JPS6180471A - Scan head of bar code reader - Google Patents

Abstract

PURPOSE:To secure an assured scanning operation and also to recognize easily the fault of a scan head by using plural light emitting elements to increase the light quantity and also providing light emitting elements of different wavelengths to increase the wavelength range. CONSTITUTION:The light delivered from light emitting diodes 11-14 are delivered from an irradiation part 33 set at the left end through a hollow part formed between a large-diameter cylinder part 31 and a small-diameter cylinder part 32 of an optical guide, and irradiates a bar cord paper 4. The reflected light of the paper 4 is partly condensed by a lens 5 and led to an optical sensor 2 to be converted into electric signals there. In this case, the light reflection is maintained by the light given from the light emitting diodes 13 and 14 which emit the light of different wavelengths, even in case the light given from the diode 12 is absorbed by the soil of the paper 4. Furthermore a fault of the scan head can be easily recognized since the diode 11 has no glow in case a power supply part, etc. have faults.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a scanning head of a barcode reader using a plurality of light emitting elements.

(Prior Art) A barcode reader is a device that reads a code (barcode) expressed by combining different line widths and line spacings by optically scanning it with a 7-digit card, and is used for POS terminals, postal classification, etc. It is widely used for inventory management and book management systems.

FIG. 3 is a diagram showing a conventional optical system of a scanning head of a barcode reader.

In FIG. 3, 1 is a light emitting diode, 2 is a light sensor,
3 is a half mirror and 14 is barcode paper.

5 is a lens.

The light emitted from the light emitting diode 1 is transmitted to the half mirror 3.
The light is focused by the lens 5 and irradiated onto the barcode paper 4. The light reflected by the barcode paper 4 is returned to the lens 5.
The light is reflected by the half mirror 3 and guided to the optical sensor 2. The guided light is detected by the optical sensor 2 and converted into an electrical signal.

(Problems to be Solved by the Invention) Conventionally, due to the limitations of the optical system described above, the light emitting diode 1
1 (hard) was provided. This caused the problem that the amount of light was insufficient and scanning became uncertain.

On the other hand, if the barcode paper 4 is dirty, light may be absorbed in that area, which may result in erroneous scanning. Also, depending on the quality of the paper on which the barcode is printed, it absorbs light at the wavelength of light emitting diode 1.
There is also a possibility of erroneous scanning. Furthermore, in recent POS terminals and the like, barcodes are often printed not only on paper but also directly on products such as cans, making the problem even more serious.

If infrared rays are used as the irradiation light, the absorption of light by the barcode paper 4 will be reduced, but since the emission of infrared rays cannot be seen directly, a new problem arises in that abnormalities in the scanning head cannot be easily detected. A point occurs.

The purpose of the present invention is to increase the amount of light and expand the wavelength range of irradiated light by using a large number of light emitting diodes with different wavelengths,
An object of the present invention is to provide a scanning head for a barcode reader that can ensure scanning reliability.

Another purpose is that if the wavelength of the light-emitting diode is in the infrared region, a light-emitting diode with a wavelength in the visible region is also installed and used as a lighting monitor to easily detect abnormalities in the scanning head of the barcode reader. The purpose is to provide the head.

(Means for Solving the Problems) In order to achieve the above object, a scanning head of a barcode reader according to the present invention includes a light emitting element group consisting of two or more light emitting elements, and a light emitting element group that emits light from the light emitting element group. It consists of a light guide that guides the barcode, and an optical sensor that detects the light reflected by the barcode through a lens and converts it into an electrical signal.

According to the above configuration, the object of the present invention can be completely achieved.

(Example) Hereinafter, the present invention will be described in detail with reference to the drawings and the like.

FIG. 1 is a sectional view showing an embodiment of a scanning head of a barcode reader according to the present invention, and FIG. 2 is an external perspective view of the same embodiment.

Note that the same reference numerals are given to parts that perform the same functions as in the conventional example described above.

In FIG. 1, 11 to 14 are light emitting diodes.

2 is a light sensor, 30 is a light guide, 4 is a barcode paper, 5
is a lens.

The light emitting diode 11 is a light emitting diode for emitting visible light, and emits light with a wavelength of 6550 m. Here, the light emitting diode 11 is replaced by light emitting diodes 12 to 12 that mainly emit infrared light, which is other invisible light.
It functions as a lighting monitor for 14 lights. Therefore, it is necessary for the light emitting diodes 11 to 14 to use the same power source and drive circuit.

The light emitting diodes 12 to 14 are light emitting diodes for emitting infrared rays, and emit infrared rays in a range of wavelengths that differ by a certain wavelength around a wavelength of 930 nm. This is because, due to the difference in the quality of the barcode paper 4, a certain wavelength may be absorbed, but a wavelength different from that wavelength may be favorably reflected.

In this example, four light emitting diodes are used, but
The number is not limited to four, and any number of two or more can be used. This is because the amount of light can be increased and the range of one wavelength can be expanded. If all light emitting diodes have the same wavelength, the amount of light can only be increased. However, at least 1
The two light emitting diodes must emit visible light.

The optical sensor 2 is for detecting light reflected from the barcode paper 4 and converting it into an electrical signal. For example, a silicon photodiode or the like is used. The wavelength range of light that can be detected is 400 nm = 1100 nm.

However, if the light emitting diode 11 for lighting monitor is 1f[I as in this embodiment, and the other light emitting diodes emit infrared rays, the detection range can be limited to the infrared region. This is to prevent erroneous scanning due to detection of reflection from illumination light or the like.

The light guide 30 is a guide for guiding light emitted from the light emitting diodes 11 to 14 to the barcode paper 4.

The light guide 30 is provided with a large-diameter cylindrical portion 31 and a small-diameter cylindrical portion 32, and the large-diameter cylindrical portion 31 is connected with a cylindrical condensing portion 31a in the shape of a truncated cone. At the tip of the light guide 30 is an irradiation section 33. An element mounting portion 34 is provided at the rear end. The appearance of the light guide 30 is shown in FIG. The light guide 30 is molded from transparent synthetic resin so that the visible light emitted by the light emitting diode 11 can be easily recognized. A lens 5 is attached to the inside of the small diameter cylindrical portion 32.

The light emitted from the light emitting diodes 11 to 14 is totally reflected by the inner wall of the large-diameter cylindrical section 31 and the outer wall of the small-diameter cylindrical section 32, and further condensed by the condensing section 31a, and then irradiated from the irradiation section 33. In order to achieve complete total reflection, the wall surfaces other than the irradiation section 33 are coated with a light reflective coating made of magnesium oxide.

The light emitting diodes 11 to 14 are attached to the element attachment portion 34 of the light guide 30. The light emitting diode 11 for visible light is used for lighting monitor, so
The other light emitting diodes 12 to 14 need to be attached in an easily visible position, but the order of attaching the other light emitting diodes 12 to 14 does not matter.

Note that the barcode here is not limited to a barcode printed on paper, but also includes one printed on other media.

Next, the operation of the scanning head of the barcode reader according to the present invention will be explained.

The light emitted from the light emitting diodes 11 to 14 is transmitted to the light guide 3.
The light travels through the hollow part between the large diameter circle M part 31 and the small diameter cylindrical part 32 of 0, is emitted from the irradiation part 33 at the left end, and irradiates the barcode paper 4.

A portion of the reflected light from the barcode paper 4 is collected by the lens 5, guided to the optical sensor 2, and converted into an electrical signal.

At this time, the light of the wavelength emitted by the light emitting diode 12 is
Even if it is absorbed due to dirt or the like on the barcode IE4, it will be reflected by light from other light emitting diodes 13 and 14 that emit light of a wavelength different from this wavelength.

In addition, if there is an abnormality in the power supply section, etc., the light emitting diode 11 will not light up, making it easy to detect the abnormality. Nj can survive.

(Effects of the Invention) As explained in detail above, according to the present invention, a plurality of light emitting elements are attached to increase the amount of light, and light emitting elements with different wavelengths are provided to expand the wavelength range, so barcodes can be printed. Scanning can now be performed reliably, regardless of the type of media being used or how dirty it is.

Furthermore, when a light emitting element that emits infrared rays is used, a light emitting element that emits visible light is provided as a lighting monitor for the light emitting element, so that abnormalities in the power supply unit, etc. can be directly visually confirmed.

[Brief explanation of the drawing]

FIG. 1 is a sectional view showing an embodiment of a scanning head of a barcode reader according to the present invention, and FIG. 2 is an external perspective view of the same embodiment. FIG. 3 is a diagram showing a conventional optical system of a scanning head of a barcode reader. ■, 11-14...Light emitting diode 2...Light sensor 3...Half mirror 30...Light guide 4...Barcode paper 5...Lens

Claims (5)

[Claims] (1) A light emitting element group consisting of two or more light emitting elements, a light guide that guides the light emitted by the light emitting element group to a barcode, and a lens that detects the reflected light from the barcode. The scanning head of a barcode reader consists of an optical sensor that converts into an electrical signal. (2) A scanning head for a barcode reader according to claim 1, wherein the light emitting element group is configured to include a plurality of light emitting elements that emit infrared rays of different wavelengths. (3) A scanning head for a barcode reader according to claim 1, wherein the light emitting element group includes at least one light emitting element that emits visible light. (4) The light guide collects and guides the light from the light emitting element group in a cylindrical space formed by concentrically arranged double cylinders, and also collects and guides the light from the barcode in a central space. A scanning head of a barcode reader according to claim 1, configured to guide light. (5) The scanning head of a barcode reader according to claim 2, wherein the optical sensor is configured to be able to detect at least an infrared region.