The invention concerns a crane and a carrier vehicle having such a crane.
A crane which is not in accordance with the general kind set forth is known from WO 2017/164781 A1.
A crane of the general kind set forth is now known on the market. The image acquisition system is arranged beneath a tip of the jib beside the jib. In this case also the field of view of the image acquisition system is restricted.
The object of the invention is to provide a crane of the general kind set forth, which permits a greater field of view for the image acquisition system, and a carrier vehicle having such a crane.
That object is attained by a crane having the features of claim 1 and a carrier vehicle having such a crane. Advantageous embodiments of the invention are defined in the appendant claims.
Because it is provided with the invention that the image acquisition system is arranged on a tip of the jib that forms a highest point of the jib the field of view is restricted neither by horizontally extending jibs nor by a jib projecting upwardly beside the image acquisition system. That basically permits a field of view of 360° in a horizontal plane, the invention not being restricted to such an all-round view. For example a field of view of at least 290° may be sufficient.
A further advantage is that the image acquisition system is better protected in the transport position as it does not extend away from the lift column.
In addition the arrangement provides a more compact structural shape.
In an embodiment of the invention it is provided that the image acquisition system is arranged rigidly relative to the tip of the jib. It is advantageous in that respect that no adjustment mechanism is required for the image acquisition system, by virtue of the large field of view according to the invention.
In an embodiment of the invention it is provided that the image acquisition system has at least one and preferably at least three cameras which are preferably arranged in a common housing. Alternatively the use of a single camera is also conceivable, which has an optical imaging means which makes use of the large field of view provided according to the invention.
In an embodiment of the invention it is provided that the image acquisition system in the transport position is arranged at least substantially completely in or behind a protective cover arranged on the lift column. It can preferably be provided that a cover of the image acquisition system closes the protective cover arrangement in the transport position.
In an embodiment of the invention it is provided that a lighting device is arranged on the jib beneath the image acquisition system in the region of the tip of the jib, wherein it is preferably provided that the lighting device is arranged sunk in the jib in such a way that it is retractable jointly with the jib into the lift column. The arrangement adopted here in the region of the tip permits on the one hand optimum illumination in the field of view of the image acquisition system while on the other hand it avoids blinding of the image acquisition system. If the lighting device is arranged sunk in the jib this affords optimum protection—in particular but not just—in the transport position. In addition a lighting device which is arranged in a sunk position does not impede movement of the jib.
It can preferably be provided that the lighting device includes at least one spotlight.
In an embodiment of the invention it is provided that the lift column and the jib includes an angle different from zero with the crane column in a vertical plane which has both the lift column and also the crane column. A vertically extending lift column would admittedly also be conceivable in itself. The selected inclined implementation of the lift column, upon extension of the jib, provides for a displacement of the image acquisition system relative to the crane column away from same and thus permits a better view into a region hidden by the crane column. The inclined implementation of the lift column means that in an extended state of the jib it is possible to achieve a great lateral spacing in respect of the crane column without corresponding extension being required in the transport position.
In that respect it is provided that a housing of a crane control, that is arranged on the crane column, is arranged in a lower region of the crane column. Accordingly the housing of the crane control does not conceal a view on to a support arrangement of the crane. Therefore there is no need for an additional image acquisition system in the region of the support arrangement.
In an embodiment of the invention it is provided that the image acquisition system has a computing unit which from signals of at least one camera of the image acquisition system computes visualisation data for a visualisation unit arranged outside the image acquisition system. Therefore so-to-speak a part of the computing involvement necessary for producing a representation (in particular compression of data) is shifted into the image acquisition system itself. Accordingly much less data has to be transmitted to the visualisation unit which is arranged outside the image acquisition system (that unit is usually disposed in a driving cab of a carrier vehicle of the crane), and that reduces the bandwidth required for that purpose.
In an embodiment of the invention it is provided that the image acquisition system has at least two cameras and there is provided an interface which collects signals of the at least two cameras and possibly—when the reference back to the above-described embodiment applies—communicates same to the computing unit. That reduces a connection complexity and cost (generally by way of cables, but it can also be wirelessly) from the individual cameras to the computing unit as the connection is only from the cameras to the (joint) interface. An even greater advantage is that the connection complexity and cost from the image acquisition system to a visualisation unit arranged outside same (for example in a driving cab of a carrier vehicle) is minimised. That facilitates the use of wireless connections.
In an embodiment of the invention it is provided that there is provided a device for producing an air curtain for at least one protective glass of the image acquisition system for preventing contamination of or moisture on the protective glass, wherein the device for producing the air curtain has an interface for linking to a compressed air supply of a carrier vehicle of the crane. A specific compressed air generation means on the crane is therefore not necessary. It is also not necessary to arrange a climate control assembly on the crane.
In this embodiment of the invention it is preferably provided that there is provided an air curtain control device which blocks production of the air curtain outside of operation of the image acquisition system. It is thus possible in that way to avoid a compressed air supply on the carrier vehicle being exhausted.
In an embodiment of the invention it is provided that there is provided a temperature control device for the image acquisition system, wherein the temperature control device has an interface for temperature control medium, preferably compressed air, that is provided by a carrier vehicle of the crane, and/or for the power supply for the temperature control device.
Embodiments of the invention are discussed with reference to the Figures in which:
The lifting device 1 has a lift column 4 and a jib 5 which extends in a straight line and which is retractable into and extendable from the lift column 4. An image acquisition system 2 is arranged on a tip of the jib 5, that forms a highest point of the jib 5.
The image acquisition system 2 can be raised and lowered by the lifting device 1 and serves for image acquisition of a region of a crane environment, that is not directly visible for an operator of the crane 32. It will also be appreciated that a region which is directly visible to an operator of the crane can also be viewed by the image acquisition system 2. The image acquisition system 2 is moveable upwardly by extension of the jib 5 out of the lift column 4 and can be lowered by retraction of the jib 5 into the lift column 4 into a transport position in which the jib 5 is disposed substantially completely in the lift column 4 and the image acquisition system 2 is moved towards the lift column 4.
In a vertical plane which extends both through the lift column 4 and also through the crane column 8 the lift column 4 and the jib 5 include an angle which is different from zero with the crane column 8 (see
A housing 9 of a crane control, that is arranged on the crane column 8, is disposed in a lower region of the crane column 8. As shown in
The image acquisition system 2 is arranged rigidly relative to the tip of the jib 5 and in the illustrated embodiments includes four cameras 3 arranged in a common housing which is closed by a cover 10.
In the illustrated view the jib 5 is substantially completely extended from the lift column 4. The image acquisition system 2 is moved away from the lift column 4 by virtue of the extension of the jib 5. In the retracted state of the jib 5 the image acquisition system 2 in the transport position is substantially completely in or behind a protective cover 11 arranged on the lift column 4 and is thereby protected from external influences.
Arranged beneath the image acquisition system 2 in the region of the tip of the jib 5 is a lighting device including two spotlights 6 on the jib 5, wherein the lighting device is arranged sunk in the jib 5 (see
Number | Date | Country | Kind |
---|---|---|---|
18183443.3 | Jul 2018 | EP | regional |