DE102007048054A1 - Object e.g. rotor blade, securing method for wind energy plant, involves achieving volumes of holding elements in transport position by equilibrium condition of active forces, and reducing volumes of elements for achieving loading position - Google Patents

Abstract

The method involves achieving volumes of holding elements (11, 12) e.g. holding cushion, in a transport position by a natural equilibrium condition of active forces. The volumes of the holding elements are actively reduced for achieving a loading position, where the holding elements secure an object (13) e.g. rotor blade, in the transport position and make loading and unloading of the object in the loading position. The holding elements are evacuated for achieving the loading position. Vacuum is removed based on the loading position for achieving the transport position.

Description

The Invention relates to a method for securing an object, especially during transport, with a holding element, which secures the object in a transport position and in a loading position allows loading or unloading of the object, by the volume of the retaining element to reach the transport position and the loading position is changed. Furthermore, the Invention holding element, in particular holding pad, for holding a Object, wherein the holding element in the transport position firmly rests against the object and in the loading position of the object is spaced.

Such a method or holding element is known from DE 102 25 025 A1 known. Here, the device is used for attaching and / or transporting a rotor blade for a wind turbine. The rotor blade is held by means of a gas or liquid inflatable pad. The inflation of the upholstery can be done up to a predetermined pressure.

adversely Here is that pressure for the inflatable cushion maintained throughout the transport process must become. There is a risk that by leaks gas or Liquid escapes from the pads and thus the rotor blade no longer safe. Thus, the rotor blade within move the device, which, for example, during transport too Damage to the cargo can come.

smaller Leaks and pressure losses during transport could be compensated by the fact that the pressure is constantly controlled and at a detected pressure drop the desired pressure is rebuilt. The disadvantage here is that in addition to the device for fastening and / or transporting the object further technical equipment would have to be transported. This leads to an increased energy and cost.

Of It is also known, objects for transport by means if necessary, specially prepared holding frames to attach. The disadvantage here is that these scaffolds usually are not reusable. Furthermore, especially difficult to handle, Objects often only on individual support points. This can result in an unfavorable weight distribution resulting, for example, not resting parts of the transported Subject to vibrate. Thus is a safe transport is not guaranteed.

That The problem underlying the invention is therefore a method and to provide a retaining element of the aforementioned type, so that transport damage can be reliably avoided and fixing and / or transporting on simple and inexpensive Way can be done.

The problem according to the invention is achieved by a method of the aforementioned type achieved in that the volume of the Retaining element in the transport position by a natural Equilibrium state of the forces acting is achieved and the volume of the retaining element to reach the loading position is actively reduced. Furthermore, the problem is caused by a holding element solved the above type, wherein the volume of the retaining element in the transport position by a natural state of equilibrium the acting forces can be reached and the volume of the Retaining element to achieve the loading position actively reduced is.

hereby can ensure a permanently safe transport of the object become. Since the object is held by the holding member when this in a natural state of equilibrium the acting forces, the object can become during transport not due to decreasing holding forces to solve. Thus, a secure attachment and / or a safe transport of the object even with longer transport times guaranteed. Only if the object is in the effective range the holding element is to be supplied or removed, is a controlled force to reduce the volume the holding element necessary. The necessary for this Means must be available only when loading or unloading be put. During the actual transport must no additional technical means available be put. This results in a simple and inexpensive Fasten and / or transport and the danger of emergence Transport damage can be reduced.

According to an advantageous development of the method according to the invention, the holding element is evacuated to reach the loading position. Devices for evacuating have long been known and therefore offer a simple and cost-effective way to reach the loading position. For the evacuated fluid, especially if it is air, no separate collection container must be provided, as it can be easily delivered to the environment. Advantageously, starting from the loading position to reach the transport position, the vacuum is released. It is advantageous if the vacuum can flow into the holding element by means of inflowing air, for example through an open valve. Thus, no separate storage the fluids necessary, which favors the ease of operation and reduces the cost. By means of a controller, for example, a uniform evacuation and / or release of the vacuum can be achieved. As a result, damage during attachment and / or release of the object can be avoided. To reduce the volume, a pump can be used. Such pumps are known per se, easy to use and inexpensive in procurement.

Corresponding a further embodiment of the invention Retaining element are cavities within the holding element filled with a fluid, especially air, and the volume the cavities can be reduced to reach the loading position. By reducing the volume of the cavities, reduced also the volume of the entire holding element, whereby the loading position is reachable.

To a development is that, in particular evacuated, holding element filled with reversible fillers, their volume change is reversible to reach the loading position. By use reversible filler, which, for example, from plastic resins be made, a change between the Transport and loading position favors. It must the reversible filler in the transport position a apply sufficient pressure to the object, to keep it safe and at the same time not to damage it. At the same time, the fillers have to be flexible enough to be able to contract in such a way that the volume of the cavities within the retaining element and / or the filler itself to reach the loading position can reduce sufficiently. Advantageously, the holding element has a Interior space for receiving the filler, and the interior is of a, in particular airtight, flexible enclosure, preferably a film surrounded. By using a flexible envelope such as a film, the retaining element may at least partly to the outer contour of the fastened and / or adapt to the transporting object. This results in a better and safer hold of the object.

Corresponding Another embodiment is on the envelope arranged a valve and preferably the valve is closed in the transport position. By means of the valve can be, for example, by connecting a suitable pump to reach the volume of the cavities reduce the loading position, preferably by air from the holding element is evacuated. To reach the transport position then only needs the valve will be opened, causing air in the retaining element flows in and the retaining element or contained therein thus expand again reversible filler. Depending on If required, the valve can be opened in the transport position or be closed. For a closed valve is a special secure hold of the object during transport where. Through movements during transport, for example by ship movements, additional forces act from the article to the holding element. Because of this extra Forces can be released from the valve when the valve is open Holding element are pushed out. Especially with pressure sensitive Goods, it is advantageous if the holding element in defined Gives way. By contrast, it is heavier, for example and pressure-insensitive goods advantageous if the Valve is closed. As a result, the air can not escape from the retaining element escape and a particularly secure hold of the object is guaranteed.

To In a further development, the interior of the holding element has several Chambers and preferably communicate the chambers with each other. The provision of chambers, for example, at the production of the holding element in a simple manner different To realize sizes of the holding element. Furthermore, a subdivision of a large holding element into several chambers for additional stabilization of the holding element lead, which is the use of the holding element favored. Unless the chambers are interconnected are, can be a uniform change realize the operating positions, as in the holding element evenly distributed air in all chambers. Advantageously, at least two chambers of a valve are common evacuated. This allows holding elements with multiple chambers for example, by means of a single valve control.

Corresponding a further embodiment is on an outer wall the wrapping a material, in particular rubber or Synthetic resin material, applied with a high coefficient of friction. This will both during fastening or loosening the object as well as the transport of the object the Danger of slipping diminished.

Advantageously, a rigid wall, in particular a plate, is arranged on at least one side of the holding element facing away from the object. As a result, during the transition from the second operating state into the first operating state, the retaining element can extend essentially only in the direction of the object. Essentially, here means that the distance traveled by the holding element in the direction of the object is greater than in any other direction. Advantageously, the wall is formed as a side wall of a support element. Thus, the location of Haltee Lementes defined and further can be arranged by the use of a support member a plurality of retaining elements in a defined position to each other.

To In a further development, the fillers are made of porous material Material, in particular made of plastic foams. The production of porous materials, in particular from Plastic foams, has long been known and the corresponding production or procurement of such Filler is thus cost feasible. Depending on the purpose and / or object to be transported Fillers used with different degrees of hardness become. Here, both the fillers of different Holding elements may be different from each other as well as the fillers within a single retaining element. Advantageously, the fillers a retaining element exchangeable. This results in a larger Flexibility and instead of differently filled Holding elements only need different fillers for To be available. Advantageously, the fillers arranged in a grid arrangement. By such a grid arrangement can have large interiors of a holding element be filled easily and effectively and the acting forces can be forwarded in a defined way.

Corresponding an advantageous embodiment, the interior of a first holding element with the interior of a second holding element is connected by means of a connecting piece. The connector can be flexible and / or rigid. It is advantageous that pressure fluctuations within the holding element are compensated can. Due to movements during transport can extra forces from the object act on a holding element. Press the item in the Transport position against a first holding element and the valve is closed, is the set in the first holding element under pressure air over the connecting piece from the first holding element to the second Flow holding element. The second holding element expands due to the additional airflows further towards of the object, whereby a secure hold of the object is guaranteed.

From particular advantage is a transport attachment for fastening and / or transporting at least one article, in particular a rotor blade for wind turbines, with a support element and with at least one inventive Holding member. Furthermore, the use of a inventive method, an inventive Retaining element and / or a transport attachment according to the invention for fastening and / or transporting at least one article, in particular a rotor blade for wind turbines.

following the invention is based on embodiments by means of the following drawings explained. It demonstrate:

1 a sectional plan view of the transport attachment according to the invention,

2 a sectional side view of the holding element according to the invention and

3 a further sectional plan view of the transport attachment according to the invention.

1 shows a transport attachment 10 with two retaining elements 11 and 12 , The holding elements 11 and 12 are formed in cross section as elongated rectangles and are arranged with their longitudinal side opposite to each other. Between the holding elements 11 and 12 there is an object 13 , The holding elements 11 and 12 are on a support element 14 arranged.

The holding elements 11 . 12 each contain a reversible filler 15 which cavities 16 having. Due to the reversibility of the fillers can be compressed and expand when eliminating the necessary forces again from. The fillers 15 are within an interior of the retaining elements 11 . 12 arranged, wherein the interior in each case by an enclosure 17 is defined. The serving 17 is here as a slide 17 educated.

The support element 14 consists of a first wall 18 and a second wall 19 , which are interconnected by means not shown struts. The wall 18 is located on the of the object 13 opposite side of the retaining element 11 , Likewise, the wall is located 19 on the of the object 13 opposite side of the retaining element 12 , On the wall 19 is a valve 20 arranged. The holding elements 11 . 12 are by means of a connector 21 That's here as a connecting pipe 21 is formed, connected.

By means of the valve 20 is the interior of the holding elements 11 . 12 evacuated. As a result, air from the retaining elements 11 . 12 and the cavities contained therein 16 evacuated, causing the subject 13 from the effective range of the holding elements 11 . 12 - like here in the 1 shown - is removable.

2 shows a holding element according to the invention 22 , This also consists of a foil 17 which defines the interior of the holding element and a filler contained therein 15 with cavities 16 , On one side of the retaining element is a wall 23 arranged. In contrast to the representation according to 1 is the valve 20 in this case directly on the film 17 arranged.

3 shows a further transport fastening according to the invention 10 with a holding element 24 and another holding element 25 , The holding elements 24 . 25 are on a support element 14 arranged. This support element 14 consists of walls 18 and 19 and two opposing struts 21 , Between the holding elements 24 . 25 is an object 13 arranged. The holding elements 24 . 25 each have three chambers 26 . 27 . 28 respectively 29 . 30 . 31 on. On the walls 18 . 19 are openings 32 provided by means of which the chambers 26 . 27 . 28 . 29 . 30 . 31 are evacuated or the vacuum is released. The openings 32 are designed such that these for receiving a valve 20 are suitable. The chambers 26 . 27 respectively 27 . 28 are interconnected, so that too the chamber 27 without own opening 32 together with the chamber 26 or the chamber 28 is evacuated. This applies analogously to the holding element 25 and the chambers 29 . 30 . 31 ,

Hereinafter, the operation of the holding elements according to the invention or the transport attachment based on the 1 to 3 explained in more detail:
Should an object 13 by means of the holding elements 11 . 12 be attached to the valve 20 a pump not shown connected to the cavities 16 which are filled with air to evacuate. As a result, the filler is drawn 15 of the holding element 11 towards the wall 18 or the filler 15 of the holding element 12 in the direction of the wall 19 together. As a result, the space between the holding elements 11 . 12 increased. The object to be fastened 13 can now between the holding elements 11 . 12 be guided.

To fix the object 13 will the to the valve 20 connected pump removed and the valve 20 open. As a result, air flows into the interior of the holding elements 11 . 12 one. The reversible material 15 expands and the cavities 16 fill with air. The foil 17 and the fillers 15 press on the object 13 , whereby this is fixed.

Because of the walls 18 . 19 the holding elements expand 11 . 12 when opening the valve 20 essentially only in the direction of the object 13 out. The object 13 is now safely held and can be used together with the transport attachment 10 be transported. Here is a permanent and sufficiently large contact pressure of the holding elements 11 . 12 on the object 13 ensures that transport damage can be reliably avoided. It is advantageous that the reversible fillers 15 at least partially to the contour of the object 13 adapts.

Due to movement during transport, additional forces may be generated by the item 13 on a holding element 11 . 12 Act. For example, press the item 13 with an additional force against the retaining element 12 and is the valve 20 closed, the is in the holding element 12 pressurized air over the connecting pipe 21 from the holding element 12 to the holding element 11 stream. The holding element 11 continues to expand in the direction of the object due to the additional airflow 13 out, causing the subject 13 even with such a displacement of the object 13 within the transport fastening 10 is held securely.

Both the retaining elements 11 . 12 as well as the transport fastening 10 are reusable. Depending on the objects 13 are different support elements 14 and / or fillers 15 used. This results in a high possibility of variation, which leads to a reduction of costs.

10

transport mounting

11

retaining element

12

retaining element

13

object

14

supporting member

15

fillers

16

cavities

17

wrapping

18

wall

19

wall

20

Valve

21

joint

22

retaining element

23

wall

24

retaining element

25

retaining element

26

chamber

27

chamber

28

chamber

29

chamber

30

chamber

31

chamber

32

openings

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 10225025 A1 [0002]

Claims (19)

Method for securing an object ( 13 ), in particular during transport, with a holding element ( 11 . 12 . 22 . 24 . 25 ), which the object ( 13 ) in a transport position and in a loading position a loading or unloading of the object ( 13 ) by the volume of the retaining element ( 11 . 12 . 22 . 24 . 25 ) is changed to reach the transport position and the loading position, characterized in that the volume of the retaining element ( 11 . 12 . 22 . 24 . 25 ) is achieved in the transport position by a natural state of equilibrium of the forces acting and the volume of the retaining element ( 11 . 12 . 22 . 24 . 25 ) is actively reduced to reach the loading position. Method according to claim 1, characterized in that the retaining element ( 11 . 12 . 22 . 24 . 25 ) is evacuated to reach the loading position. Method according to claim 2, characterized in that that starting from the loading position to reach the transport position the vacuum is lifted. Holding element, in particular holding cushion, for holding an object ( 13 ), wherein the retaining element ( 11 . 12 . 22 . 24 . 25 ) firmly in the transport position on the object ( 13 ) and in the loading position of the object ( 13 ), characterized in that the volume of the retaining element ( 11 . 12 . 22 . 24 . 25 ) can be reached in the transport position by a natural state of equilibrium of the forces acting and the volume of the retaining element ( 11 . 12 . 22 . 24 . 25 ) is actively reducible to reach the loading position. Retaining element according to claim 4, characterized in that cavities ( 16 ) within the retaining element ( 11 . 12 . 22 . 24 . 25 ) are filled with a fluid, in particular air, and that the volume of the cavities ( 16 ) is reducible to reach the loading position. Retaining element according to claim 4 or 5, characterized in that, in particular evacuable, retaining element ( 11 . 12 . 22 . 24 . 25 ) with reversible fillers ( 15 ) is filled, whose volume change is reversible to reach the loading position. Retaining element according to claim 6, characterized in that the retaining element ( 11 . 12 . 22 . 24 . 25 ) an interior for receiving the filler ( 15 ), and that the interior of a, in particular airtight, flexible envelope ( 17 ), preferably a film, is surrounded. Retaining element according to claim 7, characterized in that on the envelope ( 17 ) a valve ( 20 ), and that preferably the valve ( 20 ) is closed in the transport position. Retaining element according to one of claims 7 or 8, characterized in that the interior of the retaining element ( 11 . 12 . 22 . 24 . 25 ) several chambers ( 26 . 27 . 28 . 29 . 30 . 31 ) having. Retaining element according to claim 9, characterized in that the chambers ( 26 ... 31 ) communicate with each other. Retaining element according to claim 10, characterized in that at least two of the chambers ( 26 . 27 ; 27 . 28 ; 29 . 30 ; 30 . 31 ) by means of a valve ( 20 ) can be evacuated together. Retaining element according to one of claims 7 to 11, characterized in that on an outer wall of the envelope ( 17 ) a material, in particular rubber or synthetic resin material, is applied with a high coefficient of friction. Retaining element according to one of claims 4 to 12, characterized in that on at least one of the object ( 13 ) facing away from the holding element ( 11 . 12 . 22 . 24 . 25 ) a rigid wall ( 18 . 19 . 23 ), in particular a plate, is arranged. Retaining element according to claim 13, characterized in that the wall ( 18 . 19 . 23 ) as a side wall of a support element ( 14 ) is trained. Retaining element according to one of claims 6 to 14, characterized in that the filler ( 15 ) are made of porous material, in particular plastic foams. Retaining element according to one of claims 6 to 15, characterized in that the filler ( 15 ) are arranged in a grid arrangement. Retaining element according to one of claims 4 to 16, characterized in that the interior of a first holding element ( 11 ) with the interior of a second holding element ( 12 ) is connected by means of a connecting piece. Transport fastening for attaching and / or transporting at least one article ( 13 ), in particular a rotor blade for wind turbines, with a support element ( 14 ) and with at least one retaining element ( 11 . 12 . 22 . 24 . 25 ) according to one of claims 4 to 17. Use of a method according to one of claims 1 to 3, a holding element ( 11 . 12 . 22 . 24 . 25 ) according to one of claims 4 to 17 and / or a transport fastening according to claim 18 for attaching and / or transporting at least one article ( 13 ), in particular a rotor blade for wind turbines.