24 -24 -
- Kragencollar
- 25 -25 -
- SchraubendruckfederHelical compression spring
- 26 -26 -
- Führungselementguide element
- 27 -27 -
- Mittel zur PositionserfassungMeans for position detection
- ZV -ZV -
- Zylinderverriegelungcylinder lock
- TV -TV -
- TeleskopierverriegelungTelescoping locking
- A - A -A - A -
- Schnittebenecutting plane
Claims (10)
- Locking head for a telescoping cylinder of a crane jib comprising several telescopic sections, with a housing (2) and with cylinder bars (3, 4) translationally mobile in the housing (2) to lock the locking head (1) with a telescopic section, wherein the cylinder bars (3, 4) each comprise a toothed rod section (16, 17) in toothed engagement with a pinion (13, 15), characterized in that the pinions (14, 15) are in common toothed engagement with toothing segments (12, 13) of a crown gear (6), wherein the crown gear (6) surrounds a cylinder holder (7) to hold the telescoping cylinder.
- Locking head according to claim 1, characterised in that the crown gear (6) has a drive toothing segment (8) which is in engagement with a toothed rod segment (9) of a translationally displaceable drive bolt (10).
- Locking head according to claim 1 or 2, characterised in that the crown gear (6) comprises a further blocking toothing segment (18) which is in engagement with a blocking pinion (19) which in turn is in engagement with a toothed rod segment (21) of a translationally displaceable blocking bar (20).
- Locking head according to claim 3, characterised in that the blocking bar (20) is displaceable in the stroke travel of a telescopic bar body (5) displaceable transverse to the action direction of the cylinder bars (3, 4), which body serves to activate the unlocking of successive telescopic sections, in order to prevent displacement of the telescopic bar body (5).
- Locking head according to any of claims 1 to 4, characterised in that the telescopic bar body (5) has a securing bolt (22) which is displaceable in the stroke travel of the blocking bar (20) or a cylinder bar (3, 4).
- Locking head according to any of claims 1 to 5, characterised in that the telescopic bar body (5) is guided in the housing (2) via several guide elements (26) arranged on the peripheral side of the telescopic bar body (5).
- Locking head according to claim 6, characterised in that the guide elements (26) serve as outer guides for coil compression springs (25) via which the telescopic bar body (5) is supported on the housing (2).
- Locking head according to any of claims 1 to 7, characterised in that the crown gear (6) is arranged offset to the cylinder bars (3, 4) in the longitudinal direction of the telescoping cylinder.
- Locking head according to any of claims 1 to 8, characterised in that the crown gear (6) is provided with toothing segments (8, 12, 13, 18) only in part regions.
- Locking head according to any of claims 1 to 9, characterised in that means are provided for position detection (27) of the cylinder bars (3, 4), wherein the means for position detection (27) are allocated to the crown gear (6).
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
DE201010022867 DE102010022867B4 (en) | 2010-06-07 | 2010-06-07 | locking head |
Publications (2)
Publication Number | Publication Date |
---|---|
EP2392537A1 EP2392537A1 (en) | 2011-12-07 |
EP2392537B1 true EP2392537B1 (en) | 2012-12-19 |
Family
ID=44510659
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP20110153791 Not-in-force EP2392537B1 (en) | 2010-06-07 | 2011-02-09 | Locking head |
Country Status (3)
Country | Link |
---|---|
EP (1) | EP2392537B1 (en) |
DE (1) | DE102010022867B4 (en) |
ES (1) | ES2401492T3 (en) |
Families Citing this family (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE102011009408B3 (en) * | 2011-01-25 | 2012-05-03 | Montanhydraulik Gmbh | locking head |
DE102012002122B4 (en) | 2012-02-03 | 2019-10-10 | Liebherr-Werk Ehingen Gmbh | Locking device for a telescopic boom |
EP2835336B1 (en) * | 2013-08-09 | 2018-02-28 | Manitowoc Crane Group France SAS | Mechanical locking head |
WO2017189439A1 (en) * | 2016-04-25 | 2017-11-02 | Manitowoc Crane Companies, Llc | Crane with rotary locking mechanism |
Family Cites Families (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP0754646B1 (en) | 1995-07-17 | 2000-05-10 | Montanhydraulik GmbH | Telescoping system |
DE202005003906U1 (en) | 2005-03-09 | 2005-05-25 | Montanhydraulik Gmbh | Operating device for lock of telescopic crane their has housing with two displaceable operating elements having rack sector engaged with pinion shaft |
DE102007006873B3 (en) * | 2007-02-07 | 2008-01-03 | Montanhydraulik Gmbh | Locking head for sections of telescopic crane boom has pinion gear operated by controls connected to racks and cooperating with locking cylinders operated by piston pin, gear having flat section which holds pin in locked position |
DE102009008557B4 (en) * | 2009-02-12 | 2010-10-21 | Montanhydraulik Gmbh | locking head |
-
2010
- 2010-06-07 DE DE201010022867 patent/DE102010022867B4/en not_active Expired - Fee Related
-
2011
- 2011-02-09 ES ES11153791T patent/ES2401492T3/en active Active
- 2011-02-09 EP EP20110153791 patent/EP2392537B1/en not_active Not-in-force
Also Published As
Publication number | Publication date |
---|---|
EP2392537A1 (en) | 2011-12-07 |
ES2401492T3 (en) | 2013-04-22 |
DE102010022867B4 (en) | 2012-03-29 |
DE102010022867A1 (en) | 2011-12-08 |
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