The present invention relates to a remote control for controlling machinery, which can be applied in the industry for the control of industrial equipment, mobile machinery, construction cranes, etc., and more specifically in the field of remote controls for controlling machinery by radio frequency.
Remote controls for controlling machinery or cranes by radio frequency generally consist of a remote control transmitter which can be a push button panel, a console and other types of transmitter according to the application, where said transmitter is partly managed by an operator, through which said operator can remotely provide instructions to the machine or crane. The transmitters tend to incorporate a plurality of mechanisms which can consist of push buttons, rotary buttons, selector switches, joysticks or levers, each of which has a different function.
On the other hand, as a safety measure, these remote controls generally include a key which must be introduced by the operator into a slot arranged for such purpose in the remote control and which allows him/her to handle the transmitter, such that without said key the transmitter is deactivated and the remote control cannot be used. Logically, said key aims to assure that only authorized staff can handle the machinery by means of the transmitter. The assured level of safety can also be more or less demanding according to different national regulations.
Likewise, these remote controls tend to incorporate a starter or an activation button which allows activating the machine while awaiting a command. Additionally, after said relay activation, that starter button tends to set off a warning siren, such that the staff surrounding the machine is warned by means of sound signals of the fact that the machine is in a working position, i.e., activated.
Finally, some applications additionally require a selector switch which allows choosing from among a predefined number of positions or options. The number of positions depends on each specific application of the remote control.
From the mechanical and electronic viewpoint, it is a technical challenge to provide all the aforementioned functions in a single remote control given the cost and dimensional difficulty. However, it provides huge advantages in terms of the remote control ergonomics and customization capability.
The present invention relates to a remote control for controlling machinery as defined in claim 1. Other aspects of the invention, as well as a preferred embodiment thereof are defined in the dependent claims.
The possibility of the RFID key using a reader inside the casing of the remote control is contemplated. This reader can be communicated with an RFID identification tag located in the key located in the outer portion of the casing. Since said tag has an electronic identification unit, preferably a 64-bit unique identifier (UID) and a memory, it allows advanced functionalities for access control with different authorization levels, a very high level of security against non-authorized accesses, configuration and equipment customization data storage, etc.
On the other hand, incorporating two three-dimensional Hall effect sensors inside the casing of the remote control is contemplated. One of said sensors is responsible for measuring the interference magnetic field reference, while the other sensor measures the magnetic field of a magnet housed in the multifunction identifier device, where the term identifier corresponds to said device as it incorporates the unique RFID user identification tag, and the term multifunction refers to a button function and to its performance as a selector switch with 1 to 5 positions, as will be described below in more detail. Based on said magnetic field, the angle indicative of the position of the selector switch as well as a possible siren/start pulse can be known.
The remote control comprises a plurality of parts designed for housing both the aforementioned RFID tag and magnet, further providing the key with resistance against industrial environments and the ergonomics necessary for controlling lifting machinery and cranes. Additionally, at the same time, a system which allows customizing the assembly for obtaining a 1, 2, 3, 4 or 5 step selector switch, as required by the user, has been developed. For this purpose, the central body comprises a turn and push lever which has 4 holes through which a nail acting as a stop can be introduced, which allows customizing the assembly as a 1, 2, 3 and 4 step selector switch. Without adding the nail, the system conventionally provides 5 steps. A simple way of providing a selector switch with a different number of steps depending on each application is thus achieved.
The greatest difficulties in the development of a solution lie in obtaining elements which allow achieving user's feeling for the mechanism, as well as the robustness and durability thereof. Furthermore, difficulties have also been encountered in ensuring that the magnet necessary for the starter button/siren and selector switch function does not excessively reduce the range of the system, while at the same time generates sufficient magnetic field for the correct operation of the selector switch and of the RFID starter button/siren.
The remote control proposed by the invention allows, with reduced dimensions, optimizing the cost and size of remote control transmitters by implementing at least the start and key functions, and optionally the selector switch function. Furthermore, according to a preferred embodiment the shell of the remote control does not need holes which compromise the tightness of the remote control, which is very useful in industrial environments in which the remote control operates.
Therefore, the remote control of the invention implements the key function, the starter button function, optionally the siren function, and also optionally, the selector switch function in a single, low-cost, very small-sized element. In the case of the selector switch option, the starter button or siren function can change according to the position of the selector switch, being used for example to switch on a spotlight, a camera, etc. To that end, in addition to the radio frequency identification system, abbreviated as RFID, and the Hall effect system, mechanical elements which, as detailed below in a preferred embodiment of the invention, allow housing all the components relating to said RFID and Hall effect systems, providing suitable resistance and ergonomics for said applications, have been designed.
To complement the description that is being made and for the purpose of aiding to better understand the features of the invention according to a preferred practical embodiment thereof, a set of drawings is attached as an integral part of said description in which the following has been depicted with an illustrative and non-limiting character:
In view of the mentioned drawings, it can be observed how the remote control comprises in one of the possible embodiments of the invention a multifunction identifier device (1) which is made up of a series of parts that are coupled to one another as detailed below.
The assembly of a bearing (2) comprised by the remote control can be seen in
The assembly of a central body (7) comprised by the remote control can be seen in
The tag, in addition to the corresponding signaling, fixes and conceals the nail while at the same time prevents the accidental removal thereof.
The central body (7) comprises a central part (9) with a cylindrical configuration with a wider upper portion, where said central part (9) has a plurality of guides and stops (10, 11) which provides the system with the desired operation. Said guides and stops are broken down into upper guides and stops (10), located in the upper portion of the central part (9), and are intended for limiting and guiding the movement of the entire assembly formed by the central body (7) and bearing (2) along the suitable route. On the other hand, the guides and stops are broken down into central guides and stops (11), located in the central portion of the central part (9), serving to guide and position the bearing (2) with respect to the assembly of the multifunction identifier device (1).
The multifunction identifier device (1) incorporates a magnet, which allows activating the HALL effect sensor. The magnet is incorporated within an additional part (14), as can be seen in
Likewise, said
For the assembly of the multifunction identifier device (1) in a push button panel (16), the remote control of the invention comprises an adjustment ring (17).
In view of this description and set of drawings, the person skilled in the art will understand that the embodiments of the invention which have been described can be combined in many ways within the object of the invention. The invention has been described according to several preferred embodiments thereof, but for the person skilled in the art it will be evident that multiple variations can be introduced in said preferred embodiments without exceeding the object of the claimed invention.
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5647818 | Moody | Jul 1997 | A |
6295887 | DeJonge et al. | Oct 2001 | B1 |
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Number | Date | Country | |
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20140096637 A1 | Apr 2014 | US |