EP3592922A1

EP3592922A1 - Boom system having a retracted position which reduces installation space

Info

Publication number: EP3592922A1
Application number: EP18711254.5A
Authority: EP
Inventors: Jens HÄFNER; Peter MÖGLE; Ansgar MÜLLER; Knut Kasten
Original assignee: Putzmeister Engineering GmbH
Current assignee: Putzmeister Engineering GmbH
Priority date: 2017-03-07
Filing date: 2018-03-06
Publication date: 2020-01-15
Anticipated expiration: 2038-03-06
Also published as: KR20190122732A; KR102373012B1; US11536042B2; DE102017203705A1; US20200080325A1; CN110520581A; WO2018162453A1; EP3592922B1

Abstract

The invention relates to a boom system (10) for a concrete-delivery device, said system being formed by a plurality of booms (A1, A2, A3) which are pivotably interconnected and each of which has at least one boom (A1, A3) with a recess (12, 14) along its length, said recess being designed such that, when the boom system (10) is in a retracted position, the recess can receive an adjacent boom (A2) having a narrower cross-section.

Description

Boom arm system with space-saving fold-in position Technical area

The present invention relates to a Ausle ^¬ gerarmsystem, and in particular a Auslegerarmsystem for a (mobile) concrete conveyor.

Description of the Prior Art

[0002] As is known, concrete conveying devices comprise a boom system formed from a plurality of boom arms pivotally connected to one another, in which the individual boom arms come to lie on one another in the folded-in state. It is desirable that the cantilever arms need as little space in their unfolded position and the concrete conveyor thus has the lowest possible and in line with the road traffic ^¬ regulations standing height (see, for example, DE 10 2008 013 990 AI).

Summary of the invention

Based on this, a Be ^¬ tonfördervorrichtung with the features of claim 1 is proposed according to the invention. The basic idea of the invention is to insert a cantilever arm in the unfolding position into a recess formed in another, for example, adjacent cantilever arm, in order to reduce the overall height. The clear dimension of the recess is slightly wider than the width of the boom to be inserted into the recess.

In this way, space can be saved and it is a space-effective design of the folded arm package allows. Since the area moment of inertia and the moment of resistance depend mainly on the height of the carrier forming the Ausle ^¬ gerarm, the arms can be made easier with the same load capacity.

For the inventive design of a ^¬ legerarmsystems offer in particular made of composite fabric boom arms. Typical Verbundwerkstof ^¬ fe are, for example, carbon fiber reinforced plastics, also known by the abbreviation CFRP (carbon fiber reinforced plastic) are known. It is basically also possible to realize the boom arm system according to the invention with cantilever arms made of steel, but steel tends more to geometric instability, while in CFK structures higher wall thicknesses (with the same or lower weight) can be realized. In addition, sandwich structures can be constructed relatively easily. It is also possible with CFK cantilever arms to adjust the wall thicknesses of the carrier of the load; For example, the legs (sidewalls) can be made more massive than the rest of the arm. As composite materials ^¬ especially (but not exclusively) Fa ^¬ server composites as the aforementioned carbon fiber or basalt, aramid, fiberglass or the like come. containing in question. The cantilever arm system may include cantilevered steel arms and cantilevered cantilever arms or even a compound mix (such as steel top and fiber composite underside), or all of the cantilever cantilevers may be composite.

The recess may extend substantially over the entire length of the other cantilever arm. According ^¬ the insertion of the boom in the other arm can take place over substantially the entire length of the boom, for example., Leaving the pivot assemblies. The insertion of the boom can be done over part of its height or substantially the entire height. , Two adjacent cantilever arms OF INVENTION ^¬ dung proper recesses, the boom arm can each be proportionately with a part of its height in the two Ausspa ^¬ stanchions such that it is completely absorbed by the two recesses substantially.

Further advantages and embodiments of the inven ^¬ tion will become apparent from the dependent claims, the description and the accompanying drawings.

It is understood that the above genann ^¬ th and the features to be explained below not only in the particular combination, but also in other combinations or alone, without departing from the scope of the present invention.

The invention is illustrated schematically with reference to an Ausführungsbei ^¬ game in the drawing and will be described in detail below with reference to the drawings. Brief description of the drawing

Figure 1 shows a section of a boom arm system according to the invention, two adjacent boom arms in the unfolded position in cross section.

Figure 2 shows a section of a Ausfüh ^¬ ment variant of a boom arm according to the invention three adjacent boom arms in the fold-in position in cross section.

Figure 3 shows cantilever arms similar to the embodiment of Figure 1 with pipe mounts.

Figure 4 shows boom arms similar to the Ausfüh ^¬ tion variant of Figure 2 with pipe brackets.

5 shows a variant of the first Ausle ^¬ gerarms of Figure 1.

Figure 6 shows as a section of another embodiment of a Auslegerarmsys ^¬ invention tems three adjacent cantilever arms in the Einfaltstellung in cross section with pipe mounts.

FIG. 7 shows the cantilever arm of FIG. 5 in a sectional view, with a further cantilever arm received in the recess thereof, whose tube holder projects through a groove.

Figure 8 shows the situation of Figure 7 in a side view in the direction of the arrow P.

Detailed description The same and similar features shown in the individual figures are ^¬ with the same reference ^numerals .

FIG. 1 shows, as a section of an inventive cantilever arm system 10, two adjacent cantilever arms A1, A2 in the fold-in position in cross-section. By "adjacent" in the present context are meant two cantilever arms which, in the unfolded position of the cantilever, come to rest against one another at least in sections, thus utilizing one of the arms in a recess of the other This does not necessarily mean that the two concerned ^¬ the boom arms must be articulated directly to each other.

The two extension arms AI, A2 are in the illustrated Einfaltstellung one above the other, as is the case in many Einfaltstellungen. The above in the illustration of Figure 1 cantilever AI (receiving boom) has a slightly wider cross-section than the underlying cantilever A2 (male boom). In addition, the upper boom AI has a recess 12. The recess 12 extends longitudinally along the boom AI. The recess 12 extends, for example, substantially over the entire length of the extension arm AI. The recess 12 may be formed like a channel. The recess usually extends between the joint areas of the cantilever arm and leaves the joint areas free.

The recess 12 is formed in the illustrated exemplary embodiment on a lower flange UG of the upper arm ^¬ arms AI. For example. the recess 12 can be replaced by longer of left and right side surfaces S of the cantilever AI are formed. The side surfaces S protrude beyond the lower chord in such a way over UG that the ge characterized ^¬ formed extensions VI form the recess 12 for receiving the adjacent cantilever arm A2. Alternatively, the extensions VI and the extension arm AI can also be formed by engaging two U-profiles. The person skilled in possible production variants open up easily. The inside width of the recess 12, ie the

Distance between the two extensions VI, is slightly wider than the cross section of the lower arm A2, so that it is received in the fold-in position of the extension arms AI, A2 in the recess 12. [0025] In the illustrated embodiment, over the extensions protrude ^¬ VI of the upper boom AI, the height of the lower cantilever arm A2 up to about its half. The lower arm A2 is thus partially received in the overlying recess 12. However, the dimensions of the recess and the cantilever arms can also be selected so that the lower cantilever arm is received in terms of height in we ^¬ sentlichen completely or completely in the recess, as indicated in the embodiment of Figure 3. It should be emphasized that the arrangement shown and described is also reversible, so that the lower arm has a formed on its upper flange Aus ^¬ savings for receiving the overlying, narrower in cross-section boom. A combination is possible, as shown in the embodiment of Figure 2. FIG. 2 shows an arrangement similar to that shown in FIG. 1 with an additional extension arm A3 which comes to lie below the hitherto lower extension arm A2 in the fold-in position. As already described, a recess 14 according to the invention with extensions V3 of the side surfaces S, which serves to receive the overlying (now central) extension arm A2, is formed on a top flange OG of the lowermost cantilever arm A3. Both recesses 12, 14 are formed so that the central cantilever arm A2 so ^¬ probably comes to rest in half in the upper recess 12 and about half in the lower recess 14 and thus is substantially completely surrounded by the recesses. There are also other divisions than the illustrated ^¬ substantially half split possible.

Figures 3 and 4 show views of the Auslegerarmsystems with pipe brackets Rl, R2, R3 to the boom arms AI, A2 and A3. The pipe supports Rl, R3 to the boom arms AI, A3 with a recess 12, 14 are attached or attached as usual to a side surface S of the respective boom. The arrangement can, for example, centrally in relation to the height of the Armhohlprofils he ^¬ follow (see. Pipe Mount Rl of Figure 3). However, it may also be useful not to place the pipe supports and thus the concrete delivery pipes in the area of the bend-neutral fiber of the profile (the bend-neutral fiber is in the middle of the profile); Such arrangements are shown for the pipe supports Rl, R3 in FIG.

[0029] The pipe supports R2 of the extension arm A2, which in one or both of the recesses 12, 14 of the adjacent th cantilever arms AI, A3 comes to rest are posi ^¬ tioned that they protrude from the recess 12, 14. This is done, for example, by arranging the pipe support R2 in the region of an end or an edge 20 of the extension arm A2, which lies outside the relevant recess 12

(see Figure 3). Possibly. a groove (not shown) can be provided on the extension VI of the receiving cantilever arm AI, so that the tube holder in the unfolded position does not act upon or touch the extension. An embodiment with such a groove will be described with reference to the figures 7 and 8 illustrates veran ^¬.

Alternatively, the tube holder - as shown in Figure 4 and mentioned above - may be arranged approximately centrally on the extension arm A2 and so between the two extensions VI, V3 of the upper and lower recess 12, 14 protrude. It is important that a folding and unfolding of the cantilever arms is not affected by the arrangement of the pipe mounts. The described extensions to the hollow profiles of the receiving cantilever arms contribute to the rigidity of the Auslegerarmaufbaus. The Longer side described can also struggled ^¬ (at least partly) have a greater wall thickness D, than the wall thickness d of the side faces or side walls S of the female telescoping arms Al, A3, as is indicated in the figures.

This improves the stiffness contribution of the extensions. The formation of thicker wall thicknesses at the extensions is particularly in the production of a receiving cantilever arm by joining two U-

Profiles are easy to customize. Variable wall thicknesses are particularly well realized in a CFK design. bar. Figure 5 shows a variant in a variant in which a first (adjacent to the hollow profile) portion of the extension has substantially the same wall thickness d2 as the side wall S of the hollow profile, while a farther removed second portion of the extension has a greater wall thickness D2. Also in this execution form ^¬ have the extensions of the recess 14, a thicker wall thickness D2 than the wall thickness d2 of the sides ^¬ surfaces S of the hollow profile. 6 shows a variant of a erfindungsge ^¬ mäßen boom arm system with pipe brackets Rl, R2, R3 using the boom A2 of Figure 5. The variant of Figure 6 comprises three arms AI, A2, A3 with successively smaller or narrower cross-section, such that a recess 12 of the first cantilever AI substantially completely accommodates the second cantilever arm A2 adjacent (in the unfolding position), and whose recess 14 in turn substantially completely accommodates the third cantilever arm A3 adjacent (in the unfolding position). The respective inner cantilever arms A2, A3 protrude so far beyond the recess only at the hollow-profile-distal end of the corresponding receiving recess 12 or 14, that a pipe holder R2, R3 attached to the cantilever arm A2, A3 still extends outside the recess, as already described above erläu ^¬ was tert.

The first cantilever arm AI has at its hollow profile on a side wall thickness dl, while the Aus ^¬ saving 12 of the first cantilever AI forming extensions VI (continuous) aufwei ^¬ sen a thicker wall thickness Dl. The wall thickness ratios of the second cantilever arm A2 already be ^¬ wrote above with reference to FIG. 5

The pipe supports Rl and R3 of the first and third cantilever arms AI and A3 are similar to the embodiments of Figures 2 to 4 on an outer side of the side wall of the extension VI (in the case of the first arm AI) and the side surface S. of the hollow profile (in the case of the third arm A3). In the case of the second arm A2, the pipe holder is not R2 prolongation on an outer side of the encryption arranged V2, but at the hollow profile remote end face 22. This configuration enables a particular ^¬ DERS compact package / nesting.

[0035] Figures 7 and 8 show a further OF INVENTION ^¬ dung-type configuration to illustrate the described grooves.

FIG. 7 shows the extension arm A2 of FIG. 5 with further extension arm A3 received in the recess 14 in the fold-in position, and FIG. 8 shows the extension arm A2 in a side view in the direction of the arrow P of FIG. 7. The inside extension arm A3 has a pipe support R3 attached to a lower portion of the side wall S of the cantilever arm A3 (shown in FIG. 7). The receiving cantilever arm A2 has a groove (or recess) 24 on its extension V2 and in particular on its hollow profile-remote end face 22. In the illustrated Einfaltstellung the pipe R3 of the inner arm R3 protrudes as shown by the groove 24. As a result, a particularly compact An ^¬ order in the unfolded position of the Auslegerarmsystems achieved. The invention provides a Auslegerarmsystem for a concrete conveyor device, which is formed from a plurality of pivotally interconnected boom arms, wherein a cantilever arm is inserted into a recess formed in an adjacent cantilever ^arm to reduce the height in the Einfalt ^¬ position. The insertion takes place over substantially the entire length of the arm. With the invention, the space of a concrete pump can be used more effectively, so that lighter and stiffer arms can be constructed.

Claims

claims

1. Auslegerarmsystem (10) for a Betonfördervor- direction, which is formed of a plurality of pivotally interconnected boom arms (AI, A2, A3), of which at least one cantilever arm (AI, A3) in the longitudinal direction has a recess (12, 14) , which is configured such that it serves in a fold-in position of the Auslegerarmsys- system (10) for receiving an adjacent arranged Ausle ^¬ gerarms (A2) with a narrower cross-section.

2. Auslegerarmsystem (10) according to claim 1, wherein the recess (14; 12) on an upper flange (OG) or lower belt (UG) of the cantilever arm (A3, AI) is formed.

3. Auslegerarmsystem (10) according to claim 2, wherein for forming the recess (12, 14) along the cantilever arm (AI, A3) side walls (S) of the cantilever arm (AI, A3) on the upper flange (OG) or the lower flange ( UG) are extended ver ^¬ .

4. Auslegerarmsystem (10) according to claim 2, wherein the recess (12, 14) by a shaping of the upper strap (OG) or lower chord (UG) is formed.

5. Auslegerarmsystem (10) according to any one of claims 1 to 4, wherein the recess (12, 14) extends substantially over a length of the cantilever arm (AI, A3).

6. Auslegerarmsystem (10) according to any one of claims 1 to 5, wherein the recess (12, 14) for substantially fully receiving the adjacent cantilever arm (A2).

7. Auslegerarmsystem (10) according to any one of claims 1 to 5, wherein the recess (12, 14) for partially receiving the adjacent cantilever arm (A2) is used.

8. Auslegerarmsystem (10) according to claim 7, wherein a cantilever arm (A2) in the Einfaltstellung each in a first recess (12) of a first adjacent cantilever arm (AI) and in a second recess (14) of a second adjacent cantilever arm ( A3) comes to rest.

9. Auslegerarmsystem (10) according to claim 8, wherein the cantilever arm (A2) by the two recesses (12, 14) is substantially completely absorbed.

10. Auslegerarmsystem (10) according to any one of claims 1 to 9, wherein at least one of the cantilever arms (AI, A2, A3) is at least partially formed of a composite material, in particular ^¬ special fiber composite material.

11. Auslegerarmsystem (10) according to any one of claims 1 to 10, wherein the side walls (extensions VI, V3) of the recess (12, 14) have a thicker wall thickness (D) than a wall thickness (d) of side surfaces (S) of the profiles the extension arms (AI, A3).

12. Auslegerarmsystem (10) according to any one of claims 1 to 11, wherein the tube holders (R2, R3) of a in the unfolded position in a recess (12, 14) to be aligned cantilever arm (A2, A3) are positioned so that they are made the recess (12, 14) protrude.

13. Auslegerarmsystem (10) according to claim 12, wherein on a side wall of the recess (12, 14) a pipe holder (R2, R3) in the fold-in receiving groove (24) is provided so that the pipe holder (R2, R3 ) in the unfolded position, the side wall is not acted upon or touched.

14. Auslegerarmsystem (10) according to claim 12 or 13, wherein the pipe holder (R2, R3) is arranged so that it comes to rest in the unfolded position at a hollow profile distal end of the recess (12, 14).

15. Concrete conveying device with a Auslegerarmsys- (10) according to one of claims 1 to 14.