The invention relates to a piston-rod unit for a hydraulic cylinder, comprising at least one piston-side end piece and at least one rod-eye-side end piece, a hollow piston rod which is arranged between the end pieces, wherein a cavity is formed in the piston rod extending at least into at least one of the end pieces, and to a hydraulic cylinder having such a piston-rod unit, and to an articulated boom of a large manipulator having such a hydraulic cylinder.
Such a piston-rod unit is known from DE 10 2013 008 351 B3 or EP 1 346 157 B1. To reduce the weight of the hydraulic cylinders, the piston rods are nowadays usually bored hollow, especially in hydraulic cylinders on placing booms of truck-mounted concrete pumps. The remaining wall thickness of the hollow piston rods is designed in such a way that the required tensile and compressive forces can be transmitted by the piston rod. In particular, the connection area between the hollow piston rod and the rod-eye-side end piece with the pin receptacle for connecting the piston rod to a boom segment of the articulated boom is a critical area here, as the rod-eye-sided end deforms under the very high tensile and compressive forces to be transmitted and this deformation is also transmitted to the connection area with the hollow piston rod. This initially leads to elastic deformation of the hollow piston rod in the connection area, this deformation being reflected in particular in a change in the cross section of the hollow piston rod. In the event of continuous overstressing, it cannot be excluded that overload phenomena such as cracks will occur in the transition area between the hollow piston rod and the end piece and that the entire piston rod needs to be replaced.
Increasing the wall thickness in the connection area to prevent over excertion of the hollow connection area would be the closest solution, but this would increase the weight of the piston-rod unit, although this increased wall thickness would not be necessary for the actual transmission of the tensile and compressive forces. In addition to the weight requirements, the possibilities for reinforcing the connection area are also limited due to the available installation space.
It is therefore the task of the invention to specify an improved piston-rod unit which allows the hollow piston rod to be reinforced without significantly increasing the weight of the entire unit. In particular, load-induced elastic deformations of the piston rod and the end pieces are to be reduced. In particular, a lightweight hydraulic cylinder and an articulated boom with reduced weight are to be specified.
This task is solved by a piston-rod unit with the features of claim 1 as well as a hydraulic cylinder according to claim 13 and an articulated boom according to claim 14.
By inserting a plug into the cavity to support the piston rod and/or the end piece on the cavity side, it is possible to easily reinforce the hollow piston rod without significantly increasing the weight of the entire piston-rod unit. Thus, to reinforce the hollow piston rod, a plug is simply inserted into the cavity formed in the piston rod. Also the end piece into which the cavity formed in the piston rod extends, can also be supported on the cavity side by inserting the plug and thus be reinforced. This reinforcement has the effect of minimizing or virtually eliminating the elastic deformation of the hollow piston rod that occurs, for example, in the connection area between the end piece and the piston rod, and fatigue damages can thus be prevented. With the plug, a punctual reinforcement of the piston-rod unit can be achieved in a simple manner in that the piston rod and/or the end piece are supported on the cavity side by the plug inserted into the cavity.
Advantageous embodiments and further developments of the invention result from the dependent claims. It should be noted that the features listed individually in the claims can also be combined with one another in any desired and technologically useful manner and thus reveal further embodiments of the invention.
According to an advantageous embodiment of the invention, it is provided that the plug supports the piston rod in a connection area with the end piece through which the cavity extends. By supporting the connection area with the plug inserted in the cavity, a punctual reinforcement of the connection area can be achieved, in which elastic deformations are particularly critical, since they lead to cracks more quickly here. The support on the plug stabilizes the connection area between the hollow piston rod and the end piece against elastic deformation.
Particularly preferred is an embodiment that provides that the wall thickness of the piston rod in the connection area supported by the plug is the same as in the other areas of the piston rod penetrated by the cavity. With the same wall thickness of the piston rod both in the connection area supported by the plug and in the other areas of the piston rod penetrated by the cavity, the weight of the piston-rod unit can be effectively reduced, with the selective reinforcement in the connection area supported by the plug being sufficient to reduce elastic deformations of the piston-rod unit to such an extent that these do not lead to fatigue damages.
A particularly advantageous embodiment of the invention relates to the fact that the plug is constructed in two parts, a first part of the plug being arranged in the connection area between the piston rod and the end piece and a second part of the plug being arranged in the end piece. By dividing the plug into at least two plug parts, individual areas of the piston-rod unit can be selectively supported on the cavity side. The first part of the plug is preferably used to support the connection area between the piston rod and the end piece, so that elastic deformations caused by load are prevented here. The second part of the plug, on the other hand, can be arranged in the end piece and here effectively prevent elastic deformations of the end piece by supporting it on the cavity side by the plug part.
A particularly advantageous embodiment of the invention provides that a welded joint is formed in the connection area between the piston rod and the end piece, the plug covering the area of the welded joint on the cavity side as viewed in the axial direction of the piston rod. By covering the area of the welded joint in the axial direction of the piston rod, elastic deformation of the welded joint between the piston rod and the end piece in the connection area can be effectively prevented by the support of the plug on the cavity side, so that no fatigue damages occur to the weld seam formed here.
An advantageous embodiment of the invention provides that the rod-eye-side end piece has two laterally projecting pipe sockets, the plug being arranged between the pipe sockets in the cavity formed herein. With the plug arranged between the two laterally projecting pipe sockets of the rod-eye-side end piece, an effective reinforcement can be achieved which reduces deformation of the rod-eye-side end piece. With a reduction of the deformation in the laterally projecting tube sockets of the rod-eye-side end piece, the further deformations of the hollow piston rod are also minimized, since fewer deformations are transmitted from the end piece to the connected piston rod.
A particularly advantageous embodiment is one in which the plug has a through bore through which a hinge pin is guided at the rod-eye-side end piece. By passing the hinge pin through the plug, effective guidance of the hinge pin can be achieved at the rod-eye-side end piece, whereby on the one hand the deformations of the pin are minimized and on the other hand the plug is simply fixed in the rod-eye-side end piece.
An advantageous embodiment provides for the plug to be made of the same material as the piston rod, preferably steel. Since the hollow piston rod is only punctual reinforced by the plug, the use of a corresponding plug still results in a considerable weight advantage over a solid piston rod made of the same material. Preferably, the plug is made of steel, as this material has a high compressive strength.
According to a preferred embodiment of the invention, the plug is at least partially made of light metal, preferably aluminum. With the reinforcement of the piston-rod unit by a plug made of a light metal, a punctual support is possible without significantly increasing the weight of the piston-rod unit. Preferably, the plug is made of aluminum, as this material has a high compressive strength and a low specific weight. The specific weight of aluminum is about one third of the specific weight of steel, so that a very effective increase in rigidity is possible in highly stressed areas of the piston-rod unit, although the overall weight of the piston-rod unit is increased only insignificantly by the plug. The plug can also be made of another stiff material that has sufficient compressive strength.
A particularly advantageous embodiment is one that provides for at least one annular sealing element to effect a seal between the plug and an inner wall of the cavity. To prevent dirt from entering the rod-eye-side spherical plain bearing from the outside and to prevent grease from lubricating the spherical plain bearing pin from entering the hollow piston rod, annular sealing elements are provided between the plug and an inner wall of the cavity for sealing. The annular sealing elements can be received in grooves which are preferably turned into the plug. The sealing elements are preferably designed as O-rings.
An advantageous embodiment provides that the plug is screwed to the end piece comprising the cavity via a head-side screw connection. The plug can be easily fixed in the cavity in the end piece via the head-side screw connection. The head-side screw connection preferably comprises a retaining plate which is screwed to the plug on the head side and is fastened to the end piece via screw connections.
A particularly advantageous embodiment of the invention provides that the plug is supported on a shoulder formed in the cavity. By supporting the plug on a shoulder formed in the cavity, a simple fixing of the plug in the cavity can be achieved. The plug can be easily supported on the shoulder, thus providing cavity-side support for the piston rod and end piece at a fixed position in the cavity.
Furthermore, it is an object of the invention to provide a hydraulic cylinder with a piston-rod unit as described above and in more detail below. A hydraulic cylinder equipped with such a piston-rod unit has, in addition to a lower weight, a high load capacity, since the piston-rod unit, which is punctually reinforced with the plug, can absorb greater forces without its weight being significantly increased by the plug.
Furthermore, it is an object of the invention to provide an articulated boom of a large manipulator, in particular of a truck-mounted concrete pump, with a plurality of boom segments, wherein the boom segments are each pivotable at articulated joints about articulation axes relative to an adjacent boom segment or a turntable, wherein at least one hydraulic cylinder, described in more detail as before and below, effects a pivoting movement in at least one articulated joint.
The demands on the boom length, i.e. on the reach of the articulated booms of large manipulators such as truck-mounted concrete pumps, are constantly growing. To keep the dead weight of the articulated booms as low as possible overall, particularly lightweight hydraulic cylinders are advantageous. The use of lightweight hydraulic cylinders saves own weight on the articulated booms, so that higher operating distances are possible.
Further features, details and advantages of the invention will be apparent from the following description and from the drawings, which show examples of embodiments of the invention. Corresponding objects or elements are provided with the same reference signs in all figures. Showing:
In
In addition, depending on the expected load, the piston-rod unit 1 can be manufactured with or without the plug 7, or the plug 7 can be easily installed later.
In addition to the shown support of the rod-eye-side end piece 4 and the connection area 8 between the rod-eye-side end piece 4 and the hollow-designed piston rod 5, the plug 7, 7a, 7b can also be used to support the piston-side end piece 3 and the connection area between the piston-side end piece 3 and the hollow-designed piston rod 5.
1 Piston-rod unit
2 Hydraulic cylinder
3 piston-side end piece
4 Rod-eye-side end piece
5 Piston rod
6 cavity
7 Plug, 7a, 7b plug parts
8 Connection area
9 First pipe socket
10 Second pipe socket
11 Through bore
12 Hinge pin
13 Sealing element
14 Interior wall
15 Head-side screw connection
16 Shoulder
17 Articulated boom
18 Large manipulator
19 Boom segment
20 Articulated joint
21 turntable
22 vertical axis
23 chassis
24 feed hopper
25 conveying line
26 cylinder body
27 piston
28 welded joint
d wall thickness
Number | Date | Country | Kind |
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10 2019 108 451.2 | Apr 2019 | DE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2020/059134 | 3/31/2020 | WO | 00 |