EP1710204A2 - Industrial truck with a device for communicating with an identification system mounted on a vertically movable forks carrier - Google Patents

Abstract

A communication device (2) for communicating with an identification system is arranged on a vertically movable fork carrier (1). An electric drive (10), bearings (12,14) and rails (17,18) cooperate to change the position of the communication device.

Description

The invention relates to an industrial truck with at least one vertically movable fork carrier and at least one device arranged on the fork carriage for communication with an identification system. The invention also relates to a method for operating such a truck.

Forklifts usually have a vertically movable fork carrier and arranged on the vertically movable fork carrier load-carrying means to raise or lower loads and carry for transport. A typical example of this is a counterbalance forklift where the load handler essentially consists of a forklift attached to a fork carriage. The fork carriage is mounted vertically movable on a mast. Instead of the fork, other attachments such as drum clamps can be mounted. In some types of industrial trucks, such as pallet trucks, fork carriage and forks can also form a structural unit.

Goods or load carriers, such as pallets or lattice boxes, are often provided with identification means containing information about the goods or the load carrier, such as identification or destination. In addition to readable by optical means identification means, such as bar code labels, RFID transponders are often used, which communicate with a reader via radio waves. In order to read out and / or modify this information, it is known to attach appropriate readers to industrial trucks. When using RFID technology, these reading devices usually consist of an antenna unit which emits and receives corresponding radio signals and an evaluation unit. The area covered by the antenna is, depending on the design of the antenna of different shape and size, but has mostly approximately conical shape. Preferably, the antenna unit is to bring as close to the transponder to be read, so an arrangement on the fork carriage of the truck is advantageous. A reliable communication is still often not possible because the reception range of the antenna unit is spatially limited and additionally by interference or shading of the antenna unit by Parts of the load or the truck is reduced. Also, the orientation of the antenna unit to the transponder plays an essential role in the transmission quality.

From the US 2003/0089771 A1 It is known to attach several antennas on the load-side part of the fork carriage, so as to ensure good reception. However, this arrangement has a number of disadvantages: The transmission of the signals from the antennas to an evaluation unit arranged in the truck and the power supply of the antennas is carried out via a plurality of cables, which means great expense. The attachment of the antennas on the fork carriage requires expensive devices. In addition, the relatively large antennas hinder the operator's view and thus pose a security risk. Also, the antennas or their brackets can be easily damaged. The evaluation of the signals of many antennas requires a complex evaluation unit. As a result of the multiplicity of antennas, the production costs and the manufacturing costs as well as the maintenance costs for the industrial truck thus increase enormously.

The invention is therefore an object of the invention to provide an industrial truck with at least one vertically movable fork carriage and at least one arranged on the fork carriage device for communicating with an identification system that is easy to manufacture, reliable communication allows and improves the operator's view.

This object is achieved according to the invention by providing means for changing the coverage area covered by the device for communication with an identification system. In unfavorable reception situations, the communication with a specific identification means can be improved by changing the coverage area. For example, a restriction or shift of the covered detection range can hide interference signals. By shifting the covered detection range, it is also possible to read out different identification means without changing the location of the truck.

In a particularly advantageous embodiment of the invention include the for changing the of the device for communication with a Means provided at least one device for rotating at least one transmitting and / or receiving antenna about an axis parallel to the vehicle longitudinal axis and / or about an axis parallel to the vehicle transverse axis and / or an axis approximately parallel to the vehicle vertical axis. By pivoting the transmitting and / or receiving antenna, a wide range can be selectively read out. When pivoting about an axis that is approximately parallel to the vehicle transverse axis, the covered area can be varied in the vertical direction, while pivoting about an axis that is approximately parallel to the vehicle vertical axis causes a lateral variation. By a rotation about an axis parallel to the vehicle longitudinal axis, the antenna can be optimally aligned to the transponder.

In a further particularly advantageous embodiment of the invention, the means provided for changing the detection range covered by the device for communication with an identification system comprise at least one device for displacing at least one transmitting and / or receiving antenna in a plane approximately parallel to the fork carrier. This plane is defined by the cross members and the elements connecting them, such as reel seat, of the fork carriage and is mostly oriented approximately perpendicular to the footprint and the longitudinal axis of the truck. By shifting in this plane, the antenna can be brought into a better transmitting and / or receiving position, especially in shading by parts of the load or the truck. Such a shift may also be advantageous in order to distinguish between adjacent or adjacent pallets. For example, a shift from an upper portion of the fork carriage to a lower portion makes it possible to distinguish between identification means located on a picked pallet and those mounted in the ground.

In a particularly expedient embodiment of the invention, the means provided for changing the detection range covered by the device for communication with an identification system comprise at least one device for displacing at least one transmitting and / or receiving antenna in approximately vertical and / or approximately horizontal direction.

Shifts in these directions are parallel to main structural elements of the fork carriage and therefore particularly easy to accomplish.

Advantageously, means are provided for detecting and / or storing the displacement and / or rotation of the transmitting and / or receiving antenna. By storing a position of the antenna, it is possible to target it again at any time. This makes it possible to change the coverage specifically and, for example, by storing positions with particularly good or particularly poor reception targeted to approach or avoid.

It is expedient for the means for modifying the coverage area covered by the device for communication with an identification system to be in operative connection with a control device in such a manner that the coverage area covered depends on the condition parameters of the industrial truck, in particular the lift height and / or load weight and / or inclination a lifting mast and / or position of the truck and / or vehicle speed and / or vehicle acceleration, is automatically changed. The means for modifying the detection range covered by the device for communication with an identification system are actuated by a control device which receives information about the condition of the industrial truck, for example from sensors of the industrial truck. By the control device automatically changes the orientation of the reception area as a function of this information, an optimal coordination of the alignment of the detection area with the tasks to be performed is ensured without the operator having to intervene.

Furthermore, it is expedient if the transmitting and / or receiving antenna for transmitting signals in a wavelength range of 868 MHz to 920 MHz and / or in a wavelength range of 125 to 135 kHz and / or at a wavelength of approximately 13.56 MHz and / or at a wavelength of approximately 2.45 GHz, preferably for communication with RFID transponders is provided. The use of RFID transponders, which usually operate in one of the specified wavelength ranges, as identification means is widely used. Therefore, such a system is inexpensive and easy to manufacture. at If several wavelength ranges are used, different transponder types can be read out.

It is also expedient if the device for displacing the transmitting and / or receiving antenna and / or the device for rotating the transmitting and / or receiving antenna has at least one electric and / or hydraulic and / or pneumatic drive. Electrical energy is easily available on industrial trucks, electric drives are small, light and powerful and easy to control. Hydraulic drives can also be supplied via the hydraulic system, which is usually available on forklift trucks, are robust and in particular enable simple linear adjustment. Pneumatic actuators are simple in design, contain no harmful medium and are particularly suitable for use in potentially explosive atmospheres.

With regard to the method, the object is achieved according to the invention in that a detection of signals of an identification system is carried out in at least two different settings of the detection area. As a result, interference can be suppressed, which are generated for example by reflection on metal parts or by adjacent transponder.

In an advantageous embodiment of the invention, a localization of at least one transponder is performed by comparing the data received at at least two different settings of the detection range. The signals, which are different in the case of different detection ranges, enable the signals from transponders located in edge regions of the respective detection ranges to be separated. So it is possible to locate a transponder.

With regard to the method, the object is further achieved according to the invention in that displacements and / or rotations of the transmitting and / or receiving antenna are dependent on parameters of the industrial truck, in particular the position of the industrial truck and / or position of the load receiving device, and / or parameters of the load, in particular identification of the load and / or type of the load carrier means are stored and, when at least one of these parameters reappears, the stored displacements and / or rotations of the transmitting and / or receiving antenna are automatically carried out. Frequently in certain Situations, for example, on a particular shelf or when using a particular pallet type; given characteristic reception situations in which the reception can be optimized by a specific position of the receiving antenna. By storing the ideal setting of the rotation and / or displacement of the antenna pertaining to these situations, it is possible, when the situation re-emerges, to place the antenna in the optimum position from the beginning and thus save time for another search for that position , For example, a position can be saved where pallets of a certain type can be read out particularly well, and specified when working with this type of pallet.

Further advantages and details of the invention are explained in more detail below with reference to the embodiment shown in the drawing. The figure shows schematically a fork carriage 1 of a truck according to the invention with a arranged in the region of the fork carriage 1 communication device. 2

The fork carriage 1 consists essentially of a lower cross member 3 and an upper cross member 4, which are connected by roll holder 5. On the roll holders 5 rollers 6 are mounted, with which the fork carriage 1 is mounted vertically movable on a mast of a truck, not shown here. At the fork carriage 1 different attachments can be attached. In the illustrated embodiment, these are two forks 7, but also Fassklammem, dome or other attachments according to the prior art are conceivable.

The communication device 2 essentially consists of an antenna 9 arranged in a housing 8 for communication with RFID transponders. The antenna 9 is rotatable about an axis 11 by means of an electric drive 10 designed, for example, as a stepper motor. This allows a favorable orientation to a rotated transponder can be set. The housing 8 is mounted in a pivot bearing 12, which allows tilting of the device 2 about an axis 13 parallel to the vehicle transverse axis. The pivot bearing 12 in turn is connected via another pivot bearing 14, which allows a rotational movement of the housing about an axis parallel to the vehicle vertical axis 15, with a support 16 which is mounted vertically movable on a rail 17.

The rail 17 is laterally movably attached to other rails 18, which in turn are attached to the cross members 3, 4 of the fork carriage 1. To drive the rotational movements and the displacements are respectively designed as electric stepper motors electrical drives 10, 19a-d, which are controlled by a control unit, not shown here.

The control unit is usefully integrated into the evaluation unit, which processes the signals received by the antenna 9, but embodiments are also conceivable in which the control unit is provided, for example, as an independent component or integrated into other devices. The antenna 9 is capable of transmitting signals in a wavelength range of 868 MHz to 920 MHz and in a wavelength range of 125 to 135 kHz and at a wavelength of approximately 13.56 MHz and at a wavelength of approximately 2.45 GHz. The selection of the frequency range is made by the evaluation unit.

During normal operation, the antenna 9 is preferably oriented so that the area of the load forks 7 is covered as evenly as possible, i. The device 2 will be arranged approximately without lateral rotation with a slight inclination forward. If signals from several transponders are detected, as may be the case, for example, when pallets are close together, the stepping motor 19b is driven such that the device 2 about the axis 15 by a certain angle, preferably 10 ° -60 °, after both Pages is pivoted. Transponders whose signal disappears during this swiveling movement are no longer taken into account in the evaluation of the signals. Should there continue to be signals from more than one transponder, the signals from transponders located above or below the pallet can be excluded by a tilting movement of the device 2 about the axis 13 according to the same principle. Embodiments are also conceivable in which the detection range is changed continuously, for example according to the above-described motion scheme, in order to automatically determine the best reception position.

In special applications, a coupling of the rotation and / or displacement of the antenna 9 in dependence on state parameters of the truck or the charge to be absorbed is conceivable, so that, for example, if it is known in the control unit for the antenna 9 which type of charge is to be picked up, the antenna is automatically aligned in the ideal receiving position. If, for example, different pallets with different placement of the transponder are to be accommodated, a preselection option for the pallet type can also be provided by the operator, so that the antenna 9 is aligned in accordance with this specification in the optimum receiving position. In addition, the possibility of adjusting the antenna 9 is given by an operator on stand-alone, not shown here operating devices, for example, to remove the antenna 9 from the field of view or specifically cover a specific area or to save.

Sometimes transponders with position information are also embedded in the road to allow a location of the truck. For this purpose, an antenna is arranged in vehicles according to the prior art on the vehicle underbody. This is very complex and there is a high risk that the antenna will be damaged during operation. By the device 2 is rotated by 180 ° about the axis 15, brought along the rail 17 in the lowest position and the inclination is adjusted by rotation about the axis 13 so that the receiving area of the antenna 9 is directed to the road, can also in the roadway arranged transponder can be read out. Preferably, the antenna 9 is moved automatically during driving in this read-out position. Whether the vehicle is in driving mode or in shunting operation, can be determined by a coupling of the control unit with sensors of the truck, for example with a speed sensor. Since position information is usually read out only during travel and load information primarily when picking up or setting down the load, it is possible to perform both functions with a single antenna 9, which is why a separate antenna for reading the position information is not required.

Of course, simpler devices than those shown in the embodiment are conceivable to align the antenna 9 and move. For example, depending on the embodiment, a pivoting about only one axis may be required or a displacement in only one direction, so that only the required pivoting or displacement devices are provided. By using stepper motors as drives 10, 19 ad for the displacement and rotation of the antenna 9 ensures that the position of the antenna 9 is known at all times. If necessary, the correctness of the information can be checked by methods for suitable reference points, for example the end points of the respective direction of movement. However, it is also the use of servo motors in conjunction with position sensors conceivable.

The drive for the adjusting devices can for example also be hydraulic or pneumatic, with the former probably being the preferred embodiment in most cases due to the hydraulic system already present in industrial trucks. The use of only one of the aforementioned frequency ranges is conceivable depending on the application. If other identification systems are to be used instead of RFID transponders, other transmitting and / or receiving units are to be provided, for example also optical systems.

Claims (11)

Truck with at least one vertically movable fork carrier (1) and at least one arranged on the fork carriage (1) device (2) for communicating with an identification system, in particular with an RFID transponder, characterized in that means (10, 12, 14, 17 , 18) are provided for changing the detection range covered by the device (2) for communication with an identification system. Industrial truck according to Claim 1, characterized in that the means (10, 12, 14, 17, 18) for changing the coverage area covered by the device (2) for communication with an identification system comprise at least one device (10, 12, 14) for Rotation of at least one transmitting and / or receiving antenna (9) about an axis parallel to the vehicle longitudinal axis (11) and / or approximately parallel to the vehicle transverse axis axis (13) and / or about an axis parallel to the vehicle axis parallel axis (15). Industrial truck according to Claim 1 or 2, characterized in that the means (10, 12, 14, 17, 18) provided for changing the coverage area covered by the device (2) for communication with an identification system comprise at least one device (17, 18) for Displacement of at least one transmitting and / or receiving antenna in a fork carriage (1) approximately parallel plane include. Industrial truck according to one of Claims 1 to 3, characterized in that the means (10, 12, 14, 17, 18) provided for changing the coverage area covered by the device (2) for communication with an identification system comprise at least one device (17, 18 ) for shifting at least one transmitting and / or receiving antenna (9) in approximately vertical and / or approximately horizontal direction. Truck according to one of claims 1 to 4, characterized in that means for detecting and / or storing the displacement and / or rotation of the transmitting and / or receiving antenna (9) are provided. Truck according to one of Claims 1 to 5, characterized in that the means (10, 12, 14, 17, 18) for changing the detection range covered by the device (2) for communication with an identification system are in operative connection with a control device, the covered detection area can be changed independently as a function of the condition parameters of the industrial truck, in particular of the lifting height and / or load weight and / or inclination of a lifting mast and / or position of the industrial truck and / or vehicle speed and / or vehicle acceleration. Truck according to one of claims 1 to 6, characterized in that the transmitting and / or receiving antenna (9) for transmitting signals in a wavelength range of 868 MHz to 920 MHz and / or in a wavelength range of 125 to 135 kHz and / or at a wavelength of approximately 13.56 MHz and / or at a wavelength of approximately 2.45 GHz, preferably for communication with RFID transponders. Truck according to one of claims 1 to 7, characterized in that the device (17, 18) for displacement of the transmitting and / or receiving antenna and / or the device (10, 12, 14) for rotation of the transmitting and / or receiving antenna (9) has at least one electric and / or hydraulic and / or pneumatic drive (10, 19a-d). Method for operating an industrial truck according to one of claims 1 to 8, characterized in that a detection of signals of an identification system is carried out at at least two different settings of the detection range. A method according to claim 9, characterized in that a localization of at least one transponder is performed by comparing the data received at at least two different settings. Method for operating an industrial truck according to one of claims 1 to 8, characterized in that displacements and / or rotations of the transmitting and / or receiving antenna (9) in dependence on parameters of the truck, in particular position of the truck and / or position of the lifting device, and / or parameters of the load, in particular identification of the load and / or type of the load carrier means are stored and at re-occurrence of at least one of these parameters automatically the stored shifts and / or rotations of the transmitting and / or receiving antenna (9) are performed.

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