EP1055635B1 - Crane with a telescopic boom - Google Patents

Abstract

The jib consists of telescopic elements (1,2), moved by a sliding device with sliding element (8). The element supports a coupling element (7) with a coupling part, which is moveable in radial direction. The part is locked positive with a locking bol (24) of a locking element (6). In unlocked position, locking bolt and coupling part form a coupling between the sliding element a telescopic jib element concerned. In the transitional phase between locking and unlocking, front parts of sliding element and locking bolt engage positively.

Description

The invention relates to a crane with a telescopic boom according to the preamble of claim 1.

A crane with a telescopic boom is known from DE 198 24 672 A1. This consists of a basic box and arranged therein, individual telescopic shots, which after loosening of arresting Bolt connections by coupling with only one single-stage hydraulic piston-cylinder unit retractable and retractable and in the extended or retracted position are lockable, wherein the cylinder housing of the piston-cylinder unit with his rear end is attached to the inner end of the basic boom and the Piston rod at the front end with a parallel to the piston-cylinder unit lying guiding and pulling device is connected, at the inner end of a Coupling and locking unit is attached, which with recordings of telescopic shots can be coupled and locked. The coupling and Locking unit has two mechanically via a grooves exhibiting Slider actuatable coupling pins on which in a horizontal plane lying right and left in arranged at the inner end of each shot Recordings can be moved in and out. The actuation of the sliding piece takes place via an axially connected to the coupling and locking unit Piston-cylinder unit, wherein the means for retracting the spring-loaded Locking bolt can only be operated when the clutch and Locking unit with the recordings of the out-of-pocket or telescoping Schusses is coupled and releasing the coupling pin with the respective shot can only take place when the respective spring-loaded locking bolt is set.

In a known from EP 0 661 234 A1 crane with telescopic boom are the single telescopic shots after releasing arresting Bolt connections with only one single-stage piston-cylinder unit off and retractable and in each off or retracted positions by in the direction of her locked positions bolted spring-loaded locking bolts. The Piston rod of the single-stage piston-cylinder unit is at the inner end of the articulated outer shot complete boom linkage. A Carrier device which can be coupled with recordings of austeleskopierbaren shots is located in the region of the end of the cylinder from which the piston rod exit. The entrainment device consists of a hydraulic block with each other opposite cylinders for the one and the piston formed by the piston extendable the respective shot arresting bolt and a perpendicular thereto arranged hydraulic piston-cylinder unit for actuating the respective Locking bolt. The hydraulic elements of the driver stand so operatively connected that the radially located piston-cylinder unit for retraction of the respective locking bolt can only be operated when the Carrier device with the off or einzuteleskopierenden shot over the locking pin is coupled.

In a telescopic boom known from DE 196 41 191 A1, in particular for stationary and mobile cranes are the shots to be telescoped, by means of two Endless ropes, each with one extension and retraction side in conjunction with a cable drive and pulleys extendable and retractable. In the extended and retracted position are the Shots by means of a locking device associated with each shot against Relative axial movement detected. The rope drive and two pulleys are on Base of the base box and a third pulley is on the rope drive opposite end of a cantilevered within the shots and am Base box rigidly mounted guide tube arranged. The benchmarks of Rope ends are located on a holding device with a gripping device provided slidably mounted on the guide tube.

The object of the invention is to provide a crane with a telescopic boom so to further develop that by simplifying the coupling and Locking unit space and weight can be saved.

This object is based on the preamble in connection with the characterizing features of claim 1. advantageous Further developments are the subject of dependent claims.

According to the solution is on the movable element of the shots on and telescoping displacement device at least one perpendicular to the axis of the Slider lying and movable in the radial direction Coupling provided, the coupling part with a coaxial movable locking bolt of a locking element form-fitting is detachable. The special feature of this arrangement is that in unlocked position the locking bolt in combination with the coupling part between the coupling Displacement device and the respective in and out bagschuß shot represents. In the transition phase between unlocking and locking comes each a projecting portion of the coupling part and the locking bolt form fit to the plant and thus forms the safeguard against falling in of the Telescopic. So far, the two functions were clutch and lock divided into two separately operable elements, wherein in the transition phase Both functions had to be linked together to ensure that the each shot is securely bolted in each phase of operation, be it about the Clutch pin, whether over the locking pin or the.

The advantage of the proposed arrangement is the fact that fewer parts needed so that weight is saved without the required Safety concept to affect the secure bolting of the shots. Also at the new arrangement ensures that the respective shot either locks or coupled. Another advantage is the space savings, as in the usual Separately arranged elements more space was needed, resulting in the smallest Telescoping shot can cause problems.

The displacement device for moving the shots can be a rope drive, a one or Multi-stage piston-cylinder unit or several piston-cylinder units to be operated in parallel be.

When using a piston-cylinder unit to move the shots can either the piston rod or the cylinder housing firmly with the Be connected boom connecting piece of the ground box.

Preferably, the positive connection of the coupling part takes place with the Locking bolt on a mushroom-shaped at the inner end of the locking bolt arranged coupling piece, which is arranged in a coupling part in the recess intervenes. For very small and light telescopic jibs it is sufficient, only one Provide locking element, which in each auszuteleskopierenden shot is arranged centrally above or below the center. The accompanying recording of the to telescoping shot comprehensive shot is located in the top wall or in the lower wall. For larger arms you will for reasons of on the Shifting moment attacking an arrangement with two each other Provide opposite locking elements. The axis of these two Locking elements or their cooperating coupling elements cut the Center axis of the displacement device at right angles. Preferably, the two locking elements in the two opposite Sidewall areas arranged. But it is also conceivable an arrangement in which the two locking elements are arranged in the top and bottom wall.

Figur 1

im Querschnitt die rechte Teilhälfte eines Teleskopauslegers,

Figur 2

eine Ansicht in Richtung X₁ in Figur 1,

Figur 3

eine Ansicht in Richtung X₂ in Figur 2,

Figur 4

eine Ansicht in Richtung X₃ in Figur 2,

Figur 5

eine Ansicht in Richtung X₄ in Figur 2,

Figur 6

eine Ansicht in Richtung X₅ in Figur 2,

Figur 7a, b

im Quer- und Längsschnitt eine erste Phase des Kupplungs- und Entriegelungsvorganges,

Figur 8a - c

im Quer- und Längsschnitt eine zweite Phase und

Figur 9a - c

im Quer- und Längsschnitt die letzte Phase.

Further features, advantages and details of the invention will become apparent from the following description of exemplary embodiments illustrated in a drawing. Show it:

FIG. 1

in cross-section the right half of a telescopic boom,

FIG. 2

a view in the direction X ₁ in Figure 1,

FIG. 3

a view in the direction X ₂ in Figure 2,

FIG. 4

a view in the direction X ₃ in Figure 2,

FIG. 5

a view in the direction X ₄ in Figure 2,

FIG. 6

a view in the direction X ₅ in Figure 2,

FIG. 7a, b

in transverse and longitudinal section, a first phase of the coupling and unlocking process,

FIG. 8a-c

in transverse and longitudinal section a second phase and

FIG. 9a-c

in transverse and longitudinal section the last phase.

Figure 1 shows in cross section and Figure 2 in a view the right half of a part Telescopic boom in the area of the rear storage. Shown here are only two Telescope shots 1, 2 to illustrate the principle. Applicable is the novel Coupling and locking system also for telescopic boom with more than two telescopic telescopic shots. To guide the telescopic sections 1, 2 are in the Eckrundungen sliding elements 3, 4 preferably made of polyamide attached. In one Frame 5 is in a side wall 5.1 and in the associated telescopic section. 2 a locking element 6 is arranged. A locking pin 24 of the Locking element 6 is displaceable with an axially Coupling part 15 of a coupling element 7 can be coupled. The details are explained in the following figures. The coupling element 7 is at a displaceable element 8 of a displacement device, not shown attached. The actuation of the coupling part 15 by means of a transverse to Longitudinal axis arranged hydraulic piston-cylinder unit 9. The Longitudinal movement of the displaceable element 8 of the displacement device is in Figure 2 identified by a double arrow 10. This means the top going arrow the direction for the telescope and the down arrow the direction for the telescoping. The mechanical connection of the hydraulic Piston-cylinder unit 9 with the coupling part 15 takes place via a lever 11, which with its upper end to the hydraulic piston-cylinder unit 9 and with his lower end is hinged to a fixed rod 12 and a bolt 13 with the coupling part 15 is connected. The state shown in Figures 1 and 2 shows the Locking position between the telescopic section 2 with him comprehensive Telescopic shot 1 and the possibility by means of the displaceable element 8 of Displacement device the associated coupling element 7 according to the Double Arrow 10 to position.

Figures 3 - 6 show views of both the coupling element 7 and the Locking element 6. Thereafter, the coupling element 7 has a sleeve 14, which is firmly connected to the displaceable element 8 of the displacement device. In the sleeve 14, a coupling part 15 is arranged, which by means of the bolt 13 and the Lever 11 is axially movable. For the movement of the lever 11 are in the sleeve 14th axially extending recesses 16, 17 milled (see Fig. 1).

In the view X ₃ (FIG. 4), it can be seen that the coupling part 15 has a crescent-shaped recess 18. Furthermore, the coupling part 15 has a transverse recess 19, which makes it possible to connect the coupling part 15 with the locking pin 24 in a form-fitting manner. The manner in which this is done is explained in more detail in FIGS. 7-9.

The locking element 6 is corresponding to the illustrations in Figure 2 and Figure 5 and 6 composed of the following elements. In the side wall 5.1 of the frame 5 and in the side wall of the telescopic section 2, a sleeve 20 is attached, which is the has the same outer and inner diameter as the sleeve 14 for the Coupling element 7. In the sleeve 20 is inserted a sliding bush 21 for Facilitation of the axial sliding of the locking bolt 24. In the bottom area of the Slide bush 21 is a transverse web 29 is arranged, for example, via welding in the sleeve 20 is attached. This crosspiece 29 forms with the sleeve 20 two each other opposite crescent-shaped openings, through which the also sickle-shaped formed webs 22, 23 of the locking bolt 24 are movable (Figure 5). In a central recess 30 of the locking bolt 24 is a spring 25th arranged on the one hand on the front side of the recess of the Locking bolt 24 and on the other hand supported on the transverse web 29. By the Locking pin 24 and through the transverse web 29 extends in the axial center position a screw 26, on the end of the thread a mushroom-shaped Coupling piece 27 is screwed. The sliding bush is secured axially by a Ring with several circumferentially arranged fastening screws 28 (Fig.2).

In Figures 7a, b to 9a - c are the essential phases for unlocking with the proposed device shown. To clarify that the proposed device also for more than two shots to be telescoped is applicable, in Figures 7a, 8a and 9a, another unspecified Telescopic shot shown. This includes the two marked 1 and 2 Telescoping sections. In contrast to FIG. 1, in FIG. 7a the left half of the part is a Telescopic boom reproduced. FIG. 7b shows the longitudinal section of FIG. 7a. Comparable as in Figures 1 and 2, Figures 7a, 7b show a state in which the Telescopic section 2 is locked with the telescopic section 1 comprising it. It was assumed that a further telescopic telescope shot was ejected and the displaceable element 8 of the displacement device on the way back to next to be taken telescopic section 2. This return movement is shown in FIG. 7b indicated by an arrow. The shifting device happens along with it the two opposing coupling elements 7, 7.1, the two opposite locking elements 6, 6.1 of the telescopic section. 2 The necessary sensors for detecting the correct position position are not here shown. The locking bolt 24.1 is in by the force of the spring 25.1 Locking position held. This means that the head of the Locking pin 24.1 in the in the side wall of the enclosing shot. 1 mounted recess 31.1 engages. To absorb the weight forces is the Recess 31.1 reinforced with a ring-like insert 32.1. Since the in Figure 7b drawn arrow pointing in the direction Einteleskopieren, it is imperative that by the weight of the telescopic section 2 of the head portion of Locking bolt 24 on the rear edge portion of the annular insert 32.1 comes to the plant.

FIGS. 8a-8c show a further phase of the unlocking process. As shown in the sub-picture 8b is by means of the displaceable element 8 of the displacement device, the coupling element 7.1 has been moved so far until the coupling part 15.1 by means of the piston-cylinder unit 9 and the lever 11.1 can be moved to the left. This shift is required for the transverse recess 19.1 in the coupling part 15.1 in height of the coupling piece 27.1 of the locking element 6.1 is located. By moving the coupling element 7.1 towards Austeleskopieren comes the coupling piece 27.1 in a form-fitting manner Engagement with the recess 19.1 (part 8c). By further process in the direction Austeleskopieren comes from the lying end face of the recess 19.1 supporting portion of the coupling part 15.1 on the inside of the web 23.1 of Locking bolt 24.1 to the plant. About this stop can from displaceable element 8 of the displacement device forth force on the Locking element 6.1 are exercised. This allows the head area of the Locking bolt 24.1 from the edge region of the ring-like insert 32.1 move away, as part 8c shows. Only in this position can the Locking bolt 24.1 are pulled.

FIGS. 9a-9c show the last phase of the unlocking process. After engaging the coupling piece 27.1 of the locking pin 24.1 in the Recess 19.1 of the coupling part 15.1 is the hydraulic piston-cylinder unit 9 activated and against the force of the spring 25.1 the coupling part 15.1 moved by the lever 11.1 to the right. Due to the positive connection simultaneously moves the locking pin 24.1 from the recess 31.1 of bordering telescopic shot 1 out and thus are the two telescopic shots 1, 2 unlocked, wherein in the right half of the part, not shown here Locking bolt 24 in the same manner by means of the coupling part 15th has been drawn. In the movement of the locking bolt 24.1 to the right the web 23.1 in the designated recess 18.1 of the coupling part 15.1 pushed (see Figure 4). The second opposing web 22.1 is has also been moved to the right over the sleeve 20 during this movement. In the last panel 9c is shown as after the clutch and Unlocking operation of the telescopic section 2 by means of the displaceable element. 8 the displacement device has been moved axially in the direction of telescoping. This movement towards telescoping is indicated by an arrow in sub-picture 9c indicated. The decoupling or locking of the individual telescopic shots takes place in the reverse order as previously described.

LIST OF REFERENCE NUMBERS

1

telescoping

2

telescoping

3

Slide

4

Slide

5

frame

5.1

Sidewall frame

6

locking element

7

coupling member

8th

sliding element

9

Piston-cylinder unit

10

double arrow

11

lever

12

linkage

13

bolt

14

Sleeve coupling element

15

coupling part

16.17

Recesses sleeve

18

Recess coupling part

19

T-shaped recess coupling part

20

Sleeve locking element

21

bush

22.23

web-like extensions of the locking bolt

24

locking bolt

25

feather

26

screw

27

coupling

28

fixing screw

29

crosspiece

30

central recess of the locking bolt

31

admission

32

Ring-like use

Claims (17)

1. A crane having a telescopic boom, whose extendable sections may be extended and retracted by coupling to a displacement device after disengagement of locking bolt connections and may be locked in the respective extended or retracted position, a coupling and locking unit, which may be coupled to the extendable sections via a coupling element, being provided on the displaceable element of the displacement device and at least one locking element being arranged on each extendable section at the rear end thereof on the inside, which locking element may be connected to the coupling and locking unit and may be pushed into and out of a receptacle in the section encompassing the telescoping section,
   characterised in that,
   on the displaceable element (8) of the displacement device retracting and extending the telescopic sections (1, 2), there is provided at least one coupling element (7, 7.1) lying perpendicular to the axis of the displacement device and having a coupling part (15, 15.1) movable in the radial direction, which coupling part (15, 15.1) may be coupled in form-fitting manner to a coaxially movable locking bolt (24, 24.1) of a locking element (6, 6.1), wherein in the unlocked position the locking bolt (24, 24.1), in conjunction with the coupling part (15, 15.1), constitutes the coupling between the displacement device (8) and the respective telescopic section (2) to be retracted and extended, wherein in each case a projecting area of the coupling part (15, 15.1) and of the locking bolt (24, 24.1) rest form-fittingly against one another in the transition phase between unlocking and locking.
2. A crane according to claim 1,
   characterised in that
   the displacement device is a rope drive.
3. A crane according to claim 1,
   characterised in that
   the displacement device is a hydraulic piston/cylinder unit.
4. A crane according to claims 1 and 3,
   characterised in that
   the piston rod is the stationary element of the piston/cylinder unit and the coupling element (7, 7.1) is arranged in the end area of the cylinder from which the piston rod exits.
5. A crane according to claims 1 and 3,
   characterised in that
   the cylinder is the stationary element of the piston/cylinder unit and a crossbar is attached to the front end of the piston rod, on which crossbar there is arranged at least one guide element lying at a distance from and parallel to the cylinder housing, the rear end area of which guide element is connected to the coupling element (7, 7.1).
6. A crane according to claims 1 - 5,
   characterised in that
   the locking bolt (24, 24.1) is spring-loaded (25, 25.1) and comprises a coupling piece (27, 27.1) at its inner end.
7. A crane according to any one of claims 1 - 6,
   characterised in that
   the coupling element (7, 7.1) comprises a sleeve (14, 14.1), which is attached to the displaceable element (8) of the displacement device and in which a coupling part (15, 15.1) is displaceably arranged, which is connected on the one hand to an actuating element arranged on the displacement device and which comprises, in the area facing the locking element (6, 6.1), a recess (19, 19.1) for receiving the coupling piece (27, 27.1) and a further recess (18, 18.1) for receiving a portion (23, 23.1) of the locking bolt (24, 24.1).
8. A crane according to any one of claims 1 - 7,
   characterised in that
   the locking element (6, 6.1) comprises a sleeve (20, 20.1) fitted in a recess in the telescopic sections (2) to be telescoped, in which sleeve (20, 20.1) there is displaceably arranged the locking bolt (24, 24.1), which is provided with the coupling piece (27, 27.1) on the side facing the coupling element (7, 7.1).
9. A crane according to claims 6 - 8,
   characterised in that
   the coupling piece (27, 27.1) comprises a shank and a mushroom-like end piece attached thereto, which end piece may be pushed into and out of a T-shaped recess (19, 19.1) in the coupling part (15, 15.1).
10. A crane according to claims 8 and 9,
    characterised in that
    a slide bush (21, 21.1) is fitted in the sleeve (20, 20.1) and a cross-web (29, 29.1) connected to the sleeve (20, 20.1) is arranged in the base area of the slide bush (21, 21.1), which cross-web forms crescent-shaped openings with the sleeve (20, 20.1), through which openings web-like extensions (22, 22.1, 23, 23.1) of the locking bolt (24, 24.1) may pass, wherein one web-like extension (23, 23.1) may be pushed into and out of the corresponding recess (18, 18.1) in the coupling part (15, 15.1).
11. A crane according to claim 10,
    characterised in that
    the locking bolt (24, 24.1) comprises a centrally located recess (30, 30.1), in which a spring (25, 25.1) may be arranged, which rests with its other end on the cross-web (29, 29.1).
12. A crane according to claim 11,
    characterised in that
    a screw (26, 26.1) passing through the locking bolt (24, 24.1) and the cross-web (29, 29.1) is arranged in the central axis of the locking bolt (24, 24.1), on the threaded end of which screw (26, 26.1) there may be screwed the coupling piece (27, 27.1).
13. A crane according to any one of claims 1 - 12,
    characterised in that
    the coupling part (15, 15.1) may be actuated by a means arranged in the end area of the displaceable element (8) of the displacement device.
14. A crane according to claim 13,
    characterised in that
    the means is a hydraulic piston/cylinder unit (9), which is arranged perpendicularly to the longitudinal axis of the displacement device.
15. A crane according to any one of claims 1 - 14,
    characterised in that
    only one locking element (6) is arranged centrally at the top or centrally at the bottom in the respective telescopic section (1, 2) to be extended and the associated receptacle (31) of the respective encompassing telescopic section is located in the top wall or in the bottom wall.
16. A crane according to any one of claims 1 - 14,
    characterised in that
    two mutually opposing coupling elements (7, 7.1) are attached at the end area of the displaceable element (8) of the displacement device, the axes of which intersect with the central axis of the displacement device at a right angle and which may be coupled to two likewise mutually opposing locking elements (6, 6.1) by means of coupling part (15, 15.1) and locking bolt (24, 24.1).
17. A crane according to claim 16,
    characterised in that
    the two locking elements (6, 6.1) are arranged in the two mutually opposing side wall areas of the telescopic section (2) in each case to be extended and the associated receptacle (31, 31') of the respective encompassing telescopic section (1) is likewise located in the side wall area.

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