JPS63172385A - Non-scanning type bar code reader - Google Patents

Abstract

PURPOSE:To eliminate the need for a mechanical scanning mechanism by arranging high-output laser diodes or high-output laser diodes and high-brightness light emitting diodes alternately and longitudinally in array. CONSTITUTION:When this non-scanning type bar code reader is used as part of the physical distribution management system of, for example, an automatic conveying device, a beltlike light beam is projected on a bar code BC added to a work from a light emission part T which has semiconductor laser elements LD and light emitting diodes LED arrayed optionally and regularly while the work conveyed by the automatic conveying device passes in front of the bar code reader BC. The a light reception part R receives reflected light corresponding to the light and shade or color of the bar code label 4 of the bar code BC. This light reception part R consists of a plasma coupled device PCD and a signal converted by this PCD into an electric signal is sent out to a computer through a decoder 8.

Description

[Detailed Description of the Invention] (Field of Industrial Application) The present invention relates to a barcode reader that is small, lightweight, has excellent vibration resistance, and can be used even in harsh environments. This invention relates to a non-scanning type Percoco reader used in automated labor-saving production lines in factories.

(Prior Art) Conventionally, barcode readers installed in automated, labor-saving production lines in factories mainly use a scan 1 method that emits He-Ne laser or the like and rotates a polygon mirror using a mechanical rotation mechanism. steps were used.

On the other hand, a non-scanning barcode reader that uses a white light lamp or a fluorescent lamp as a light emitting source and uses, for example, a charge-coupled device (COD) as a light receiving part, has been employed.

(Problems to be Solved by the Invention) Among the above-mentioned conventional barcode readers, the former scanning barcode league, which performs scanning by rotating a polygon mirror, has a mechanical precision rotation mechanism, so optical adjustment and There are problems in that maintenance is difficult, the external dimensions are large, and it is weak against vibrations, etc., the life is short because it uses He-Ne silage, and it is octavalent.

On the other hand, barcode readers for customer service that use white light or fluorescent light as a light source do not have a rotating mechanism like a polygon mirror, but the size of the white light or fluorescent light is large, making it difficult to install. There was a problem that we had to take it widely.

Therefore, the present invention provides a non-scanning barcode reader that eliminates the mechanical scanning unit, improves vibration resistance, extends the life of the light emitting source, and is smaller and lighter and easier to maintain. The technical challenge is to solve the problems of the conventional technology.

(Means for Solving the Problems) The technical means for solving the above problems is to irradiate a barcode with a band-shaped light beam from a light emitting part, and a light receiving part receives the reflected light, thereby reading the barcode. A barcode reader that reads and outputs data corresponding to the same barcode has a structure in which the light emitting part is a semiconductor laser element, or a semiconductor laser probe and a light emitting diode are arranged with arbitrary regularity, and the light receiving part is arranged in an arbitrary regularity. The first step is to configure the device with a plasma-coupled device or a charge-coupled device.

(Function) When a non-scanning barcode reader with the above configuration is used, for example, as part of a logistics management system for an automatic conveyance device, the workpiece conveyed by the automatic conveyance device passes in front of the bar reader. Then, a band-shaped light beam is irradiated onto the barcode attached to the workpiece from a light emitting unit that uses semiconductor radar elements arranged with arbitrary regularity or a semiconductor laser element and a light emitting diode as a light source. When this light beam is irradiated onto the barcode, reflected light corresponding to the color of the barcode is received by the light receiving section, and the light receiving section responds to the barcode based on the received reflected light. Outputs the received light signal.

This light reception signal is code-converted by, for example, a decoder, and is output as information processing data to the information processing section of the logistics management system.

As described above, the non-scanning barcode reader of the present invention reads barcodes without mechanical scanning 1m and outputs information processing data corresponding to the barcodes.

(Example) Next, one embodiment of the present invention will be described with reference to the drawings.

In this embodiment, an example of a non-scanning barcode reader BCR installed on a production line is shown =J'.

The figure is a system diagram showing the electrical and optical configuration of a non-scanning barcode reader BCR. As shown in the figure, a light emitting section T is formed by arranging laser diodes LD and light emitting diodes LED alternately in a vertical column. In addition, the light emitting part ■
Alternatively, only the laser diodes LD may be arranged in one vertical column. Respective Leb diode LD and light emitting diode L
The ED is connected to an LD and LED drive circuit 1, and when a drive current is applied from the drive circuit 1 to each laser diode LD and light emitting diode LED, each laser diode LD and light emitting diode LED emit light.

Each laser diode LD and light emitting diode LE
The light emitted from D is focused by a cylindrical lens (or aspherical lens) 2 installed in front of the light emitting part T, and the light that passes through the circular lens (or aspherical lens) 2 is a band-shaped beam of light. It becomes 3. This band-shaped light beam 3 can be pasted onto, for example, a carton that is being conveyed by a conveyor on a production line (not shown).
The barcode portion BC of the barcode label 4 that has been digitized by 1 is irradiated. The band-shaped reflected light 5 reflected by the barcode label 4 enters a curved cylindrical lens 6 and is converged by the lens 6, after which the plasma coupling probe PCD forming the light receiving section R installed behind the lens 6 is transmitted. The light is received by Light receiving part R
Each of the plasma-coupled cords PCD constituting the PCD
It is connected to the drive circuit 7. Therefore, the plasma coupled element P
The barcode information of the reflected light 5 received by the CD is converted into an electrical signal by each plasma coupling device PCD,
An electrical signal corresponding to the barcode information is output to the decoder 8. The electrical signal corresponding to this barcode information is converted into a code by a decoder 8, and then output as barcode data to a computer that manages and controls the production line.

Although a plasma coupled device PCD is shown as an element constituting the light receiving section R, barcode information can be output by the same effect even if a charge coupled device COD is used instead of the plasma coupled device PCD.

As mentioned above, high output radar diode LD.

Alternatively, the high output Leb diode 10 and the high f41U light emitting diodes L and ED are arranged alternately in Ii1 row to form the light emitting section, so no mechanical scanning mechanism is required. In addition, the emission wavelength of the light emitting diode LED is 66
Since it is in the vicinity of 0 nm, the barcode can be read even if the barcode BC is printed in black or in various other colors.

Note that this non-scanning type barcode reader OCR can be used not only on a production line in a factory but also as a handy type for POS.

(Effects of the Invention) As described above, according to the present invention, a semiconductor laser element and a light emitting diode are used in the light emitting part, and by arranging them with regularity, scanning can be performed using a polygon mirror like a conventional barcode reader. Since there is no need for a mechanical rotation mechanism to rotate the bar code, it is possible to provide a non-scanning bar code reader that is small, lightweight, requires almost no optical adjustment, and is easy to maintain. Also,
Since a semiconductor laser element is used, it is possible to provide a non-scanning barcode reader with a long life.

[Brief explanation of the drawing]

The figure is a system diagram showing the electrical and optical configuration of an embodiment of the present invention. BCR...Non-scanning barcode reader...LD, L
ED drive circuit 2...Cylindrical lens LD...Laser diode LED...Light emitting diode 3...Beam light 4...Bar" - Travel BC...Barcode 5...Reflection light 6. ...Curved cylindrical lens 7...PCD (COD) drive circuit 8...Decoder POD...Plasma coupled device COD...Charge coupled device

Claims (2)

[Claims] (1) A barcode reader that irradiates a barcode with a strip-shaped light beam from a light emitting part, and a light receiving part receives the reflected light to read the barcode and output data corresponding to the barcode. , a non-scanning device characterized in that the light emitting section has a configuration in which a plurality of semiconductor laser elements or semiconductor laser elements and light emitting diodes are arranged with arbitrary regularity, and a plasma coupling device is used in the light receiving section. type barcode reader. (2) The non-scanning barcode reader according to claim 1, wherein the light receiving section is constructed of a charge-coupled device.