CN201986024U - Dual-channel reader - Google Patents

Abstract

The utility model discloses a dual-channel reader which comprises an upper machine body, a lower machine body, a middle interlayer part and a driving motor, wherein the upper machine body and the middle interlayer part form a first channel; the lower machine body and the middle interlayer part form a second channel; the middle interlayer part is provided with a transparent cavity; the transparent cavity is communicated with the first channel and the second channel; the upper machine body is provided with a scanning module; the scanning module is opposite to the transparent cavity and is used for scanning media passing through the first channel, or the media passing through the second channel is scanned by the transparent cavity; the outlet of the first channel is provided with a printing mechanism; two sides of the first channel and the second channel are both provided with a transmission mechanism which drives the media to move; and the driving motor drives the printing mechanism to act on and drives the transmission mechanism to rotate. The dual-channel reader has a simple structure because of adopting the structure of two channels, and is convenient to maintain.

Description

The binary channels reader

[technical field]

The utility model relates to the scanning device field, particularly a kind of binary channels reader.

[background technology]

Tradition comprises the all-in-one of reader and printer, the shared scan channel of reader and printer, and so scan channel crosses with the identification passage, and complex structure is safeguarded inconvenience.

[utility model content]

Based on this, be necessary to provide a kind of binary channels reader of simple in structure and easy care.

A kind of binary channels reader, comprise upper machine body, lower body, intermediate interlayer portion and drive motors, described upper machine body and described intermediate interlayer portion form first passage, described lower body and intermediate interlayer portion form second channel, described intermediate interlayer portion offers the printing opacity cavity, and described printing opacity cavity is communicated with first passage and second channel, on the described upper machine body scanning module is installed, described scanning module is relative with described printing opacity cavity position, described scanning module is used to scan by the medium of first passage or the medium by described printing opacity cavity scanning second channel, the exit of described first passage is provided with printing mechanism, described first passage and second channel both sides are equipped with and drive the transmission mechanism that medium moves, and described drive motors drives described printing mechanism action and transmission mechanism rotates.

Preferably, be provided with in the porch of described first passage on the described upper machine body and be used to detect the first sensor that enters medium in the first passage, be provided with in the porch of second channel in the described intermediate interlayer portion and be used to detect second transducer that enters medium in the second channel.

Preferably, on the described lower body transmitted light source is installed, described transmitted light source is relative with the position of described printing opacity cavity, and the illumination of described transmitted light source emission is mapped to second channel or sees through described printing opacity cavity and shines first passage.

Preferably, described printing opacity cavity is a glass chamber, and described glass chamber comprises two glass plates that are oppositely arranged and the cavity that is provided with in intermediate interlayer portion, and described two glass plates are embedded in the described intermediate interlayer portion.

Preferably, the rubber paper-sheets rolling wheel of described transmission mechanism on upper machine body, intermediate interlayer portion and lower body, being oppositely arranged.

Preferably, described printing mechanism is a printhead, and described drive motors drives the printhead action.

Above-mentioned binary channels reader adopts independently first passage and second channel, and the medium that scanning module can scan the medium of first passage and pass through printing opacity cavity scanning second channel adopts two channel designs simple, easy to maintenance.

[description of drawings]

Fig. 1 is the cross-sectional view of binary channels reader among the embodiment;

Fig. 2 is the structural representation that the binary channels reader links to each other with printer.

[embodiment]

Below in conjunction with specific embodiment and accompanying drawing technical scheme is described in detail.

As shown in Figure 1, among the embodiment, a kind of binary channels reader comprises upper machine body 100, intermediate interlayer portion 200 and lower body 300.Wherein, upper machine body 100 forms first passage 110 with intermediate interlayer portion 200, and lower body 300 forms second channel 210 with intermediate interlayer portion 200.

First sensor 101, scanning module 103, printing mechanism 105 and drive motors 107 are installed on the upper machine body 100.

First sensor 101 is installed in inlet 111 places of first passage 110, is used to detect from first passage 110 inlets 111 media that enter.

Scanning module 103 is used to scan the medium through first passage 110 or second channel 210, the collection medium surface information, and the surface information of gathering carried out checking treatment.This medium can be lottery ticket or prints ticket etc.Scanning module 103 adopts CCD (Charge-coupled Device, the charge coupled cell) scanning sensor with long depth of field.

After printing mechanism 105 is used for medium in first passage 110 and is judged processing, print according to result.Printing mechanism 105 can be printhead.

Drive motors 107 is used to drive printing mechanism 105 actions.Drive motors 107 drives printhead and lifts or put down.Drive motors 107 also can be installed on intermediate interlayer portion 200 or the lower body 300.

Intermediate interlayer portion 200 is provided with the printing opacity cavity 201 and second transducer 203.

Printing opacity cavity 201 is opened in the intermediate interlayer portion 201, and is communicated with first passage 110 and second channel 210, makes scanning module 103 can scan medium by second channel 210.Printing opacity cavity 201 is a glass chamber.This glass chamber comprises two glass plates that are oppositely arranged and the cavity that is provided with in intermediate interlayer portion 200, and two glass plates are embedded in the intermediate interlayer portion 200.

Second transducer 203 is located at inlet 211 places of second channel 210, is used to detect the medium that the inlet 211 through second channel 210 enters.

Transmitted light source 301 is installed on the lower body 300.Transmitted light source 301 is relative with the position of printing opacity cavity 201, the illumination of transmitted light source 301 emissions is mapped to second channel 210 or shines first passage 110 by printing opacity cavity 201, transmitted light source 301 can penetrate medium, thereby the overlay information of the obverse and reverse of scanned medium, can discern the anti-counterfeiting mark sign indicating number, realize anti-counterfeiting detection.Transmitted light source 301 can be as infrared light supply, ultraviolet light source etc.

Both sides at first passage 110 and second channel 210 are provided with transmission mechanism 220.Transmission mechanism 220 is used for rotating under the driving of drive motors 107, and the medium that drives in first passage 110 or the second channel 210 moves.Transmission mechanism 220 can be the rubber paper-sheets rolling wheel that is oppositely arranged on upper machine body 100, intermediate interlayer portion 200 and lower body 300.

Above-mentioned binary channels reader can be used for the scanning of scanning of prize ticket and printing ticket etc.

The course of work that above-mentioned binary channels reader carries out the scanning of prize ticket is: the inlet 111 of paper from first passage 110 entered, detect by first sensor 101 inductions, drive motors 107 drives the rubber paper-sheets rolling wheel and rotates, the prize ticket is imported in the first passage 110, through scanning module 103 scanning collection information, and judge whether the prize ticket gets the winning number in a bond, judge that rear drive motor 107 drives the printhead prints result, last drive motors 107 drives the rubber paper-sheets rolling wheel and rotates, and paper is discharged from the outlet 113 of first passage 110.

As shown in Figure 2, the course of work that above-mentioned binary channels reader prints ticket scanning is: the inlet 211 of second channel 210 links to each other with printer 400 outlets, printing paper roll 500 is printed the back for printing ticket by printer 400, the printing ticket enters from the inlet 211 of second channel 210, detected by 203 inductions of second transducer, drive motors 107 drives the rubber paper-sheets rolling wheel, to print ticket sends in the second channel 210, because printing opacity cavity 201, scanning module 103 is discharged by the outlet 213 from second channel 210 then by the data of printing opacity cavity 201 scanning and printing tickets.In addition, under the irradiation of transmitted light source 301, can carry out anti-counterfeiting detection.

Above-mentioned binary channels reader can scan medium information or second channel 210 interior medium informations in the first passage 110, can not scan medium information in two passages simultaneously.

Above-mentioned binary channels reader adopts independently first passage 110 and second channel 210, and the medium that scanning module 103 can scan the medium of first passage 110 and pass through printing opacity cavity 201 scanning second channels 210 adopts two channel designs simple, easy to maintenance.

The above embodiment has only expressed several execution mode of the present utility model, and it describes comparatively concrete and detailed, but can not therefore be interpreted as the restriction to the utility model claim.Should be pointed out that for the person of ordinary skill of the art under the prerequisite that does not break away from the utility model design, can also make some distortion and improvement, these all belong to protection range of the present utility model.Therefore, the protection range of the utility model patent should be as the criterion with claims.

Claims (6)

1. binary channels reader, it is characterized in that: comprise upper machine body, lower body, intermediate interlayer portion and drive motors, described upper machine body and described intermediate interlayer portion form first passage, described lower body and intermediate interlayer portion form second channel, described intermediate interlayer portion offers the printing opacity cavity, and described printing opacity cavity is communicated with first passage and second channel, on the described upper machine body scanning module is installed, described scanning module is relative with described printing opacity cavity position, described scanning module is used to scan by the medium of first passage or the medium by described printing opacity cavity scanning second channel, the exit of described first passage is provided with printing mechanism, described first passage and second channel both sides are equipped with and drive the transmission mechanism that medium moves, and described drive motors drives described printing mechanism action and transmission mechanism rotates.

2. binary channels reader according to claim 1, it is characterized in that: be provided with in the porch of described first passage on the described upper machine body and be used to detect the first sensor that enters medium in the first passage, be provided with in the porch of second channel in the described intermediate interlayer portion and be used to detect second transducer that enters medium in the second channel.

3. binary channels reader according to claim 1, it is characterized in that: on the described lower body transmitted light source is installed, described transmitted light source is relative with the position of described printing opacity cavity, and the illumination of described transmitted light source emission is mapped to second channel or sees through described printing opacity cavity and shines first passage.

4. binary channels reader according to claim 1, it is characterized in that: described printing opacity cavity is a glass chamber, described glass chamber comprises two glass plates that are oppositely arranged and the cavity that is provided with in intermediate interlayer portion, described two glass plates are embedded in the described intermediate interlayer portion.

5. binary channels reader according to claim 1 is characterized in that: the rubber paper-sheets rolling wheel of described transmission mechanism for being oppositely arranged on upper machine body, intermediate interlayer portion and lower body.

6. binary channels reader according to claim 1 is characterized in that: described printing mechanism is a printhead, and described drive motors drives the printhead action.

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