KR101740188B1 - light transmission window for complex reader machine comprising a RFID antenna - Google Patents

Abstract

A housing having a body portion and a handle portion; A light transmissive window disposed to cover the front opening of the body portion and having an RFID antenna; A light source for irradiating light to the 1D bar code or 2D bar code through the light transmissive window and a light source for emitting light reflected from the 1D bar code or the 2D bar code is disposed in the body for scanning an external 1D bar code and a 2D bar code, A barcode scanner including an image sensor for performing image processing; And a microprocessor for receiving and processing a signal from the image sensor or a signal from the RFID antenna for reading the bar code and the RFID tag. This light transmissive window includes a light transmitting area in the center adjacent to the image sensor in the rearward direction and an edge area provided in a generally annular shape at the peripheral edge of the light transmitting area to permit the placement of the RFID antenna while permitting light transmission.

Description

A light transmitting window for a complex reader having an RFID antenna,

The present invention relates to a light transmissive window used in a composite reader having both a barcode reader function and an RFID tag reader function.

As the commerce, trade and / or logistics industry develops, convenient control is becoming very important. One example of a device used for such control is a reader having a scanner function. The barcode reader is configured to scan and read barcodes attached to the product.

The barcode is largely divided into a 1D barcode (i.e., a one-dimensional barcode) and a 2D barcode (i.e., a two-dimensional barcode). 1D barcodes are a combination of black bars (white bars) on a white background and are commonly used in distribution and logistics. Unlike the 1D bar code, which represents information only in the horizontal direction according to the bar thickness (bar code density), the 2D bar code represents information in a square shape with a dotted or mosaic code and displays information both in the horizontal direction and in the vertical direction. Therefore, the 2D barcode can store high-density information about 100 times as much as the information capacity of the 1D barcode, can recover much even if the information is damaged, and has an advantage of being recognized as a scan in the 360-degree direction.

Meanwhile, another conventional RFID reader is used for reading RFID tags. The RFID tag includes, for example, an RFID chip including product information, and an RFID antenna connected to the RFID chip and used to transmit and receive an RFID signal. The RFID tag reader includes an RFID tag-side RFID antenna and an RFID antenna for transmitting and receiving. The RF signal received through the RFID antenna can be stored in the RFID chip as product information, and the RFID reader can decode the information stored in the RFID chip through the received signal through communication between the RFID antennas.

Conventionally, in order to know product information with a bar code, a bar code reader has to be used and an RFID tag reader has to be used in order to know the product information attached with the RFID tag. Accordingly, there has been a need for a reader incorporating an RFID tag reader and a barcode reader function in the past. Although there have been many attempts to integrate RFID tag readers and barcode readers, there have been many attempts to integrate RFID readers with barcode readers, which require isolation between the characteristics of the barcode reader, which must ensure transparency of visible light, and other elements, There are many limitations in satisfying all the characteristics of the tag reader.

US 6,352,204, US 7,357,326, US 7,370,801, US 7,419,098

SUMMARY OF THE INVENTION It is an object of the present invention to allow transmission of light reflected from an external 1D or 2D barcode and light reflected from a 1D and 2D barcode to a composite image reader internal image sensor in a light source within a composite reader, And to provide a transparent window for a composite reader in which RFID antennas are integrally integrated so as to provide the functions to a composite reader.

According to an aspect of the present invention, there is provided a portable terminal comprising: a housing having a main body and a handle; A light transmissive window disposed to cover the front opening of the body portion; A light source for irradiating light to the 1D bar code or 2D bar code through the light transmissive window and a light source for emitting light reflected from the 1D bar code or the 2D bar code is disposed in the body for scanning an external 1D bar code and a 2D bar code, A barcode scanner including an image sensor for performing image processing; And a microprocessor for receiving and processing a signal from the image sensor or a signal from the RFID antenna for reading the bar code and the RFID tag, wherein the light transmissive window is made of transparent glass or A front light transmission window made of transparent PC material; A rear light transmission window made of transparent glass or transparent PC material; An RFID antenna sandwiched in an annular shape and sandwiched between the front light transmitting window and the rear light transmitting window; A first packing interposed between the front light transmission window and the rear light transmission window, the first packing being formed in an annular shape and disposed along an outer periphery of the RFID antenna; And a second packing interposed between the front light transmission window and the rear light transmission window, the second packing being formed in an annular shape and disposed along an inner periphery of the RFID antenna, wherein the RFID antenna comprises an FPCB having an annular shape, Wherein the first packing and the second packing are made of a viscoelastic material so as to be compressively deformed between the front light transmission window and the rear light transmission window, A receiving hole is formed to allow a tail of the RFID antenna to be drawn into the housing.

According to the present invention, a composite reader capable of performing functions of an RFID tag reader and a bar code reader without deteriorating performance or reliability can be realized by applying a translucent window integrated with an RFID antenna to a composite reader.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a rear perspective view showing an outer appearance of a composite reader having a transparent window including an RFID antenna according to an embodiment of the present invention,
FIG. 2 is a front view of the composite reader shown in FIG. 1,
FIG. 3 is a partial cross-sectional view of the composite reader shown in FIGS. 1 and 2,
4 is an enlarged cross-sectional view for explaining a translucent window according to an embodiment of the present invention in an enlarged view of a circle "A" in Fig. 3,
5 is a block diagram for conceptually illustrating a composite reader,
6 is a photograph showing an example of an RFID antenna applicable to a translucent window according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings and the description thereof are intended to aid those of ordinary skill in the art in understanding the present invention. Accordingly, the drawings and description are not to be construed as limiting the scope of the invention.

FIG. 1 is a rear perspective view showing the outer appearance of a composite reader having a transparent window including an RFID antenna according to an embodiment of the present invention, FIG. 2 is a front view showing a front view of the composite reader shown in FIG. 1, 3 is a partial cross-sectional view showing the composite reader shown in Figs. 1 and 2, Fig. 4 is an enlarged cross-sectional view for explaining a translucent window according to an embodiment of the present invention, FIG. 5 is a block diagram for conceptually explaining a composite reader, and FIG. 6 is a photograph showing an example of an RFID antenna applicable to a translucent window according to the present invention.

FIG. 1 is a rear perspective view showing the appearance of a composite reader according to an embodiment of the present invention, FIG. 2 is a front view showing a front view of a composite reader according to an embodiment of the present invention, and FIG. 4 is an enlarged cross-sectional view showing a circle "A" in Fig. 3, and Fig. 5 is a block diagram for conceptually explaining a composite reader.

1 to 4, a composite reader 1 including a translucent window having an RFID antenna according to the present invention includes a housing 10, a barcode scanner 20 provided in the housing 10, A light transmissive window 30 having an antenna 32, a battery 40, and the like. The housing 10 includes a body portion 12 and a handle portion 14 formed at a lower portion of the body portion 12.

The light transmissive window 30 is provided to cover an opening formed at the front of the main body 12 and has a light transmitting window made of a transparent plastic material such as polycarbonate or a transparent glass material.

The bar code scanner 20 is disposed adjacent to the rear of the light transmissive window 30 in the main body part 12 and the display part 50 and the input part 60 are disposed at the outer rear side of the main body part 12. [ .

In this embodiment, the input unit 60 includes a move-in key button 62, a move-out key button 64, and a mode change key button 66. The move-in key button 62 and the move-out key button 64 serve as a hot key, and can transmit data designated at the time of clicking. The mode change key button 66 is one of a 1D bar code reading mode (1D BAR), a 2D bar code reading mode (2D BAR) and an RFID tag reading mode (RFID) displayed on the display unit 50 by the number of times of pressing Change. A trigger 70 is provided in front of the handle 14 and a user can press the trigger 70 with his or her fingers to perform the above-described modes: 1D bar code reading mode (1D BAR), 2D bar code reading mode 2D bar code), and RFID tag read mode (RFID). In addition, the composite reader 1 according to the present embodiment may further include an LED 80 for informing an operation state.

5, the composite reader 1 includes a microprocessor 90 and an RFID antenna 32. The microprocessor 90 and the RFID antenna 32 are disposed within a housing 10 (see Figs. 1 to 4) and a light- (30). In addition, the barcode scanner 20 includes a light source 22 and an image sensor 24. The light source 22 irradiates the scanning light to the 1D bar code or the 2D bar code under the control of the microprocessor 90. Further, in the 1D barcode reading mode, a signal reflected from the pattern of the 1D barcode is received by the image sensor 24. In the 2D barcode reading mode, the optical signal reflected from the pattern of the 2D barcode is received by the image sensor 24. It is also conceivable to have a 1D barcode-dedicated image sensor that only receives the optical signal reflected from the 1D barcode and a 2D barcode-dedicated image sensor that receives the optical signal reflected from the 2D barcode. In this case, 90, and can be compared and double-checked, which can improve the reliability of product information reading. The microprocessor 90 can read the information of the bar code using the optical signal obtained from the image sensor 24. [ In addition, the RFID antenna 32 is configured to be able to communicate with the RFID antenna provided in the RFID tag. When the proximity of the RFID reader 32 to the RFID tag on the product is within the effective distance, And transmits the signal to the microprocessor 90.

2 to 4, the light-transmissive window 30 is provided to close an opening of the front end of the main body portion 12 of the housing 10, and includes a central light transmitting region, And an edge region that is provided in a generally annular fashion around the perimeter of the transmissive region to permit placement of the RFID antenna 32. The central light transmission area is defined by a predetermined area of the barcode scanner 20 and more specifically by the edge area of the RFID antenna 32 within the barcode limit recognition distance of the image sensor 24 belonging to the barcode scanner 20 It is set to a size that can transmit or receive light without interference, that is, a predetermined size. In addition, the edge region is provided in a size and shape capable of accommodating the RFID antenna 32 formed in an annular pattern as a whole while ensuring a predetermined size (area) of the central light transmitting region.

In this embodiment, the RFID antenna 32 receives an RF signal from the RFID tag-side antenna and transmits the RF signal to the microprocessor. The RF antenna 32 has a substantially rectangular annular shape, . The RFID antenna 32 may be formed by forming an RFID antenna pattern 324 on the FPCB 322 formed in an annular shape. In the present embodiment, the RFID antenna 32 has an effective recognition distance of approximately 40 to 60 cm with respect to a high frequency of 13.56 MHz, Is located in the edge region of the transmissive window (30).

In addition, since the metal has the property of reflecting RF signals, the RFID antenna 32 is preferably isolated from various other elements in various housings including metal elements. Further, it is preferable that the RFID antenna 32 is isolated from an external environment or contamination. According to the present embodiment, the light transmissive window 30 includes a front window 31a made of transparent glass or a transparent PC material, and a rear window 31b made of a transparent glass or a transparent PC material. . The RFID antenna 32 is sandwiched between the front light transmission window 31a and the rear light transmission window 31b. Preferably, the FPCB 322 and the RFID antenna 32 including the RFID pattern are attached to the front surface of the rear light transmission window 31b, and then the front window 31a is covered with the front surface.

The composite reader 1 according to the present embodiment further includes a first packing 33a and a second packing 33b for more reliably isolating the RFID antenna 32 from the inner environment of the housing 10 and the outer environment of the housing 10, And further includes a packing 33b. The first packing 33a is disposed along the outer periphery of the RFID antenna 32 while being formed in an annular shape and the second packing 33b is disposed along the inner periphery of the RFID antenna 32 while being annularly formed. do. Both the first packing 33a and the second packing 33b are interposed between the front light transmission window 31a and the rear light transmission window 31b and more preferably the front light transmission window Such as rubber, so as to be compressively deformed between the rear light transmitting window (31a) and the rear light transmitting window (31b).

An inlet hole may be formed in the rear light transmission window 33a to allow the tail of the RFID antenna 32 including wiring to be drawn into the housing 10. [ The tail of the RFID antenna 32 that is drawn into the housing 10 through the inlet hole is connected in circuit with the PCB in the housing 10.

10: housing 12:
14; Handle 20: Barcode scanner
22: light source 24: image sensor
30: light transmissive window 32: RFID antenna
31a, 31b: light transmission window 33a, 33b: packing
50: display section 60: input section
90: Microprocessor

Claims (5)

A housing having a body portion and a handle portion; A light transmissive window disposed to cover the front opening of the body portion; A light source for irradiating light to the 1D bar code or 2D bar code through the light transmissive window and a light source for emitting light reflected from the 1D bar code or the 2D bar code is disposed in the body for scanning an external 1D bar code and a 2D bar code, A barcode scanner including an image sensor for performing image processing; And a microprocessor for receiving and processing a signal from the image sensor or a signal from the RFID antenna for reading the bar code and RFID tag,
A front light transmission window made of transparent glass or transparent PC material;
A rear light transmission window made of transparent glass or transparent PC material;
An RFID antenna sandwiched in an annular shape and sandwiched between the front light transmitting window and the rear light transmitting window;
A first packing interposed between the front light transmission window and the rear light transmission window, the first packing being formed in an annular shape and disposed along an outer periphery of the RFID antenna; And
And a second packing interposed between the front light transmission window and the rear light transmission window, the second packing being formed in an annular shape and disposed along an inner periphery of the RFID antenna,
Wherein the RFID antenna comprises an FPCB having an annular shape and an RFID antenna pattern formed of metal on the FPCB, wherein the first packing and the second packing are compressively deformable between the front light transmitting window and the rear light transmitting window And is made of a viscoelastic material,
Wherein the rear light transmission window is formed with a receiving hole for allowing a tail of the RFID antenna to be drawn into the housing. delete delete delete delete

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