EP1604945A2 - Mobile elevating work platform and method for maintenance operations with it - Google Patents

Abstract

The mobile elevating platform (100) especially for arcade buildings (200), has a running gear (10) with side-mounted wheel elements and upon which is installed a horizontal swinging arm and a jib arm (30) rotatable upon it. The jib arm is connected to a cranked connecting arm (41) connected to the underside of a working cage (40). A first (21) and a second (22) vertical pivot are located on respective ends of the horizontal swinging arm. The first pivot is installed on the back side of the running gear, in the rear half of the support length defined through the wheel elements in the direction of travel.

Description

The invention relates to a mobile aerial work platform with a Chassis with laterally arranged rolling elements, on the at a first vertical axis of rotation a horizontal pivot arm is stored, and with an arm boom, the on a second vertical axis of rotation on the horizontal pivot arm is stored and the one cranked connecting arm has, which carries a work basket.

Moreover, the invention relates to a method for performing of maintenance work in an arcade building with a such mobile aerial work platform.

From DE 296 10 630 U1 is a generic aerial work platform known, the chassis is a truck is. The horizontal swivel arm with two vertical axes of rotation allows, based on the working area of an aerial work platform with only one axis of rotation, a shortening the length of the arm boom and a beneficial Focus change with respect to the chassis he allows to provide fewer or shorter extendable supports. However, the well-known aerial work platform for the Designed for road use and therefore much too big, especially too high to be used inside buildings to be able to.

From DE 198 13 278 A1 is a mobile aerial work platform known without horizontal swivel arm, due to its multipart Chassis for maneuvering and working within of buildings is suitable. However, with this known aerial work platform works in the roof area of an arcade building, So in the range of a light band or a Dome light, only from the directly below inner surface possible in the basement floor. This inner surface is but mostly used heavily, so that before beginning and after end work extensive work with the aerial work platform required are.

The object of the invention is therefore an aerial work platform of the type mentioned so on to develop that Through doors of buildings with standard opening dimensions can travel and / or transportable with existing elevators and that in particular for maintenance and cleaning from bands of light and domes from an edge area of underneath lying surface and / or from a gallery aisle suitable is.

This task is supported by a mobile aerial work platform the features of claim 1 solved.

This solution has the advantage of being a significant shortening the vehicle length and therefore good maneuverability be achieved within building passages. The attachment of the work cage with the bottom on the cranked Connecting arm enlarges the working area of the aerial work platform by the size of the work basket Person or allows for a given workspace one corresponding shortening of the arm boom. Another Shortening in the transport state of the aerial work platform allows the arrangement of Horizontalschwenkarms, with his first axis of rotation as close as possible to the back of the chassis or in the rear region of the support length the rolling elements is stored and in the area of his other end carries the second axis of rotation, causing the Arm boom in total further back against the chassis is positioned.

The end-side mounting of the horizontal arm makes it possible the bogie alongside barriers in the building like To position parapets or railings, the horizontal arm with the attached arm jib laterally over the Barrier to swing and so the arm boom in an airspace, which is located next to the footprint of the chassis, align. In particular, it is possible to use the invention Aerial work platform in building doors to and to move through doors, with passenger elevators with one Capacity of three tons to a gallery gallery upstairs an arcade building and then transport over the parapet there in the airspace below one Skylight dome or the like to operate. It is with it no longer necessary, the inner surface in the basement of the Arcade building to drive.

The balanced design principle makes extendable Support struts unnecessary and thus reduces the space requirement for the installation considerably.

The cranked link arm also causes the top edge of the work basket opposite the lowered arm jib is lowered, which reduces the headroom is. In addition, the cranked connecting arm, that the center of mass in a fully erect Arm boom in or on the support area of the chassis lies.

In particular, the cranked connecting arm is so long or the crank angle is so great that the top of the work basket not up beyond the arm boom protrudes. A preferred offset angle between the longitudinal axis of the arm extension and the connecting arm is 120 ° up to 150 °.

Advantageously, a bearing of the arm arm on a arm boom pivot axis, which on at least one basic carrier arranged on one at the second axis of rotation rotatably mounted turntable is attached. Between the Base support and the arm boom can at least one hydraulic cylinder act to raise with the arm boom is independent of its rotation about the second Axis of rotation.

The base beam should be turned on and off of the away from the platform of the arm jib point. As a result, in turn, the arm boom in transport position positioned farther back relative to the chassis.

To reduce the mass of the aerial work platform and thus to allow the use of existing passenger lifts is preferably provided, the chassis of a To form lightweight material and at least one mass element contains, which can be positioned behind the first axis of rotation is to balance. This can be for example around lead weights or around sand filled boxes act. The lightweight construction reduces the total mass, while the balance weights form mass points that the Increase stability during operation of the arm jib.

Also as a balance weight, a drive unit act, in particular so positionable in the chassis is that their center of gravity is away from the first axis of rotation lies. A palletized arrangement offers the advantage that the drive unit is selectable, for example, electrically for operation within a building or with additional Internal combustion engine for outdoor use. Furthermore In case of failure, a simple replacement can be made become. For this purpose, each drive unit is constructed in such a way that you only have a few hydraulic lines on the chassis and an electrical plug contact for the Control must be connected.

Caterpillars, especially rubber tracks, are because of their low Surface pressure especially for sensitive soils in Suitable buildings.

Advantageous for reducing the vehicle length is the subdivision of arm jib in several telescopic elements and the cranked connecting arm. In particular, there are three telescopic elements intended. Weight saving is an embodiment, in the case of only two of the telescopic elements over a Hydraulic cylinders are mutually displaceable and a another pair is manually adjustable. This can be before recording the operation of the arm arm on a length adjustment the local conditions are made, whereas an adjustment during operation then remotely controlled via the hydraulic cylinder is possible.

To the vehicle length and the vehicle weight during transport still further reducing is in a preferred embodiment the invention provided that the work basket with the cranked connecting arm one from the arm boom Detachable work basket unit forms. This is about simple Bolt connections with the foremost telescopic element connected.

When the work cage unit is in the area of its center of mass has at least one wheel, it can be from one person moved without much effort in the manner of a sack truck with the work basket still being used to transport Tool can be used for the place of use.

Advantageously, the mobile aerial work platform is used in a method of performing maintenance in an arcade building with a mobile aerial work platform.

Here, the above-described kinematics of the aerial work platform offers with their horizontal swivel arm the advantage that both a short configuration is possible, the Transportation within a building eases, as well a corresponding flexibility is given by one Gallery walk from the arm boom with work cage in the airspace an arcade building.

Fig. 1

eine mobile Hubarbeitsbühne in einem Arkadengebäude;

Fig. 2a - 2c

die Hubarbeitsbühne in verschiedenen Positionen beim Rangieren auf einem Galeriegang, jeweils in Draufsicht;

Fig. 3a, 3b

eine mobile Hubarbeitsbühne in Seitenansicht und in Draufsicht;

Fig. 4

eine Arbeitskorbeinheit in Seitenansicht; und

Fig. 5

die Arbeitsbereiche der Hubarbeitsbühne in Draufsicht.

The invention will be explained in more detail with reference to the drawing. The figures show in detail:

Fig. 1

a mobile aerial work platform in an arcade building;

Fig. 2a - 2c

the aerial work platform in different positions when maneuvering on a gallery aisle, each in plan view;

Fig. 3a, 3b

a mobile aerial work platform in side view and in plan view;

Fig. 4

a work basket unit in side view; and

Fig. 5

the work areas of the aerial work platform in plan view.

• ein Fahrgestell 10 mit Gummiketten 11, 12,
• einen darauf an einer ersten Drehachse 21 gelagerten, Horizontalschwenkarm 20, an dem wiederum ein Armausleger 30 mit drei Teleskopelementen 31, 32, 33 an einer Armauslegerschwenkachse 34 gelagert ist, und
• einen gekröpften Verbindungsarm 40, an dem ein Arbeitskorb 40 befestigt.

The working platform 100, as shown in particular in FIGS. 3a and 3b, essentially comprises:

• a chassis 10 with rubber tracks 11, 12,
• a mounted thereon on a first axis of rotation 21, horizontal pivot arm 20 to which in turn an arm boom 30 is mounted with three telescopic elements 31, 32, 33 on a Armauslegerschwenkachse 34, and
• a cranked link arm 40 to which a work cage 40 is attached.

Fig. 3a shows the aerial work platform 100 in its transport position in side view. The work basket 40 is at the Rear 14 of the chassis 10 is positioned. The horizontal swivel arm 20 is about the first axis of rotation 21 to a Front 15 pivoted out.

At a second axis of rotation 22 of the horizontal pivot arm 20th is mounted a turntable, of which two basic carrier 35th run obliquely to the rear, at the free end of the Armauslegerschwenkachse 34 is arranged.

Between the two base supports 35 is the actual arm boom 30 arranged as the top view of the same position in Fig. 3b shows. On each side is between Base support 35 and boom arm 30 each have a hydraulic cylinder 36 arranged to raise the arm boom 30 can.

In FIGS. 3a and 3b, L denotes a support length, the length of the contact surface of the caterpillars 11, 12 corresponds to the ground. It is essential that the first axis of rotation 21 as far as possible in the rear Half of the support length L is arranged. Thereby Among other things, the advantage is achieved that of the first Rotary axis 21 measured from a maximum possible residual length the crawlers 11, 12 is available to those in the Working position according to Fig. 2c turned forward arm arm support.

The compact design of the aerial work platform results in a maximum traffic load in the work basket 40 of 120 kg a height under 2m, a width of 1.75m and a length of about 3m with removed work basket unit or about 5m with attached work basket unit. The free space below the Horizontal swivel arm 20 is approx. 1.40 m. He defines the maximum parapet height, across the deck with the aerial work platform can be worked.

Work basket 40 and connecting arm 41 are, as shown in FIG. 4 shows connected to a detachable work basket unit, via a coupling element 43 on the foremost telescopic element 33 of the arm arm 30 is to be fastened. A support wheel 42 is between the connecting arm 41 with the coupling element 43 and the work basket 40 with a control panel 44th positioned. The of the elements right and left of the Support wheel 42 caused torques lift about on, making the work basket unit of a person easily can be pushed.

• Im unteren Bildbereich ist der Armausleger 30 horizontal ausgerichtet. Durch Ausschieben der Teleskopelemente 30...32 kann der Arbeitskorb 40 zwischen den beiden unten dargestellten Positionen verschoben werden.
• Im linken Bildbereich ist der Armausleger 30 maximal aufgerichtet und ausgefahren.

1 shows an aerial work platform 100 within an arcade building 200. Several possible working positions of the arm boom 30 are shown at the same time:

• In the lower part of the picture arm arm 30 is aligned horizontally. By pushing out the telescopic elements 30 ... 32 of the work basket 40 can be moved between the two positions shown below.
• In the left image area of the arm boom 30 is erected and extended maximum.

This, that the work basket 40 with its bottom on the arm boom 30 is mounted, which increases from the work basket 40 achievable workspace by the size of Person in it himself. This can be maximum in one Working area marked with a curve 101 is. If a telescopic element inserted, so is still the work area marked with a curve 102 achievable.

The chassis 10 is on a false ceiling 210 in the Arcade building 200 erectable and can then with the arm boom 30 across a parapet 214 in an airspace 206 are aligned. It can be side windows 204 and a glass dome 202 can be achieved and even then when the undercarriage is in a gear below a Ceiling or roof surface 208 is positioned as in Figs. 2a to 2c is shown.

Fig. 2a shows an initial situation in which the aerial work platform with her chassis 10 on a gallery aisle 211 is positioned. It is tilted and between two columns 212 in the direction of the parapet 214, as indicated by the arrow. Unlike in the in the transport position shown in Figs. 3a and 3b, is here when threading between the columns 212 of the horizontal pivot arm 20 to the back of the chassis 10 out, so to the upper left in Fig. 2a, pivoted. The work basket 40 is located above the parapet 214, which has an air space 206 limited.

In Fig. 2b is already the entire boom arm 30 with work basket 40 positioned in the air space 206. The horizontal swivel arm 20 is already approximately transverse to the longitudinal axis of Chassis 10 provided, whereby the second axis of rotation 22 is positioned in the air space.

In Fig. 2c, the chassis 10 is in the for operation the Armauslegers provided location alongside the parapet 214 positioned between the pillars 212. The horizontal swivel arm 20 is 90 ° transverse to the longitudinal axis of the chassis 10 aligned and thus canting as much as possible into the airspace 206 off. The arm boom 30 is close in the air space 206 the parapet 214 is positioned and aligned parallel to it, so that the work basket 40 for boarding next the parapet 214 is positioned.

Starting from this position can in Fig. 5 with the Curve 104 shown working space can be achieved.

The curve 103 indicates the working space, which at an in Transport position horizontal pivot arm 20 with the arm boom 30 is reached, for example when the aerial work platform 100 is used outdoors, where it is not necessary to move across a parapet 214 Act.

The tilting moment that protrudes through the over the parapet 214 protruding Horizontal swivel arm 20 with arm boom 30 and work basket 40 at the foremost support point, ie the parapet near Caterpillar, being evoked, becomes alone compensated by the weight of the chassis 10. Around To ensure the stability during operation is in the working area 104, the pivoting range of the horizontal pivot arm 20 at the first axis of rotation 21 with respect to the chassis longitudinal axis limited to about + 100 °.

With respect to the longitudinal axis of the horizontal pivot arm 20 can the arm boom 30 thereby in all positions of Horizontalschwenkarms 20 about the second axis of rotation of about + 110 ° be rotated to -15 °. This makes it possible, as shown in FIG. 1 shows, with usual dimensions of Arcade buildings 200 the Center of glass dome 202 and above the aerial work platform to reach lying side window 204. The aerial work platform 100 must then on a gallery gallery opposite 211 are transported to the other half to work off the building.

In the transport position, in the work basket 40 without Traffic load is and retracted the arm boom 30 maximum is, the above rotation angle limitations can by control measures are repealed.

If one of the telescopic elements 31 ... 33 inserted, so This results in an expanded workspace that passes through the curves 103 'and 104' in Fig. 6 is shown. By the lower one Tilting moment of the shortened arm jib 30 can now be admitted, the horizontal pivot arm 20 by up to + 160 ° away from the chassis longitudinal axis and arm boom 30 with respect to the horizontal pivot arm 20 by approx. ± 85 ° to pivot. This results in the airspace beyond the parapet 214 is a working sector of the arm boom 30 of about 65 °, relative to the longitudinal axis of the parapet 214 or the chassis longitudinal axis.

Claims (18)

Mobile aerial work platform (100), in particular for arcade building (200), with a chassis (10) with laterally arranged rolling elements (11, 12) on which a horizontal pivot arm (20) is mounted on a first vertical axis of rotation (21), and with a Arm boom (30) which is mounted on a second vertical axis of rotation (22) on the Horizontalschwenkarm (20) and which has a cranked connecting arm (41) carrying a working basket (40),
characterized, is secured that the working basket (40) with its underside on the cranked link arm (41), that the axes of rotation (21, 22) are respectively arranged at the ends of the horizontal pivot arm (20) and in that the first axis of rotation (21) is arranged on a rear side (14) of the chassis (10), in the rear half of the support length (L) defined in the direction of travel by the rolling elements (11, 12). Mobile aerial work platform (100) according to claim 1, characterized in that an angle of 30 ° to 60 ° is included between the cranked connecting arm (41) and the longitudinal axis of the arm jib (30). Mobile aerial work platform (100) according to claim 1 or 2,
characterized in that the arm extension (30) comprises three telescoping telescopic elements (31, 32, 33). Mobile aerial work platform (100) according to claim 3, characterized in that a first pair of telescopic elements (31, 32) by a lifting cylinder against each other is displaceable and a second pair of telescopic elements (32, 33) is manually against each other. Mobile aerial work platform (100) according to one of claims 1 to 4, characterized in that the arm boom (30) is mounted on a arm boom pivot axis (34) which is arranged on at least one base support (35) extending from one to the second axis of rotation (22) rotatably mounted turntable extends. Mobile aerial work platform (100) according to claim 5, characterized in that the at least one base support (35) is inclined and facing away from the work with the basket (40) side of the arm jib (30). Mobile aerial work platform (100) according to one of claims 1 to 6, characterized in that the upper edge of the work basket (40) does not protrude over the lowered arm jib (30). Mobile aerial work platform (100) according to one of claims 1 to 7, characterized in that the pivoting range of the horizontal pivot arm (20) on the first axis of rotation (21) with respect to a longitudinal axis of the chassis (10) up to + 100 ° and that at second axis of rotation (22) of the arm boom (30) with an axis between the axes of rotation (21, 22) extending longitudinal axis of the horizontal pivot arm (20) forms an angle of -15 ° to + 110 °. Mobile aerial work platform (100) according to one of claims 1 to 8, characterized in that the working basket (40) with the cranked connecting arm (41) forms a detachable from the arm boom (30) Arbeitskorbeinheit. Mobile aerial work platform (100) according to claim 9, characterized in that the work basket unit in the region of its center of mass has at least one wheel (42). Mobile aerial work platform (100) according to one of claims 1 to 10, characterized in that the rolling elements caterpillars (11, 12). Mobile aerial work platform (100) according to one of claims 1 to 11, characterized in that in the chassis (10) a palletized drive unit can be inserted. Mobile aerial work platform (100) according to claim 12, characterized in that the drive unit includes at least one internal combustion engine with fuel tank, a reservoir for hydraulic fluid and a hydraulic pump. Mobile aerial work platform (100) according to claim 12, characterized in that the drive unit includes at least one accumulator, a reservoir for hydraulic fluid and an electric hydraulic pump. Mobile aerial work platform (100) according to one of claims 1 to 14, characterized in that the chassis (10) is formed from a lightweight material and contains at least one mass element. A method of performing maintenance in an arcade building (200) having a mobile aerial work platform (100) according to at least one of claims 1 to 15,
which arcade building (200) has at least one full-surface basement floor and a roof with at least one light band (204) or with a light dome (202) and at least one gallery aisle (211), which with a parapet (204) at least partially around a basement between and Roof-extending air space (206) is arranged,
with the following steps Aligning the aerial work platform (100) in a transport position in which the work basket (40) is positioned on the rear side (14) of the chassis (10) and the horizontal pivot arm (20) about the first axis of rotation (21) to a front side (15). is panned; Placing the aerial work platform (100) on the gallery aisle (211) and positioning the undercarriage (10) in a home position parallel to the parapet (204); Positioning the second axis of rotation (22) and the arm extension (30) with work cage (40) in the air space (206) by laterally pivoting the horizontal pivot arm (20) about the first axis of rotation (21), Approaching a working position of the work basket (40) at least by telescoping and / or lifting the arm jib (30) and / or rotating the arm jib about the second axis of rotation (22). A method according to claim 16, characterized in that for approaching a working position of the work basket (40) of the horizontal pivot arm (20) is additionally rotated about the first axis of rotation (21). A method according to claim 16 or 17, characterized in that for approaching the starting position on the gallery aisle (211) of the aerial work platform of the Horizontalschwenkarm (20) to the back (14) and the work basket (40) on the arm boom (30) is aligned to the front.

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