CN214670615U

CN214670615U - Bar code reading equipment

Info

Publication number: CN214670615U
Application number: CN202120594265.4U
Authority: CN
Inventors: 胡菁; 庄阿伟; 张锴开
Original assignee: Fujian Newland Auto ID Technology Co Ltd
Current assignee: Fujian Newland Auto ID Technology Co Ltd
Priority date: 2021-03-24
Filing date: 2021-03-24
Publication date: 2021-11-09
Anticipated expiration: 2031-03-24

Abstract

The utility model belongs to the technical field of the bar code is discerned and is read, a bar code is discerned and read equipment is disclosed, including casing 1, imaging module 2, lighting module 3, extinction board 4, beam split lens 5, the protection passes through screen 6. The imaging module 2 and the lighting module 3 are respectively positioned at two sides of the light splitting lens 5, the extinction plate 4 is over against the lighting module 3, and an included angle of 45 degrees is formed between the light splitting lens 5 and the protective transparent screen 6. The utility model discloses a single light source cooperation beam splitting lens's design realizes focusing the function of lamp and illumination light filling lamp simultaneously, reduces the equipment consumption, reduces the equipment volume to the facula center of formation and the unanimous skew of not having in formation of image module center, the clear luminance of pattern edge is high, and the recognition region does not have the dark space, is convenient for location target and image recognition.

Description

Bar code reading equipment

Technical Field

The utility model relates to a bar code field of recognizing specifically is a bar code equipment of recognizing.

Background

In the barcode reading process, a focusing lamp is required to be arranged at the position of a positioning target, and an illumination light supplement lamp is required to be arranged for improving the image contrast. The illumination light filling lamp emits light to the surface of the measured object, and the light is reflected back to the imaging module through the surface to form an imaging image with contrast. The bar code reading equipment has a fixed lens field angle, the target enters an effective reading area only within the range of the lens field angle, the bar code reading equipment can obtain an effective imaging image of the target, and the focusing lamp plays a role in determining that the target is located in the effective reading area.

Currently, common barcode reading devices on the market are classified into a single-illumination single-focusing scheme and a double-focusing and double-illumination scheme. For the single-illumination single-focusing scheme, as shown in fig. 2, since the focusing lamp and the illumination light supplement lamp are respectively placed on two sides of the imaging module, the center of the light path of the light source is not overlapped with the center of the imaging view field of the imaging module, and the problem of light spot position deviation can exist. Along with the change of recognition distance, the skew condition also is different, especially, when recognition distance is shorter, the skew phenomenon is more obvious, unable fine advance line location, will have the inhomogeneous problem of field angle within range illuminance simultaneously, the regional illuminance that is close light filling lamp light path center more is high, the regional illuminance of keeping away from light filling lamp light path center diminishes gradually, and when recognition distance was nearer, because the area of shining of light source is less, can't cover imaging module imaging area completely, lead to there being obvious formation of image dark space. As shown in fig. 4.

In order to solve the problem of focusing position offset, the current double-illumination double-focusing scheme adopts two focusing lamps and two illumination light supplementing lamps which are respectively and symmetrically distributed on two sides of an imaging module, as shown in fig. 1, although the problem of light spot position offset is solved by the light source distribution mode, and the light spot distribution mode also has better illumination uniformity, because a certain distance still exists between a light source and the imaging module in the structure, when the reading distance is closer, because the light source irradiation area is small, the light spots of each light source are not overlapped and completely cover the imaging area of the imaging module, an obvious central dark area exists in the field angle range, as shown in fig. 3. In addition, the space occupied by the plurality of light sources is large, the reading device with small size has large limitation, and the light sources are mutually influenced in position arrangement,

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a bar code recognition equipment to solve the problem of proposing among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

a bar code reading device comprising the following components:

the device comprises a shell 1, wherein an opening is formed in the bottom of the shell 1.

The imaging module 2 is arranged on the upper part of the shell 1 and comprises a lens 21 and an image sensor 22 arranged behind the lens 21.

And the lighting module 3 is positioned below the inner side wall of the shell 1 relative to the imaging module 22.

And the extinction plate 4 is positioned on the inner side wall of the shell 1 and is opposite to the lighting module 3.

The light splitting lens 5 is arranged inside the shell 1, the light rays emitted to the extinction plate 4 by the illumination module 3 need to penetrate through the light splitting lens 5, and an included angle of 45 degrees is formed between the light splitting lens 5 and the protective transparent screen 6.

The imaging module 2 and the illumination module 3 respectively face different side faces of the light splitting lens 5, and the emergent light angle of the illumination module 3 is consistent with the angle of the field of view of the lens 21.

And a protective transparent screen 6 covering the bottom opening of the shell 1.

The light distribution curve of the lighting module 3 is a height cut-off curve.

The surface of the extinction plate 4 is made of black high extinction material, and the size of the extinction plate 4 is larger than the size of a light spot transmitted to the surface of the extinction plate through the light splitting lens 5.

The spectral lens 5 is a plane mirror with semi-transmission and semi-reflection.

The lighting module 3 further comprises: a lens 31, an LED light source 32 disposed behind the lens, a PCB 33 mounted with the LED light source, and a heat sink 34 disposed at the rear end of the PCB.

Compared with the prior art, the beneficial effects of the utility model are that:

the function of focusing the lamp and the illumination light filling lamp is realized simultaneously to the adoption single light source, reduces the equipment consumption, reduces the equipment volume to the facula center that forms is unanimous with formation of image module center and does not have the skew, and the clear luminance in pattern edge is high, and the recognition area does not have the dark space, is convenient for fix a position target and image recognition.

Drawings

Fig. 1 is a schematic structural diagram of a barcode reading device using dual illumination in the prior art.

Fig. 2 is a schematic structural diagram of a barcode reading device adopting single illumination in the prior art.

Fig. 3 is a schematic view of the focusing and illumination pattern of the far field of view of a barcode reading device using dual illumination in the prior art.

Fig. 4 is a schematic view of a focusing and illumination pattern of a near field of view of a barcode reading device using single illumination in the prior art.

Fig. 5 is a schematic structural diagram of an embodiment of the barcode reading apparatus of the present invention.

Fig. 6 is a schematic diagram of an optical path imaging of an embodiment of the barcode reading apparatus of the present invention.

Fig. 7 is a schematic structural view of an illumination module according to an embodiment of the barcode reading apparatus of the present invention.

Fig. 8 is a schematic view of a light distribution curve of an illumination module according to an embodiment of the barcode reading apparatus of the present invention.

Fig. 9 is a schematic view of an illumination pattern of an embodiment of the barcode reading device of the present invention.

Reference numerals:

the device comprises a shell, 2 imaging modules, 21 lenses, 22 image sensors, 3 lighting modules, 31 lenses, 32 LED light sources, 33 PCBs, 34 heat dissipation plates, 4 extinction plates, 5 light splitting lenses, 6 protective transparent screens and 7 measured targets.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1

As shown in fig. 5, a barcode reading apparatus includes the following components:

the device comprises a shell 1, wherein an opening is formed in the bottom of the shell 1. In this embodiment, the housing 1 is a rectangular parallelepiped. The specific shape of the housing 1 can be changed into a cylinder, a sphere, etc. according to the application.

The imaging module 2 is further connected with a decoding board, the decoding board is not shown in the attached drawings, the decoding board comprises an electronic element such as a processor or a bar code decoding chip, and the decoding board is electrically connected with the imaging module 2 and receives the transmission of the imaging module.

And the lighting module 3 is positioned below the inner side wall of the shell 1 relative to the imaging module 2. As shown in fig. 7, the lighting module 3 further includes: a lens 31, an LED light source 32 disposed behind the lens, a PCB 33 mounted with the LED light source, and a heat sink 34 disposed at the rear end of the PCB.

The LED light source 32 can be visible light or invisible light according to the specific requirement of the reading device, and in this embodiment, the LED light source 32 is a white LED.

Instead of using the lens 31 in the present embodiment for light distribution, a reflector may be used instead of the lens, and the illumination light may be reflected by a light cup of the reflector.

Therefore, the realization of the light distribution angle of the illumination module 3 has two realization technical schemes, secondary light distribution is carried out on the LED light source by adopting a lens or a reflector, and the trend of each light ray is controlled according to reasonable size and curve design. The lens material can be optical PMMA, PC, glass, the reflector can be plastic or metal piece, the inner surface is plated with high reflection metal coating.

As shown in fig. 8, the light distribution curve of the illumination module 3 is a height cut-off curve to form light spots with clear cut-off lines and uniform illumination, the edges of the cut-off lines can be used as positioning marks, and the light spots with uniform illumination are used as supplementary lights.

In this embodiment, the extinction plate 3 is made of black flannelette, and the size of the extinction plate covers the size of a light spot transmitted to the surface by the illumination module 3, and the installation position does not block the field angle of the lens 21.

The light splitting lens 5 is arranged inside the shell 1, the light rays emitted to the extinction plate 4 by the illumination module 3 need to penetrate through the light splitting lens 5, and an included angle between the light splitting lens 5 and the protective transparent screen 6 is 45 degrees.

The spectral lens 5 is a plane mirror made of semi-transmission and semi-reflection materials.

The spectroscopic lens 5 is optical grade glass, and various different transmittance ratios are realized by coating the surface of the glass, and in this embodiment, the transmittance and reflectance of the spectroscopic lens 5 are 1: 1. The light splitting wave band of the light splitting lens 5 is different from the light splitting wave band selected according to the light color of the device light source and the actual application scene.

In this embodiment, the spectroscopic lens 5 is a rectangular plane mirror, and covers an imaging area of the imaging module 2 and an illumination area of the illumination module 3. The size of the dispersing optic 5 is determined by the specific lens field angle, with the larger the field angle, the larger the optic size. The farther the installation positions of the lighting module 3 and the imaging module 2 are from the center of the spectroscope lens 5, the larger the lighting area and the imaging area irradiated on the spectroscope lens 5 are, and the larger the size of the spectroscope lens 5 is.

Utilize the specular reflection principle, lighting module 3 is in form behind beam splitting lens 5 the lighting module virtual image, and lighting module virtual image position with imaging module 2 coincidence, promptly lighting module 3's light emergent light position is equivalent to imaging module 2's camera lens 21 position, because lighting module 3's grading angle with imaging module 2's angle of vision is unanimous, so lighting module 3 illumination area with imaging module 2 image area coincides completely.

As shown in fig. 6, the imaging principle of the barcode reading device is as follows: the lighting module 3 emits light, the light is reflected to the surface of the measured target 7 through the beam splitting lens 5 placed at an angle of 45 degrees, the surface of the measured target 7 reflects the light back to the beam splitting lens 5, and the light finally enters the imaging module 2 for imaging after being transmitted by the beam splitting lens 5. The lighting module 3 forms a square light spot with clear cut-off line and uniform illumination intensity through height cut-off light distribution, as shown in fig. 9. Light makes the illumination area just with the regional coincidence completely of 2 imaging of formation of image module, realizes accurate recognition area sign, the even no dark space of illuminance utilize the reflection principle through 45 jiaos of placing beam splitting lens 5. When the light of the illumination module 3 irradiates the spectroscope 5, a part of the light reflected to the surface of the measured object 7 is removed, and a part of the transmitted light is absorbed by the extinction plate 4.

The utility model discloses a bar code recognition equipment adopts the single light source to realize focusing the function of lamp and illumination light filling lamp simultaneously, reduces the equipment consumption, reduces the equipment volume to the facula center of formation and the unanimous skew of not having in formation of image module center, the clear luminance in pattern edge is high, and the recognition region does not have the dark space, is convenient for fix a position target and image recognition

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. A bar code reading device, comprising the following components:

the device comprises a shell (1), wherein an opening is formed in the bottom of the shell (1);

the imaging module (2) is arranged at the upper part of the shell (1) and comprises a lens (21) and an image sensor (22) arranged behind the lens (21);

the lighting module (3) is positioned below the inner side wall of the shell (1) relative to the imaging module (2);

the extinction plate (4) is positioned on the inner side wall of the shell (1) and is opposite to the lighting module (3); the light splitting lens (5) is arranged inside the shell (1), the light rays emitted to the extinction plate (4) by the illumination module (3) need to penetrate through the light splitting lens (5), and an included angle of 45 degrees is formed between the light splitting lens (5) and the protective transparent screen (6);

the imaging module (2) and the illumination module (3) respectively face different side faces of the light splitting lens (5), and the emergent light angle of the illumination module (3) is consistent with the angle of the field of view of the lens (21);

a protective transparent screen (6) covering the bottom opening of the housing (1).

2. The barcode reading apparatus according to claim 1, wherein the light distribution curve of the illumination module (3) is a height cut-off curve.

3. A bar code reading apparatus according to claim 2, wherein the surface of the extinction plate (4) is made of black high extinction material, and the size of the extinction plate (4) is larger than the size of the light spot transmitted to the surface of the extinction plate through the beam splitting lens (5).

4. A bar code reading apparatus according to claim 3, wherein the beam splitting mirror (5) is a semi-transmissive and semi-reflective flat mirror.

5. A barcode reading apparatus according to claim 4, characterized in that said illumination module (3) further comprises: the LED lamp comprises a lens (31), an LED light source (32) arranged behind the lens, a PCB (33) provided with the LED light source, and a heat dissipation piece (34) arranged at the rear end of the PCB.