Registers – Coded record sensors – Particular sensor structure
Reexamination Certificate
2001-02-20
2002-11-12
Le, Thien M. (Department: 2876)
Registers
Coded record sensors
Particular sensor structure
C235S462230, C235S454000
Reexamination Certificate
active
06478226
ABSTRACT:
BACKGROUND
1. Field of the Invention
The present invention relates to a coded information reader comprising a device for controlling a plurality of distinct actions, and to a method for controlling a coded information reader of said type.
2. Related Art and Other Considerations
In the following description and in the subsequent claims, the expression “coded information reader” is used to indicate any device capable of acquiring information relating to an object (for example distance, volume, size, or its identification data) through the acquisition and processing of a luminous signal diffused by the same object.
In the following description and in the subsequent claims, the expression “coded information” is used to indicate all identification data contained in an optical code.
In the following description and in the subsequent claims, the expression “optical code” is used to indicate any graphic representation having the function of storing a coded information.
An example of optical code comprises linear or bidimensional codes, wherein the information is coded through suitable combinations of elements having predetermined shape, such as for example squares, rectangles or hexagons, dark-colored (usually black), separated by light elements (spaces, usually white) such as bar codes, stacked codes, and bidimensional codes in general, color codes, etc. Further examples of “optical codes” comprise graphic shapes with the function of information coding, including light printed characters (letters, numbers, etc.) and particular patterns, such as for example stamps, logos, signatures, fingerprints, etc.
Graphical representations detectable outside the field of visible light can also be regarded as “optical codes”, for example in the wavelength range comprised between infrared and ultraviolet.
Known coded information readers essentially comprise:
a luminous source for generating a luminous beam which is projected on the coded information to be read, for example through slits and lenses, in general referred to with the expression “illumination optics”;
optical elements adapted to collect and focus the light diffused by the coded information, for example slits and lenses, in general referred to with the expression “reception optics”;
photosensitive elements on which the light collected by the reception optics is focused, adapted to detect the light diffused by the coded information and convert it into an electrical signal, which reproduces as accurately as possible the reflectance modulations of the elements forming the coded information; as well as
processing means for interpreting or decoding the coded information for obtaining the significant information incorporated therein, such as for example the manufacturer's name, the name of the specific product, the production batch, the price, etc.
The luminous source may comprise LEDs or lasers, whereas the photosensitive elements may comprise a single photodiode, a linear or matrix CCD (Charge Coupled Device) or C-MOS (Complementary Metal Oxide Silicon). Finally, coded information may be read by means of fixed or hand-held readers.
One of the fundamental problems of coded information readers is that their continuous improvement has made them more and more sophisticated, i.e. they are provided with a higher and higher number of functions and controls upon which their operation is based. As the number of functions executable by such readers increases, the user interface complexity also increases. In this sense the term “interface” is used to indicate all control devices provided to the user for activating the different functions of the reader.
In particular, in order to make such readers capable of carrying out a plurality of functions, there is the need of performing a plurality of distinct actions. Such actions include, for example, the optical code aiming action and the optical code scanning action, the latter involving the acquisition of the coded information to be read and the decoding of the same.
According to the prior art, the control of two distinct actions is carried out by means of a double-action mechanical control switch. The switch is provided with a driving lever which can be positioned in three positions. One of the positions of the lever is inactive and two positions are active. Each active position of the lever corresponds to the opening or closing of a respective electrical contact provided in the circuit for actuating the two distinct actions. Switches of said type are commercially available with the SKQA and SKHF codes (Alps Electric Co Ltd).
If used in the field of coded information readers, such switches are particularly cumbersome, which is a limit to the miniaturization of the readers. Moreover, double-action switches have proven not to be sufficiently robust to ensure a reasonable lifetime. Last but not least, these components are difficult to find on the market.
A further teaching of the prior art for controlling two distinct actions is the use of two single-action mechanical control switches.
The single-action control switches, which can be actuated by the user by means of one or more mechanical levers, have proven to be more robust than the above double-action switches. Nevertheless, although they consist of easily found components, the single action control switches require a complex design from the mechanical point of view. Moreover, the flexibility of use is limited, since the user does not have the possibility of directly passing to the second action while bypassing to carry out the first action. This last disadvantage is evident, for example, when a skilled user—for whom the aiming action may be superfluous—want to pass directly to the image scanning action so as to quicken the reading step.
SUMMARY
The present invention provides a coded information reader and a method for controlling a coded information reader, which facilitates both robustness and reliability of the control device, and a control of the device size in view of its application in small-sized readers, while ensuring flexibility of use of the reader by the user.
According to a first aspect of the invention, a coded information reader comprises a device for controlling a plurality of distinct actions, including a plurality of actuators arranged in sequence downstream of a driving device mobile between an inactive position and a plurality of positions active, respectively, on the status of said plurality of actuators. The actuators are driven by the driving device, and at least one actuator is of a physical-control type.
In the following description and in the subsequent claims, the expression “mechanical control actuator” is used to indicate any actuator activated by an activating means of the mechanical type which operates by displacing one or more mechanical gears, such as push-buttons, levers, cursors, compensators, etc. The expression “physical control actuator”, on the other hand, is used to indicate any actuator with no mechanical activating means. Physical control actuators may be activated, for example, by light, by an electromagnetic field, by pressure, by temperature, by an acoustic signal, etc.
The expression “distinct actions” is used to indicate both permanent actions, which continue in time also when the action of the actuator ends (such as for example, the switching on of a luminous source, a typical operation of the switch), and temporary actions, which only last for the duration of the actuator action.
Advantageously, thanks to the presence of at least one physical control actuator, the coded information reader of the invention has a flexibility wherein the user can bypass one or more specific actions and thus pass directly to the desired action by simply positioning the driving device to the position active on the status of the actuator which generates the desired action.
Moreover, physical control actuators are intrinsically more robust and reliable with respect to mechanical control actuators, thus advantageously contributing to impart robustness and reliability to the coded information reader of the invention.
According
Canini Federico
Storto Marco
Datalogic S.p.A.
Le Thien M.
Nixon & Vanderhye P.C.
Sanders Allyson
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