DE3743393A1 - Device for supplying energy to aircraft (from aircraft) - Google Patents

Abstract

A device is proposed for supplying especially aircraft, which device comprises a vertically displaceable column element (16), which is arranged in a shaft such that it can be lowered. Connections (42) for electrical power and/or compressed air and/or water originate from the column element (16). <IMAGE>

Description

The invention relates to a device for supply from e.g. Aviation standing on a surface like a stopping place testify with either below or above the surface arranged connected with at least supply cables Connections.

Correspondingly known devices have a in the area of parked aircraft arranged pivoting flap on the bottom with z. B. plug receptacles are provided, to be inserted into the connection cable to an airplane to be supplied with 400 Hz / 200 volts. It covers the swivel bare flap off a shaft that is open when one Power supply is desired. This results in the Disadvantage that the shaft quickly becomes dirty or in it e.g. B. large amounts of water can penetrate in rainy weather NEN, so frequent maintenance is required. In addition, must An explosion protection may be provided since the connections are always under Stand tension.

The object of the present invention is a device of previously described type so that a problem-free and almost maintenance-free provision of the required energies and possibly fluids. A robust structure and a high level of functionality are intended be guaranteed.

The object is achieved in that the Device comprises a vertically displaceable column element, opened by a frame arranged in a shaft is taken that in the side walls of the column element Connections for electrical energy and / or compressed air and / or Water are present and that the column element with a Cover is provided in a (retracted) end position of the column element is aligned with the opening of the shaft that in turn can be provided with a cover element that aligned to the surface, i.e. to the stand where the The aircraft is in the park position.

In particular, if the device according to the invention for Aircraft supplies are preferably in opposite side surfaces of the column element Connections for the 400 Hz / 200 V or 50 Hz / 220 V supply provided, an additional on a further side surface Emergency stop switch can be arranged. After another Design can also be compressed air via the column element and / or water can be passed. This will give you the opportunity created over the column element Luftfahrz invention euge with everyone for a proper and comprehensive Supply required energies or fluids.

The vertical displaceability of the column element can, for. B. done pneumatically, hydraulically or purely mechanically, whereby however, preferably moving the column element out the shaft via a cable or gas pressure springs he follows. For this it is only necessary that, for. B. one in the  Cover of the existing locking element is unlocked, in order to move the column element out of the floor surface to let.

According to a feature of the invention to be emphasized provided that the column member with a limit switch interacts through which the column element only then interacts with energy is supplied if the column element to a certain extent, e.g. B. 2/3 is extended from the extended end position. This has the advantage that explosion protection is not is required.

The column element, which preferably has a cuboid shape, is made of V2A steel can consist of a hollow cuboid shaped frame added after another Embodiment of the invention from horizontally extending Struts connected angle iron is built in which the column element is guided. The frame construction is preferably hot-dip galvanized. The column element is on the bottom open to introduce supply cables, which in turn are supplied by a Extend the wall of the shaft. Through an isolating transformer granted freedom of potential. Sparking cannot occur occur.

It should also be mentioned that the column element in the extended state is lockable to an unwanted To prevent sinking.

The shaft itself can be aligned with a cover element Bottom surface are closed, in which in turn the Cover in the retracted end position of the column element runs. The frame, the one on the cover side has circumferential flange, with the cover element itself or be connected with struts running in the shaft.  The former has the advantage that during maintenance or revisions the lid works together with the column element receiving frame can be removed as a unit.

The shaft is lined with a concrete wall. For this is first used in an excavation in the ground an outer frame provided with cladding as lost formwork brought in. The shaft is on the bottom with the sewer network connected to any ingress of water to be able to dissipate. Furthermore, a heater can be installed in the shaft be provided to ensure that even in the cold season a functionality of the invention Setup is ensured.

The fact that the frame and thus the opening in the lid element of the shaft of the cross-sectional geometry of the columns element is adapted, can also with extended columns element dirt, water and the like in the shaft not penetration. This ensures ease of maintenance.

According to a further proposal, the column element with the Covering with spacers such as Pipe sections connected to a signal in the space thus formed arrange element like lamp. This ensures that with extending or extended column element clear it can be seen that there is an obstacle in the floor area is.

The device according to the invention is of simple construction and high reliability inexpensive to manufacture, so that a corresponding facility is assigned to each parking position can be. The load-bearing capacity of the cover element or the Cover is chosen so that it is safe from Aircraft can be run over.  

It should also be mentioned that the column element connected supply cables flexibly arranged in the shaft is, with a special connector and plug Integrated pilot contact connects to the on the Shaft wall existing with a central supply system location connected electrical connection takes place.

Of course, the invention is not just for furnishing limited to parking areas of aircraft. Rather is a universal use wherever there is a temporary supply with e.g. Energy and / or water and / or compressed air necessary is possible, the decisive advantage being that the device can be sunk into the ground when not in use, so that there is no obstacle.

Further details, advantages and features of the invention arise not only from the claims that these taking features - for themselves and / or in combination -, but also from the description below one in the Drawing shown preferred embodiment.

Show it:

Fig. 1 is a perspective view of a first form from a supply guide means,

Fig. 2a shows a second embodiment of a Versorgungsein direction,

Fig. 2b is a sectional view of the supply device according to Fig. 2a,

Fig. 3 receiving in section, a supply device of FIG. 1 shaft,

Fig. 4 is a delivery ladder for an aircraft and

FIG. 5 shows an aircraft in the parking position, to which the supply device shown in FIGS. 1 and 2a is assigned.

To an aircraft ( 10 ), which is in a parking position ( 14 ) on a rolling surface ( 12 ), with 200 volts / 400 Hz and / or 220 V / 50 Hz and / or compressed air as starting air or z. B. to supply voltage for the air conditioning and / or water, a supply device ( 16 ) in the form of a cuboid column in a shaft ( 20 ) is vertically displaceable, which is embedded in the parking position ( 14 ) in the standing area ( 12 ) . Each parking position ( 14 ) or ( 22 ) and ( 24 ) according to FIG. 5 is assigned a separate supply device, which basically corresponds to that described with reference number ( 16 ) and in FIGS. 1 to 3.

As shown in Fig. 1, the supply device ( 16 ) comprises a cuboid column element which is vertically displaceably received by a frame ( 26 ). The frame itself can consist of horizontally extending struts ( 28 ), ( 30 ) connected angle iron ( 32 ), ( 34 ), ( 36 ), which are each hot-dip galvanized, with a circumferential flange ( 38 ) being provided in the upper region . The inner cross section of the frame ( 26 ) corresponds approximately to the outer cross section of the column element ( 16 ), so that the interior of the frame ( 26 ) is protected even in the extended state ( Fig. 1 and Fig. 2a or Fig. 3 dashed line).

Plug receptacles ( 42 ) and ( 44 ) are now embedded in preferably opposite side walls ( 38 ) and ( 40 ), via which, on the one hand, the 400 Hz / 200 volt supply for the aircraft (for example connection ( 42 )) and, on the other, a 220 volt / 50 Hz voltage (connection ( 44 )) is taken, for. B. cleaning work in the aircraft ( 10 ) with conventional devices such as vacuum cleaners and the like. Of course, the column can also be equipped with 12 V and 28 V DC voltage and 380 V AC voltage (CEE).

According to the invention, connections for compressed air and / or water can also be provided by the column element ( 10 ), so that the aircraft ( 10 ) has a comprehensive supply device that meets all requirements.

An emergency switch ( 48 ) can also be provided on a side wall - in the exemplary embodiment on the side wall ( 46 ) - in order to interrupt the energy supply if necessary.

The column element ( 16 ) consists of V2A steel and has a cover ( 50 ) at a distance, which is connected to the column element ( 16 ) by means of spacer elements ( 52 ), ( 54 ) in the form of pipe sections. The area of the cover ( 50 ) is larger than the cross section of the column element ( 16 ). In the retracted state ( FIG. 3, solid lines), the cover ( 50 ) is aligned with the cover element ( 56 ) which closes the shaft ( 20 ) and which in turn is flush with the driving surface ( 12 ). This ensures that the cover ( 50 ) and the cover element ( 56 ) can be run over by an airplane when the energy supply column ( 16 ) is retracted.

In the retracted state, the shaft ( 20 ) is completely closed, so that dirt, water or the like cannot penetrate or can only penetrate with difficulty. In the extended state (dashed line in FIG. 3), the latter is also not possible, since the opening in the cover element ( 56 ) is closed by the column element ( 16 ).

In order to make it clear when the column element ( 16 ) is moved out or is, a flashing element such as a rotating warning lamp ( 58 ) is arranged in the area between the cover ( 50 ) and the closed end face of the column element ( 16 ), which in turn is shielded by the cover ( 50 ).

The column element ( 16 ) is moved out of the frame ( 26 ) according to FIG. 1 via gas pressure springs (not shown) which run inside the column element ( 16 ) and which are fixed on the bottom of the shaft ( 20 ) or on the bottom on the frame ( 26 ). The strength of the gas pressure springs is preferably chosen so that, for. B. only a force of 5 Newtons on the cover ( 50 ) is required to sink the column ( 16 ) back into the shaft ( 20 ). In the retracted end position, a locking mechanism (not shown) then ensures that the column element ( 16 ) remains in this end position.

In FIGS. 2a and 2b show a further embodiment of a power supply device according to the invention in which those elements which are the same in FIG. 1, which are provided with the same reference numerals.

According to Fig. 1, the pillar member (16) is connected to the terminals of 400 Hz / 200 V and 50 Hz / 220 V or compressed air as a starting air or for use in an air conditioner or water by means of gas pressure springs out of the shaft, ie parallel to the longitudinal axis the frame ( 26 ) can be raised or lowered against its pressure. In order to provide an even more robust embodiment, according to FIGS. 2a and 2b, the column element ( 16 ) is subjected to the force of counterweights ( 76 ) and ( 78 ). A cable pull ( 82 ) extends from the counter elements ( 76 ) and ( 78 ), which is guided via a deflection roller ( 80 ) to the outside of the outer element ( 16 ) and is fixed there at point ( 84 ). As the sectional view according to FIG. 2b illustrates, the counterweights ( 76 ) and ( 78 ) are located on diametrical sides of the frame ( 26 ), so that a uniform weight distribution is ensured. In order to prevent an uncontrolled rocking movement of the counterweights ( 76 ) and ( 78 ), they are moved in lateral guides formed by U-profiles ( 86 ), ( 88 ), ( 90 ) and ( 92 ). If the column element ( 16 ) is now raised by locking the lock, not shown, the counterweights ( 76 ) and ( 78 ) support the pulling out of the column element ( 16 ) to the extent that good smoothness results. The counterweights ( 76 ) and ( 78 ) are dimensioned such that the column element ( 16 ) can be pushed into the frame ( 26 ) and thus into the shaft without great effort.

Bottom side, the column member (16) according to FIGS. 1 and 2a at least partially open to a supply cable (60) or not compressed air shown and / or water lines to introduce that of an electrical terminal (62) on the inner wall of the shaft ( 20 ) is arranged, comes and connects to the connections ( 42 ) and ( 44 ).

The shaft ( 20 ) is connected at the bottom to a drain line ( 64 ) in order to be able to discharge accumulated water. Furthermore, a heater (not shown) can be provided in the shaft ( 20 ), in order to ensure that the entire system is functional even in the cold season.

The connection between the supply column ( 16 ) and the aircraft ( 10 ) can take place via a delivery conductor ( 66 ), which is shown in FIG. 4. A supply cable ( 70 ) can be suspended from the front of the platform ( 68 ), which is connected on the one hand to the connector ( 42 ) and on the other hand to the aircraft ( 10 ) by a plug receptacle, not shown. In order to be able to supply conventional traffic machines with one and the same delivery ladder ( 66 ), the height of the platform should be, for example, 1450 mm and the railing ( 72 ) should be 900 mm high. However, this is not a limitation. The same applies to the supply column ( 16 ), which can preferably be moved 600 mm out of the shaft ( 20 ).

The electrical connector receptacles ( 42 ) and ( 44 ) can then be supplied with energy via a limit switch (not shown) when, for example, the supply column 2/3 of the extended end position has been pushed out of the shaft ( 20 ) (2/3 above floor level). This measure eliminates the need for additional explosion protection.

Claims (16)

1. Device for the supply of, for example, standing on a surface such as stopping place with optionally arranged below or above the surface arranged at least connected to supply cables connections, characterized in that the device comprises a vertically displaceable column element ( 16 ) by one in a shaft ( 20 ) arranged frame ( 26 ) that connections ( 42 , 44 ) for electrical energy and / or compressed air and / or water are present in side walls ( 38 , 40 ) of the column element and that the column element with a cover ( 50 ) is provided, which is aligned with the opening of the shaft in a (retracted) end position of the column element. 2. Device according to claim 1, characterized in that the column element ( 16 ) has a cuboid shape and preferably in opposite side surfaces ( 38 , 40 ) has plug receptacles ( 42 , 44 ) for connecting connecting cables. 3. Apparatus according to claim 2, characterized in that the column element ( 16 ) for carrying out the supply cable and / or compressed air and / or water pipes coming from an existing in the shaft ( 20 ) electrical connection ( 62 ) is at least partially open at the bottom. 4. The device according to claim 1, characterized in that the cover ( 50 ) via spacer elements ( 52 , 54 ) with the column element ( 16 ) is connected, a light element ( 58 ) being arranged in the space thus formed. 5. The device according to claim 1, characterized in that the column element ( 16 ) interacts with its vertical displacement availability with counterweights ( 76 , 78 ). 6. The device according to claim 1, characterized in that for the vertical displacement of the column element ( 16 ) preferably in its interior, for example from the frame ( 26 ) or the shaft bottom surface supporting gas pressure springs. 7. The device according to claim 1, characterized in that the column element ( 16 ) is connected to its vertical displacement availability with a pneumatic, hydraulic or mechanical actuator. 8. The device according to claim 1, characterized in that the cross section of the column element ( 16 ) is smaller than the area of the cover ( 50 ). 9. The device according to claim 1, characterized in that the shaft ( 20 ) is closed by a cover element ( 56 ) in which in the one (retracted) end position of the column element ( 16 ) its cover ( 50 ) runs in alignment. 10. The device according to claim 1, characterized in that the frame ( 26 ) has a circumferential flange ( 38 ) which is preferably connected to the cover element ( 56 ). 11. The device according to claim 1, characterized in that the frame ( 26 ) from horizontally extending struts ( 28 , 30 ) connected angle iron ( 32 , 34 , 36 ), between which the column element ( 16 ) is arranged guided. 12. The apparatus according to claim 1, characterized in that the shaft ( 20 ) has a heater. 13. The apparatus according to claim 1, characterized in that the shaft ( 20 ) is connected on the bottom side to a drain ( 64 ). 14. The apparatus according to claim 1, characterized in that the column element ( 16 ) is locked in the retracted end position via a locking mechanism. 15. The apparatus according to claim 1, characterized in that the inner free surface of the frame ( 26 ) is adapted to the cross section of the column element ( 16 ). 16. The apparatus according to claim 1, characterized in that the shaft ( 20 ) is provided with an outer frame serving as lost formwork.