JP3559267B2 - Optical reader - Google Patents

Description

[0001]
[Industrial applications]
The present invention relates to an optical reader for reading an optical mark such as a bar code.
[0002]
[Prior art]
FIG. 33 is a view showing a conventional barcode reader.
[0003]
The bar code reader shown in FIG. 33 scans a bar code using a light beam emitted from a light source, detects reflected light from the resulting bar code, and obtains bar code data. Hereinafter, the configuration will be described in detail.
[0004]
In FIG. 33, for example, a laser tube or the like is used as a laser unit and emits laser light. The reflection mirror is for causing the laser light emitted from the laser unit to enter a polygon mirror described later. The polygon mirror is driven and rotated by a motor or the like, and reflects and scans a laser beam incident from a laser unit by a mirror provided on a side surface of the polygon mirror to generate scanning light. The pattern mirror reflects the scanning light reflected from the polygon mirror upward. The reading window is a window through which scanning light is emitted. The scanning light emitted from the reading window is applied to the bar code, and the reflected light from the bar code is taken into the bar code reader from the reading window.
[0005]
The reflected light taken into the barcode reader is condensed by a condensing lens via a pattern mirror and a polygon mirror, is reflected downward by a falling reflection mirror, and enters a detection sensor. The detection sensor is mounted on a printed board provided with a control circuit (not shown), and outputs an electric signal corresponding to the amount of detected reflected light. The control circuit performs a barcode demodulation process based on the electric signal from the detection sensor, and outputs the demodulated data to an externally connected device such as a POS terminal. The mounting angle of the drop-in reflection mirror is adjusted so that the reflected light collected by the condenser lens is collected at the position of the detection sensor.
[0006]
[Problems to be solved by the invention]
As described above, in the conventional barcode reader, the laser light source, the reflection mirror, the condenser lens, the detection sensor, and the like are individually mounted in the apparatus.
[0007]
In order to scan the laser light emitted from the laser light source with a polygon mirror or the like and irradiate it on a bar code, the mutual positional relationship between the laser light source and the reflection mirror is accurately positioned, and the laser light is determined by the polygon mirror. It needs to be adjusted to be incident on the position. In addition, in order to receive the laser beam reflected from the barcode with a pattern mirror and polygon mirror and focus it on the detection sensor using a focusing lens, the mounting position of the focusing lens with respect to the polygon mirror, the focusing lens It is necessary to accurately position the distance between the detection sensor or the optical axis of the condenser lens and the position of the detection sensor, and adjust the optical path of the laser light.
[0008]
If these parts cannot be positioned accurately, not only does the barcode reading efficiency decrease, but in extreme cases, the reflected light from the barcode cannot be detected properly and the barcode cannot be read. May fall. However, the positioning work at the time of incorporating these components into the apparatus requires great care, and requires some skill of the operator.
[0009]
In addition, since the laser light source and the like have a lifetime, it is necessary to replace the laser unit every certain period, but it is needless to say that the positioning must be accurately performed when the replaced laser light source is attached. Absent.
[0010]
When a laser light source, particularly a semiconductor laser, is used, even if a driving current under the same conditions is applied to drive the laser light source, the characteristics of the individual laser light sources vary. Subtly different. Barcode readers are designed on the assumption that the laser light source emits light under certain conditions.If the light emission characteristics of the laser light source change each time the laser light source is replaced, barcode reading will not be affected. Will cause.
[0011]
In the conventional bar code reader, it is necessary to adjust a drive circuit of the laser light source in order to cause the replaced laser light source to emit light under a specific condition. However, performing such adjustment of the drive circuit every time the laser light source is replaced increases the amount of work associated with the replacement of the laser light source, and the laser light source cannot be easily replaced. Would. Further, it takes time and effort to make adjustments, and it is also difficult to make the laser light source emit light under completely the same conditions.
[0012]
Furthermore, semiconductor lasers are susceptible to static electricity and are easily destroyed by static electricity. Therefore, great care must be taken when replacing the laser light source, so that the laser light source is not affected by static electricity. Therefore, the replacement work amount of the laser light source is further increased, and it is difficult to completely prevent the destruction of the semiconductor laser even if attention is paid.
[0013]
SUMMARY OF THE INVENTION In view of the above problems, an object of the present invention is to realize an optical reading apparatus that reduces the work of positioning an optical system and facilitates the work of replacing a laser unit. Also, depending on the relationship between the photodetector and the position of the light condensing means, the condensed beam diameter becomes large. When the detected beam diameter becomes large, a bar code having a large bar width can be read. However, in the case of a bar code having a small bar width, a problem occurs such that the bar code cannot be read. This is particularly problematic as the distance between the barcode and the barcode reader increases.
[0014]
Accordingly, it is an object of the present invention to realize an optical reading device capable of reading a bar code having a small bar width regardless of the bar code position.
[0015]
In a store where a barcode reader is used, a memo in which the name of a special sale item or the like is written is attached to an empty space of the counter in order for the operator to recognize a product that becomes a special sale item. However, the space where the memo of the counter can be attached is separated from the barcode reader. In order to read a barcode, the operator generally looks at the barcode reader, but in order to see the memo, the operator must temporarily take his eyes off the barcode reader and move his / her gaze. This imposes a burden on the operator.
[0016]
Therefore, an object of the present invention is to realize a barcode reader that allows an operator to visually recognize various types of information without increasing the movement of the line of sight.
[0017]
In a bar code reader, it is desired that power consumption and the like be suppressed as much as possible except at the time of reading a bar code, and that the life of the laser light source be extended. Therefore, an object of the present invention is to realize a barcode reader that drives a light source and the like of a barcode reader in response to the start of a barcode reading operation. Is provided at a position where it can be reliably detected.
[0018]
Further, conventionally, magnetic tags and the like have been used to prevent shoplifting and the like. When a product is purchased, the tag is invalidated. In a conventional device, a device for invalidating the tag is provided separately from the barcode reader. Therefore, there is a problem that the number of devices to be provided increases. Therefore, an object of the present invention is to realize a barcode reader including a tag invalidating unit integrally with the barcode reader without impairing the operability of the barcode reading operation.
[0019]
The bar code reader is connected to a POS terminal or the like by a cable, and this cable is connected to a connector provided on the bar code reader. However, in the conventional barcode reader, prevention of disconnection of the cable is not considered so much, and the cable may become an obstacle depending on the installation state of the apparatus on the counter.
[0020]
Therefore, an object of the present invention is to realize a bar code reader that prevents a cable from being disconnected and prevents the cable from hindering installation of the device.
[0021]
When a bar code is read, a notification sound is output from a speaker to inform the operator whether the reading has been performed normally. In this case, a speaker hole is provided in the apparatus body for transmitting the speaker sound to the outside. However, there has been a problem that water invades from the speaker hole and the apparatus breaks down.
[0022]
Therefore, an object of the present invention is to realize a device capable of transmitting a notification sound at a sufficient volume outside the device without providing a hole in the device.
[0023]
[Means for Solving the Problems]
The present invention provides a laser light source that emits laser light, a scanning unit that scans the laser light source, emits the laser light to the outside of the device, and irradiates the article with scanning light, and detects reflected light reflected from the article and responds to the amount of light. An optical detector that outputs an electric signal, and a condensing unit that condenses the reflected light on the photodetector.
The light detector is configured to determine an interval between the light collector and the light detector so as to be arranged at a position closer to the light collector than the focal position of the light collector.
[0024]
[Action]
According to the present invention, there is provided an optical unit in which a light source, a light condensing means, a photodetector and the like are integrally mounted, and it is not necessary to particularly adjust the positional relationship between the members.
[0025]
In particular, by incorporating the light source into the circuit board integrally with the drive circuit, the drive circuit can be operated under conditions optimal for the light source without adjusting the drive circuit when replacing the light source.
[0026]
By setting the photodetector at a position closer to the light collecting means than the focal position of the light collecting means, even if the position of the bar code changes, the substantial diameter of the condensed beam does not increase, and the bar width becomes narrower. Even a code can be read.
[0027]
Further, by providing a space for attaching a memo or the like in an optical reading device such as a bar code reader, or by providing a display device in an optical reading device and displaying information according to an external instruction, the time of reading the optical mark and reading the information can be reduced. There is no need to greatly move the line of sight between the time of visual recognition and the burden on the operator.
[0028]
In addition, by providing means for detecting the start of the optical mark reading operation on the path through which the article passes when reading the optical mark, the start of the optical mark reading operation can be detected with a high probability.
[0029]
Similarly, by providing the tag invalidating section on the article passage route, the tag can be invalidated by a natural operation following the optical mark reading operation. Here, by making the height of the tag invalidating section higher than the window position for reading the optical mark, it is necessary to greatly change the height of the article passing when reading the optical mark and the height of the article passing when the tag is invalidated. Therefore, the operability can be improved, and in particular, the operability can be further improved by providing the tag invalidating section at an angle.
[0030]
By providing the connector portion with the cable cover, the cable can be prevented from being pulled out. In particular, by providing a plurality of cable holes in the cable cover, the cable can be pulled out from the cable cover regardless of the installation state of the device.
[0031]
Further, a cable groove is provided around the device, the cable is set in the cable groove, and a cable fixing means for fixing the cable is provided.
[0032]
By resonating the buzzer sound using the space between the apparatus main body and the cover portion, a sufficient buzzer hole can be secured without opening a buzzer hole.
[0033]
By providing a plurality of buzzers having different wavelengths, the buzzer can be easily distinguished from the buzzer sound of another device.
[0034]
In addition, since the light source, the operating means, and the light condensing means are arranged horizontally, the width of the apparatus in the vertical direction can be reduced, and the height of the apparatus can be reduced.
[0035]
【Example】
FIG. 1 is a perspective view of a barcode reader according to one embodiment of the present invention. In the figure, the emission condensing unit is one in which a laser unit, a reflecting mirror, a condensing lens, a detection sensor and the like are integrally mounted. The details of the emission condensing unit will be described later.
[0036]
The polygon mirror is rotated by a driving force of a motor. A mirror is provided on each surface of the polygon mirror, and reflects and scans the laser light from the emission / condensing unit.
[0037]
The pattern mirror is composed of a plurality of mirrors. The scanning light reflected from the polygon mirror enters each mirror of the pattern mirror and is reflected upward. The pattern of the scanning light emitted from the reading window has a pattern as shown in FIG. 2, and each scanning line is generated by each mirror of the pattern mirror.
[0038]
The scanning light emitted from the reading window is irradiated on a barcode label (not shown). The scanning light scans the barcode label, and the scanning light (reflected light) reflected by the barcode label enters the barcode reader via the reading window.
[0039]
The reflected light incident on the barcode reader is condensed by a condenser lens via a pattern mirror and a polygon mirror, and is incident on a detection sensor. The detection sensor generates an electric signal according to the detected reflected light, and a barcode reading process is performed based on the electric signal.
[0040]
FIG. 3 is a diagram illustrating an emission light focusing unit according to the present embodiment. The emission condensing unit is a unit in which a member necessary for emitting a laser beam and a member necessary for condensing and detecting reflected light from a barcode are unitized.
[0041]
In the figure, the printed board mounts a laser unit, a detection sensor and the like, and the lens unit mounts a condenser lens and a reflection mirror.
[0042]
The laser unit includes a laser light source including a semiconductor laser that emits laser light, a shaping lens that shapes the laser light emitted from the laser light source and focuses the laser light at a predetermined position, and a heat sink that dissipates heat generated by the laser light source. A temperature sensor for detecting the temperature of the laser light source is unitized. FIG. 4 shows a cross-sectional view of the laser unit. In order for the laser light from the laser light source to be focused at a predetermined position, the distance between the laser light source and the shaping lens needs to be a predetermined value, but since these are unitized in this laser unit, There is no need to adjust the distance between the laser light source and the shaping lens during the laser replacement operation.
[0043]
The life of a semiconductor laser depends on the integrated lighting time and the ambient temperature during lighting. The temperature sensor contained in the heat sink detects the temperature when the laser is turned on, and sends the result to a control unit (not shown). The control unit stores the relationship between the temperature of the semiconductor laser and the lighting time that is the lifetime. When the laser is turned on, the control unit measures the time and stores the time together with the temperature at the time of lighting the semiconductor. The control unit further raises an alarm when it is determined that the life of the semiconductor laser is approaching based on the stored life time.
[0044]
A drive circuit for a laser light source (not shown) is provided on the printed board. The laser light source is fixed on a printed board so as to be connected to a drive circuit. Since the laser light source and the drive circuit are integrated, the drive circuit corresponding to the laser light source is already set on the printed board, and there is no need to adjust the drive circuit when replacing the laser light source. The drive circuit portion of the printed board is covered with a shield plate made of a metal plate in order to eliminate the influence of static electricity.
[0045]
The detection sensor detects the reflected light from the barcode collected by the condenser lens as described above. The detection sensor is fixed at a predetermined position on the printed board, and is connected to a detection circuit (not shown) mounted on the printed board.
[0046]
The switch switches on / off of the power of the barcode reader.
[0047]
The display unit includes, for example, an LED. When performing a barcode reading operation, it is necessary to inform the operator whether the barcode has been read normally or whether a reading error has occurred. Not be. The display section is used for this purpose and is composed of two LEDs. One LED is turned on when barcode reading is normally performed, and the other LED is turned on when a barcode reading error occurs. A control circuit for controlling the lighting of the LEDs is mounted on the printed board, and the control circuit controls the lighting of one of the LEDs according to the result of the demodulation processing of the bar code data. The number of LEDs is not limited to two, but may be one, or three or more.
[0048]
The external light sensor (also referred to as a restart sensor) detects the amount of light around the bar code reader.
[0049]
When reading a bar code, the laser light source must be turned on and a motor must be driven to rotate the polygon mirror. However, wasteful power is consumed when the laser light source is always turned on and the driving of the motor is continued. Therefore, it is desired to minimize power consumption during a period in which barcode reading is not performed.
[0050]
Further, the life of the semiconductor laser is not so long, and if the semiconductor laser is continuously turned on, the actual operation time of the laser light source becomes very short. In order to extend the apparent or operational life of the laser light source, it is desirable to turn off the laser light source when barcode reading is not performed.
[0051]
When reading the barcode, the operator holds the article or the operator's hand over the barcode reader, so that the barcode reader is covered. Compared to the case where barcode reading is not performed, the amount of ambient light that strikes the barcode reader during barcode reading decreases. Therefore, if it is possible to detect that the amount of ambient light has decreased, it is possible to determine that the barcode reading operation has been started. The external light sensor is provided to detect this change in ambient light.
[0052]
The external light sensor is connected to an external light detection circuit mounted on a printed board. The external light detection circuit compares the ambient light detected by the external light sensor with a preset threshold value, determines that barcode reading has started when the ambient light amount has become equal to or less than the threshold value, and turns on the laser light source. And drive of the motor is started. By using the external light sensor in this manner, it is possible to reduce power consumption during a period in which barcode reading is not performed and to achieve an apparently long life of the laser light source.
[0053]
In the lens unit, the condensing lens condenses the reflected light from the bar code and makes it incident on the detection sensor as described above. The reflection mirrors A and B reflect laser light emitted from the laser light source toward the polygon mirror. The base of the lens unit is formed of resin.
[0054]
FIG. 5 is a drawing showing the positional relationship between the light emitted from the laser light source, the reflected light (return light) from the bar code reader, and each member mounted on the light emitting and condensing unit. In the drawings, (a) shows a drawing viewed from the top, and (b) shows a drawing viewed from the side.
[0055]
The optical axis of the light emitted from the laser light source and the optical axis of the return light are adjusted to coincide. The laser light emitted from the laser light source is reflected by the reflection mirror A in a direction substantially at 90 degrees. The laser light reflected by the reflection mirror A is reflected by the reflection mirror B in a direction opposite to the reflection direction of the reflection mirror A in a direction substantially at 90 degrees, and the laser light is placed on the optical axis a to form a polygon mirror. Emitted toward.
[0056]
On the other hand, the return light from the bar code enters the condenser lens with a certain spread. The focusing lens is positioned so that the optical axis of the focusing lens also coincides with the optical axis a, and the focusing lens collects the return light and makes it incident on the detection sensor. Since the center of the detection sensor is located on the optical axis a and is provided at the focal position of the condenser lens, the return light from the condenser lens is focused on the detection sensor.
[0057]
The return light that enters the detection sensor directly enters from the condenser lens, and no mirror or the like is provided therebetween. Further, the laser light source is mounted at a position on the printed board away from the detection sensor by a distance L so as to avoid the incident position of the return light and avoid the light path of the emitted laser light from the condenser lens. The mounting positions of the laser light source and the detection sensor in the vertical direction are matched.
[0058]
The laser unit and the detection sensor are mounted at predetermined positions on the printed board so as to satisfy the positional relationship of each part in FIG. The condenser lens is mounted on the base of the lens unit so that the optical axis of the condenser lens is located at the optical axis a.
[0059]
The reflection mirrors A and B are respectively attached to the tips of arms formed by bending a metal plate. The height of the arms is set according to the height of the laser unit and the height of the polygon mirror, and the distance between the arms is set to L in FIG.
[0060]
In order to keep the distance between the condenser lens and the detection sensor at a predetermined value, the pedestal portion and the arm of the lens unit have a length corresponding to the distance between the condenser lens and the detection sensor. The pedestal of the lens unit and the printed board are fixed by screws, for example, and are integrated.
[0061]
By configuring the emission light condensing unit in this way, it is not necessary to perform positioning of each part at the time of exchanging the laser light source or the like, and it is possible to improve work efficiency.
[0062]
6 to 9 are diagrams showing the relationship between the position of the article and the focal point by the condenser lens. FIG. 6 shows a conventional bar code reader. In the figure, A, B, and C indicate the positions of the articles with bar codes, respectively, where A is closest to the bar code reader and C is the farthest point. O is a center point of the condenser lens.
[0063]
The reflected light from the point A closest to the barcode reader is focused on the point A1 farthest. The reflected light from the intermediate point B is focused on the intermediate point B1, and the reflected light from the farthest point C is focused on the point C1 closest to the condenser lens. F is the focal point (the focal position of the condenser lens) when parallel light is incident on the condenser lens.
[0064]
In the case of FIG. 6, the detection sensor is installed at the intermediate point B1. FIG. 7 shows the relationship between the position where the reflected light is generated (reflection position) and the diameter of the focused beam at the detection sensor position (Lp = OB1). As can be seen from this figure, at the detection sensor position B1, the diameter of the condensed beam due to the reflected light from the in-focus point B is the smallest, and the distance from the point B increases.
[0065]
Increasing the focused beam diameter means that the minimum bar width limit at which detection is possible will increase accordingly. Therefore, it is difficult to detect a bar code having a small bar width at points A and C where the focused beam diameter is large. In particular, at point C at a position distant from the bar code reader, the minimum detectable bar width becomes considerably large.
[0066]
On the other hand, in the configuration shown in FIG. 8, the detection sensor is disposed farther from the condenser lens than the focal length f of the condenser lens. FIG. 9 is a drawing showing the relationship between the position where the reflected light is generated and the diameter of the focused beam in this case (Lp = OP). In this case, the condensed beam diameter at the point P is the largest condensed beam diameter due to the reflected light from the point A closest to the bar code reader, and the farther from the bar code reader, the larger the condensed beam diameter of the reflected light. Becomes smaller.
[0067]
The fact that the focused beam diameter becomes smaller when the article is far from the barcode reader means that a barcode with a narrower bar width can be read even when the barcode is far away. On the other hand, when the barcode is close to the barcode reader, the focused beam diameter increases, but since the barcode itself is originally close to the barcode reader, the minimum detectable bar width does not substantially increase. It does not affect bar code reading.
[0068]
Therefore, the detection sensor according to the present embodiment comes to a position where the reflected light from the position set at the farthest point is focused by the condenser lens, more specifically, a position closer to the condenser lens than the focal point of the condenser lens. Are arranged as follows. With this configuration, it is possible to realize a stable barcode reading without causing a large difference between the reading ability of a barcode at a far position and the reading capability of a barcode at a close position. When the position of the point C is set as the farthest reading position, the light detector may be provided on the condenser lens side from the position where the reflected light from the point C is focused. It is not necessary to provide a photodetector in the system.
[0069]
It is necessary for the operator who registers and pays for the goods to recognize what the time service goods and the special sale goods are, such as discounting the price of the goods according to the time zone. For this reason, conventionally, a memo in which the name of a special sale item is entered is pasted using a tape or the like, for example, in an empty space of a checkout counter or a portion below a keyboard.
[0070]
Here, the height of the checkout counter is different from the height of the reading window surface of the barcode reader, and the position is completely different. When performing barcode reading, the operator moves his or her line of sight near the reading window of the barcode reader. In order to confirm the memo, the operator needs to move his / her line of sight to the position where the memo such as a checkout counter is attached. However, since the bar code reader and the position where the memo of the checkout counter can be attached are far apart, the operator must move his / her gaze greatly. Therefore, a heavy burden is imposed on the operator to check the memo.
[0071]
In addition, since the memo can only be attached with an adhesive tape, there is a disadvantage that the memo is caught by a product during a barcode reading operation, and the memo is easily detached.
[0072]
Thus, the barcode reader according to the present embodiment is configured to be attached near the barcode reader reading window where the operator can easily view the memo or the like.
[0073]
FIG. 10 is a diagram illustrating one embodiment of a barcode reader according to the present embodiment. In the figure, (a) shows a case where a space where a memo can be inserted is provided at a position off the reading window in front of a bar code reader, and (b) shows a case where an iron plate for stopping the memo with a magnet or the like is provided. Is shown.
[0074]
The reading window of the bar code reader according to the present embodiment is provided on the right side in FIG. 10, and there is a relatively large empty space on the left side of the bar code reader. In this embodiment, this space is used, and a memo or the like can be inserted at this position.
[0075]
An opening window is provided on the left side of the front of the barcode reader so that the inserted memo can be seen. A window made of glass, transparent resin, or the like is attached to the opening. By attaching such a window, it is possible to prevent water droplets falling from a product or the like from entering the device, and to prevent a mechanism or a memo inside the device from getting wet. This window is not particularly required.If the penetration of water droplets into the device can be sufficiently achieved by other means, the bar code reader is installed in an environment where the memo does not get wet, or the memo is not used. If it does not matter if it gets wet, it is not necessary to attach the window.
The cross section of the cover of the bar code reader has a U-shape as shown in FIG. 11, and a gap is generated between the window and the device cover. Therefore, in this embodiment, a memo is inserted into this portion. As shown in FIG. 10, an insertion opening for inserting a memo into the barcode reader is provided on a side surface (an upper portion in the figure) of the cover. The memo insertion slot is desirably shaped so that the memo can be easily removed. Further, although nothing is attached to the memo insertion slot in FIG. 10, when the barcode reader is installed in, for example, a vertically long direction, it is conceivable that the memo may drop out. In order to prevent this, an openable lid or the like may be provided at the memo insertion slot.
[0076]
As shown in FIG. 10B, the memo may be attached by a magnet or the like, and the object of the invention can be achieved by attaching a clip for sandwiching the memo at this position.
[0077]
As shown in FIG. 10, on the cover of the bar code reader, a pass mark for indicating a position through which the bar code passes is shown (a triangle in the figure, but a shape such as a circle or an arrow can be arbitrarily selected. ) Is provided. In order to read a bar code without causing an error, there is an optimum position where an article should be passed. The pass mark on the cover is provided to inform the operator of the optimum position for passing the article. That is, at the time of reading a barcode, the article almost always passes through the passage mark.
[0078]
Focusing on this point, the bar code reader of the present embodiment is provided with the above-described external light sensor (restart sensor) at the portion of the passing mark. When the external light sensor is provided at a position where the passage of the article is hardly expected, the change in the ambient light amount cannot be detected unless this position is blocked by the article or the operator's hand during the barcode reading operation. Since the operation when passing an article varies from one operator to another, it is necessary to sufficiently consider the mounting position of the external light sensor.
[0079]
As described above, the pass mark position is a position at which an article always passes when reading a bar code, and even if there is an individual difference in operation, this position can be blocked by the article or the operator's hand. Therefore, by providing an external light sensor at this position, it is possible to always detect a change in the amount of ambient light at the time of a barcode reading operation, and to reliably turn on the laser light source and perform on / off control of motor driving.
[0080]
Note that the position of the external light sensor is not limited to the passing mark, and may be any position where the operator's line of sight can be naturally directed at the time of reading the barcode, such as on a path through which the article passes when reading the barcode. Is preferably provided at a position before the reading window with respect to the moving direction.
[0081]
On the other hand, since the passing mark portion is a position through which the operator's line of sight passes when reading the barcode, a display lamp (display section) indicating whether or not the barcode can be read may be provided at this position. Thus, the operator can confirm whether or not the barcode can be read without largely moving the line of sight.
[0082]
In addition, an iron plate may be attached to the side of the reading window of the barcode reader, and a memo may be attached to the position with a magnet (FIG. 10b). You may attach a clip to pinch.
[0083]
FIG. 12 is a diagram showing an embodiment in which a display device such as a liquid crystal display panel is provided in front of a barcode reader.
[0084]
FIG. 13 is a diagram showing a connection form between a barcode reader and a POS terminal and a data flow. The barcode reader is connected to an external device via a cable or the like to a POS terminal or the like in order to transmit the read barcode data. From the barcode reader, the barcode data read by the barcode reader is transmitted to an external device. The external device searches for a product file connected to the external device based on the sent barcode reader, and outputs information such as a product name and a price from the product file.
[0085]
FIG. 13A shows a conventional data flow. A control signal such as an instruction to output an alarm sound when a product file cannot be retrieved is transmitted from the external device to the barcode reader, but no other information is transmitted. In this embodiment, attention is paid to this point, and information on a special sale target product or the like is transmitted from the external device to the barcode reader, and the information is displayed on the display device of the barcode reader.
[0086]
Various product information is stored in the product file. In the case of a product for the time service, the time for the time service, the discounted price, and the like are stored together with the product code, the product name, and the like. Therefore, in order to display the product information for the time service on the barcode reader, the present embodiment uses the information stored in the product file.
[0087]
FIG. 13B is a diagram showing a data flow according to the present embodiment. In the present embodiment, commodity price data and service information to be displayed on the display unit of the barcode reader are transmitted from the POS terminal as display information. The information transmitting unit creates display information based on the contents of the product file or based on an instruction from a device connected to a higher level.
[0088]
When the time service start time comes, the POS terminal searches the product file, outputs data such as the product name of the product targeted for the time service and the discounted price from the product file, and transmits the data to the barcode reader. The barcode reader receives the product information from the POS terminal and displays the contents on a display device. With this configuration, it is possible to inform the operator of the barcode reader which product is the target of the time service.
[0089]
Similarly, in the case of a special sale product, information indicating that the product is a special sale product is stored in the product file, and for example, when the store is opened, the name of the special sale product is searched from the product file based on this information. , To the barcode reader. The bar code reader displays the received special sale item name on the display device.
[0090]
Conventionally, when a barcode is read by a barcode reader, a product name, a price, and the like are displayed on a display device of the POS terminal. The line of sight of the operator is directed to the barcode reader during a barcode reading operation. In order to confirm the product name and price of the read product, the user looks at the display of the POS terminal. However, depending on the layout of the checkout counter, the POS terminal and the barcode reader may be located separately. In such a case, the movement of the operator's line of sight becomes large, and it becomes difficult to confirm the display contents.
[0091]
In the case of the present embodiment, since the bar code reader is provided with a display device, by displaying the product name and price of the product read here, the line of sight during the reading operation and when confirming the display contents is displayed. The movement can be pushed to a minimum, and the fatigue of the operator can be reduced.
[0092]
Upon receiving the barcode data from the barcode reader, the POS terminal searches for a product file as described above, and outputs information such as a product name and a price from the product file. The POS terminal displays the product name, price, and the like on its own display, and also transmits product information, such as the product name and price, to the barcode reader. The bar code reader displays the received product information on a display. By such an operation, information on the product from which the barcode has been read can be displayed on the display of the barcode reader.
[0093]
Further, by transmitting service information on various products, instructions and guidance to the operator, etc. from the POS terminal or a device connected at a higher level to the barcode reader, all kinds of information can be transmitted to the barcode reader. Can be displayed in a form that is easy for the operator to visually recognize.
[0094]
The display needs to be attached to the main body of the bar code reader so as not to disturb the optical paths of the emitted light emitted from the laser light source and the return light from the bar code. In this case, if the thickness of the display is large, the thickness of the bar code reader is also large so as not to disturb the optical path. In order to reduce the thickness of the barcode reader, it is desirable to use a thin display device, for example, a liquid crystal display device.
[0095]
FIG. 14 is a diagram showing a checkout counter including a tag invalidating device together with a barcode reader.
[0096]
Conventionally, there has been known a system that attaches a magnetic anti-shoplifting tag to a product and detects the magnetism by a detector provided at a store entrance or the like when the product is attempted to be illegally taken out of the store, and notifies the user of the unauthorized removal. ing. If a product is purchased regularly, it is necessary to invalidate this tag. Conventionally, as shown in the figure, a tag invalidation device that performs magnetic erasure of the tag, etc. is placed on the checkout counter alongside the bar code reader. Had been provided. The tag invalidating device can be appropriately selected according to the type of the tag.
[0097]
Goods that have passed over the barcode reader to read the barcode then pass over the tag invalidation device. Therefore, the tag can be invalidated immediately after the barcode is read. However, since it is useless to have the tag invalidating device and the barcode reader separately, it has been desired to integrate the barcode reader and the tag invalidating device.
[0098]
FIG. 15A is a diagram showing a conventional barcode reader in which a barcode reader and a tag invalidating device are integrated. In the illustrated bar code reader, a tag invalidating unit such as a magnet is attached around a reading window of the bar code reader. By using such a device, it was possible to integrate the barcode reader and the tag invalidating unit.
[0099]
However, since there is a tag invalidation section around the window, the tag was invalidated before scanning the barcode, and it was possible to determine whether the product was registered or the tag was just invalidated. And it is not possible to effectively prevent shoplifting. Further, the read window and the tag invalidating section are too close, and the area of the tag invalidating section is too small.
[0100]
FIG. 15B is a diagram showing the movement of a product when barcode reading and tag invalidation are performed using the barcode reader of FIG. 15A. As shown in FIG. 15 (b), when scanning a barcode, the product is moved so as to avoid the tag invalidating section in front, and the barcode is moved in order to bring the product closer to the tag invalidating section. The product had to be moved below the position to be scanned. Further, in order to ensure the invalidation of the tag, it is necessary to return the product once passed on the barcode reader to the barcode reader again and to pass over the tag invalidating section.
[0101]
In this embodiment, such a disadvantage is solved. FIG. 16 is a diagram showing a barcode reader according to this embodiment. The present embodiment is characterized in that a tag invalidating unit is provided in an empty space of a cover of a barcode reader in a line with a reading window. The reading window is arranged close to the right side of the apparatus, and an empty space is created on the left side of the apparatus. In this embodiment, a tag invalidating unit is provided using this space. Therefore, the area of the tag invalidating section can be increased, and the product passes through the tag invalidating section after passing through the reading window, so that the tag is not invalidated before the barcode is read.
[0102]
FIG. 17 is a side view of the barcode reader of the present embodiment. In this embodiment, after the bar code is read by passing the product through the reading window, the product is moved so as to be in contact with the tag invalidating unit, and the tag is invalidated. When reading a barcode, there is no need to move the product so as to avoid the tag invalidating unit, and there is no need to return the product and pass it through the same place again, so that the operability of the barcode reading operation can be improved. .
[0103]
Here, in order to invalidate the tag, there is a case where the tag and the tag invalidating unit need to be brought into contact with each other. On the other hand, from the relation of the focal position of the scanning light, the most suitable passage position of the product for barcode reading is often set to a position slightly distant from the reading window. FIG. 17 shows a state of article movement for barcode reading and tag invalidation. As shown in FIG. 17, when reading a barcode, the article passes through a certain height from the reading window. On the other hand, when invalidating the tag, it is necessary to pass below the bar code reading position so that the article is brought into contact with the tag. As described above, the article passing position at the time of reading the barcode and the article passing position at the time of the tag invalidating operation are significantly different in height. Therefore, the width of movement of the article in the height direction becomes large, and the workability is considerably reduced if not as much as that of FIG.
[0104]
In order to solve such a point, the height of the tag invalidating unit provided in the barcode reader may be increased. If the height of the tag invalidating section is close to the height at which the article passes when reading the barcode, the article can be contacted with the tag invalidating section by natural operation following the barcode reading. Can be.
[0105]
FIGS. 18 and 19 show an embodiment of a barcode reader in which the height of the tag invalidating unit is increased. FIG. 18 is a perspective view of the bar code reader, and FIG. 19 is a side view thereof. In the barcode reader of the present embodiment, the tag invalidating section is higher than the reading window position, and the cover portion to which the tag invalidating section is attached is inclined toward the direction in which the product passes.
[0106]
FIG. 19 further shows how the article passes when reading the barcode and invalidating the tag. In the bar code reader of FIG. 19, by moving the article linearly and slightly obliquely downward, the article can be passed to a position optimal for bar code reading, and the article can be passed to the tag invalidating section. it can. In particular, since the tag invalidating section is arranged at an angle, the operation when the article is brought into contact with the tag invalidating section can be performed naturally, and the workability of barcode reading and tag invalidating can be improved. it can.
[0107]
In the embodiment of FIG. 19, the height of the tag nullification unit is fixed, but the height of the tag nullification unit is optimized for each operator by providing a mechanism that can adjust the inclination of the tag nullification unit. It is also possible to adjust to a different position.
[0108]
FIG. 20 is a drawing showing another embodiment. In FIG. 20, an elastic member such as a sponge is provided at a position where the tag invalidating section is attached, and the tag invalidating section is provided thereon. With this configuration, the impact applied to the product when the product is brought into contact with the tag invalidating portion is absorbed by the elastic member, and particularly when the tag attached to the product that is easily damaged such as a bottle is invalidated, It is possible to prevent the product from being damaged.
[0109]
FIG. 21 is a drawing showing the back of the barcode reader. A connector for connecting a cable connected to the POS terminal is provided on the back of the apparatus, and an adapter for supplying power to the barcode reader is connected.
[0110]
A cable cover is attached to the bar code reader so as to cover the connector portion. If the cable connected to the connector is exposed, the cable can be caught or the connector can be easily removed from the cable, and the appearance is not very good. In order to solve such a point, in the barcode reader according to the present embodiment, a cable cover is attached to the connector portion to prevent the cable from being disconnected.
[0111]
The barcode reader can be installed in either the vertical or horizontal direction.When the barcode reader is placed horizontally, the reading window is located on the right side toward the operator. There is a case where it is made to be on the left side toward the operator. In order to cope with such an arrangement of the barcode reader, three cable holes are formed in the cable cover of this embodiment.
[0112]
FIG. 22 is a drawing showing a state where the cable is pulled out from the cable hole. The cable connected to the connector is pulled out from one of the cable holes provided in the cable cover. When the barcode reader is installed horizontally, particularly when the barcode reader is set vertically, pulling the cable downward does not hinder the cable. Therefore, in such a case, the cable can be pulled out from the cable hole a provided on the short side of the cable cover. Further, when the cable cannot be pulled directly below due to the structure of the counter in which the barcode reader is installed, the cable may be drawn downward from the cable hole b provided on the long side of the cable cover.
[0113]
On the other hand, when the barcode reader is installed vertically, it is often advantageous to pull out the cable from the cable hole b. However, depending on the situation in which the barcode reader is installed, it is also possible to pull out the cable from the cable hole a. Is also good.
[0114]
The bar code reader according to the present embodiment can be used by being mounted on a counter as shown in FIG. When the barcode reader is installed on the counter as described above, if the cable is exposed, it becomes an obstacle and the appearance is not good. For this reason, in the bar code reader according to the present embodiment, a space (cable groove) in which cables can be routed in a state where the device is installed on the counter is provided around the back surface of the device.
[0115]
Further, a cable clip is provided in the cable groove to fix the cable laid in the cable groove. The cable clip may be formed integrally with the device housing. By providing the cable clip, the slack of the cable pulled out from the cable hole can be eliminated.
[0116]
FIG. 23 is a drawing showing a barcode reader body and a cover provided with speaker holes.
[0117]
Conventionally, in order to notify an operator that a barcode has been normally read, a speaker is sounded when the barcode is successfully read. The speaker is provided below a speaker hole provided on the upper surface of the apparatus main body. In addition, there is a bar code reader in which a cover is provided on the upper surface in order to double the reading window. A window made of glass or the like is provided on the cover at a position overlapping with the window glass on the side of the barcode reader main body. The window on the cover side is replaceable in case of being damaged, and protects the window on the main body side.
[0118]
Also on the cover side, a speaker hole is provided at a position corresponding to the speaker hole of the main body. Since the cover is configured to completely cover the upper surface of the main body, a speaker hole is provided so that the speaker sound can be transmitted to the outside.
[0119]
In a conventional bar code reader, speaker holes are provided in both the apparatus main body and the cover. However, there is a problem that water droplets easily enter the inside of the apparatus. Some of the products to be read with a barcode have a wet surface or a liquid. When reading the barcode of such a product, water droplets may fall on the upper surface of the barcode reader. If a speaker hole is formed on the cover, water droplets enter the main body side from here, causing problems such as failure of the bar code reader.
[0120]
In order to prevent such intrusion of water droplets, it is conceivable to eliminate the speaker hole on the cover. However, this cannot provide a sufficient volume of speaker sound, and the operator is notified of the bar code reading. You will not be able to do it.
[0121]
FIG. 24 is a diagram showing a bar code reader that solves this problem, and shows a bar code reader main body and a cover installed thereon. Glass is fitted into the cover at the portion of the reading window, and this cover is installed on the main body of the barcode reader. Nothing similar to a speaker hole is formed on the upper surface of the cover, so that moisture does not enter the inside of the device from the upper surface of the cover.
[0122]
On the other hand, a buzzer hole with a buzzer attached to its lower surface is formed in the upper part of the bar code reader main body. When the buzzer sounds, a buzzer sound is transmitted from this hole. Since the cover covers the top surface of the barcode reader, even if waterdrops fall on the cover, no waterdrops enter the barcode reader body side, and the possibility of moisture entering the device through the buzzer hole is extremely low. . It goes without saying that a speaker may be used instead of the buzzer.
[0123]
Since no holes are formed on the cover, the buzzer sound transmitted to the outside of the apparatus becomes extremely small as it is, making it difficult to hear. In the apparatus of FIG. 24, in order to eliminate this point, a space is provided between the top surface of the bar code reader and the cover, a buzzer sound resonates in this space, and a step is provided on the side surface of the bar code reader. The buzzer sound is transmitted from outside. FIG. 25 is a drawing showing a cross section of the bar code reader of FIG.
[0124]
On the upper surface of the barcode reader main body, four columns for supporting the cover are provided, and the columns secure the space between the cover and the upper surface of the apparatus. The height of the support is set according to the required space size. Note that the size of the space may be appropriately selected in accordance with the frequency of the buzzer sound so that an optimum resonance effect can be obtained.
[0125]
The buzzer sound is transmitted to the outside through the step portion of the bar code reader main body as indicated by an arrow in FIG. Although a step is provided on the side surface of the apparatus, when the apparatus is installed horizontally, water does not intrude inside the apparatus over this step. In addition, when the device is installed vertically, the step faces the information, but in such a case, the product only passes through the front of the barcode reader, and in normal operation it does not pass over the barcode reader. There is no need to worry about moisture intrusion.
[0126]
FIG. 26 is a diagram showing the relationship between the wavelength (frequency) of the buzzer sound and the volume. The buzzer has a characteristic that the sound volume reaches a peak when the wavelength of the sound is a certain value (a in the figure), and the sound volume sharply decreases when the wavelength becomes a value before and after the wavelength.
[0127]
Although a barcode reader is installed in a store, many similar barcode readers are often installed. Therefore, if the buzzer sound of the bar code reader in the store is set to the same pitch, the operator may not be able to distinguish whether the buzzer of the bar code reader operated by himself or another device sounds. . However, if the bar code reader has only one buzzer, for example, if the wavelength of the buzzer sound is b in FIG. 26, the volume of the buzzer sound is considerably reduced, and the buzzer sound itself may not be heard. There is.
[0128]
In order to solve this problem, the barcode reader is provided with a plurality of buzzers that sound at different heights, and the above-mentioned problem can be solved by switching the buzzer that sounds by switching a switch or the like.
[0129]
FIG. 27 is a diagram showing the relationship between the wavelength of the buzzer sound and the volume when a plurality of buzzers are provided. The wavelength a of the buzzer A is set lower than the wavelength b of the buzzer B. As described above, by providing a plurality of buzzers that sound at different wavelengths, even if the buzzer sounds at different pitches, the peak of the sound volume appears corresponding to each wavelength. For this reason, even if the pitch of the buzzer sound is changed, the problem that the buzzer sound is reduced and listening becomes difficult is eliminated.
[0130]
The number of buzzers provided need not be two, and three or more buzzers may be attached if there is room for the buzzer installation. As shown in FIG. 28, the more peaks of the buzzer sound, the easier it is to distinguish it from the buzzer sounds of other devices.
[0131]
In the bar code reader of FIG. 24, a gap between the cover and the apparatus main body is provided along the long side of the apparatus. However, depending on the installation state of the bar code reader, this gap is closed by a checkout counter or the like. This makes it difficult for the buzzer sound to be transmitted to the outside. FIG. 29 is a diagram showing a barcode reader in which this point is eliminated.
[0132]
In FIG. 29, a buzzer 1 for transmitting sound upward is attached to the upper surface of the barcode reader, and a buzzer 2 attached to the side of the barcode reader so that sound is transmitted laterally. Further, the shape of the cover is also changed so that the cover itself has a U-shape.
[0133]
FIG. 30 is a view showing a state in which the conventional barcode reader of FIG. 34 is installed on a counter. A conventional bar code reader is high, and if it is installed on a counter as it is, the reading window position may be too high. Therefore, in the conventional barcode reader, a part of the barcode reader has to be embedded in order to suppress the height of the apparatus.
[0134]
On the other hand, as shown in FIG. 31, the barcode reader according to the present embodiment has a low height, so that the barcode reader can be installed on the counter without being embedded in the counter. Further, in order to effectively read a bar code, it is desirable that the scanning light is scanned over a wide range and the scanning light passes over the counter. Since the bar code reader of this embodiment has a low device height, the scanning light reaches the counter, and the bar code can be reliably read even when the article is passed on the counter. .
[0135]
32 and 33 are drawings showing a case where a keyboard is installed on a barcode reader. FIG. 32 shows a conventional one and FIG. 33 shows one according to the present embodiment.
[0136]
Conventional bar code readers are taller and the distance between the top of the bar code reader and the reading window is wider. Therefore, as shown in FIG. 32 (b), the difference between the position where the article is passed to read the barcode and the position where the keyboard is operated is large, and when it is necessary to operate the keyboard, the operator can use his / her arm. Must be raised even higher than when reading barcodes. For this reason, a burden has been placed on the operator.
[0137]
In contrast, in the case of FIG. 33, the height of the barcode reader is low, and the difference in height between the reading window and the top of the barcode reader is small. Therefore, as shown in FIG. 33 (b), even when the keyboard is set on the barcode reader, the difference between the height at which articles pass in front of the reading window and the height at the time of operating the keyboard is small. small. Therefore, when the keyboard is installed on the barcode reader according to the present embodiment, the burden on the operator's arm can be reduced as compared with the conventional one.
[0138]
【The invention's effect】
According to the present invention, by unitizing the light source, the detection sensor, the condenser lens, and the like, it is possible to reduce the labor of adjusting each part when replacing each part, and to influence the light source due to static electricity and replace the light source. This can prevent troublesome adjustment of the characteristics of the light source.
[0139]
In particular, by setting the mounting position of the detection sensor to be closer to the condenser lens than to the focal position of the condenser lens, it is possible to perform stable bar code reading regardless of the bar code position.
[0140]
In addition, by providing a space for inserting notes in the barcode reader, or by providing a display unit on which various information is displayed in accordance with instructions from a device connected to a higher level, it is possible to easily display product information that the operator should recognize. Information can be displayed, and in particular, by using the display unit, information to be notified to the operator can be displayed in a timely manner.
[0141]
By providing the shoplifting prevention tag on the barcode reader side by side with the reading window, the tag invalidating operation can be performed following the barcode reading operation. In particular, the height of the tag invalidating section is made higher than the reading window. Thus, the movement of the article for barcode reading and tag invalidation can be performed linearly. Further, by arranging the tag invalidating unit obliquely lifted toward the reading window, the article after the barcode reading has been performed by a more natural operation can be brought into contact with the tag invalidating unit. Further, by disposing the tag invalidating section on the elastic member, it is possible to absorb an impact when the tag invalidating section comes into contact with the tag invalidating section and prevent the article from being damaged.
[0142]
By providing the cable cover on the connector portion, the cable connected to the connector is prevented from being disconnected. In particular, by providing the cable holes at a plurality of locations on the cable cover, it becomes possible to pull out the cable from the cable cover in an optimal form even if the installation method of the device changes. Further, by providing a groove on the back surface of the apparatus and providing a cable fixing member for fixing the cable, the cable does not become an obstacle, and the cable can be prevented from slackening.
[0143]
By making the buzzer sound resonate between the top of the device and the cover and providing an opening on the side of the device, it is not necessary to make a buzzer hole in the top of the device or on the top of the cover, and the buzzer sounds at the required volume Obtainable. In addition, by providing a plurality of buzzers having different sounds, it is possible to easily distinguish the buzzer sound from other devices without causing a decrease in the buzzer sound.
[0144]
In addition to the description in the above embodiments, the present application also discloses the following inventions.
[0145]
An object of the present invention is to provide a laser light source that emits laser light, a scanning unit that scans the laser light source, emits the light to the outside of the apparatus, and irradiates the article with scanning light, and detects reflected light reflected from the article to reduce the amount of light. A light detector that outputs a corresponding electric signal, and an optical reading device that includes a light collecting unit that collects reflected light on the light detector.
The problem can be solved by providing an optical unit in which at least a laser light source, a condensing unit, and a photodetector are integrally mounted.
[0146]
Further, a driving circuit for driving the laser light source, and a circuit board having a detection circuit for detecting reflected light from the article by receiving an output signal from the photodetector, the laser light source is connected to the driving circuit The photodetector is mounted on the circuit board so as to be connected to the detection circuit, and the circuit board forms a part of the optical unit.
[0147]
Further, the center of the photodetector is disposed on an extension of the optical axis of light emitted from the laser light source.
[0148]
The laser light source and the photodetector are arranged and fixed at a predetermined interval on the circuit board, and the optical unit is adjusted so that the optical axis of the light emitted from the laser light source coincides with the center of the photodetector. Adjusting means for adjusting;
[0149]
The laser light source is configured to form a light source unit integrally formed with a beam shaping lens that shapes light emitted from the laser light source.
[0150]
The distance between the light collector and the photodetector is determined so that the light detector is located closer to the light collector than the focal position of the light collector.
[0151]
In addition, a sheet mounting portion for attaching a card-shaped sheet is provided on the front surface of the housing of the optical reading device, or a display portion is provided on a reading window side of the housing of the optical reading device, and information transmitted from the external connection device is displayed on the display portion. It is characterized by displaying.
[0152]
In particular, the present invention includes an information transmitting unit for searching for a product file based on the sent optical mark data and sending out the searched product information to the optical reading device. Display information.
[0153]
Further, an ambient light detector for detecting a change in the amount of ambient light is provided on a path through which the article with the optical mark passes when reading the optical mark, and in particular, the ambient light detector is provided with a passage mark. Installed in a location.
[0154]
In addition, a tag invalidating section for invalidating the tag for preventing unauthorized removal taken out of the article is provided along the path through which the article to be read with the optical mark passes alongside the reading window. In particular, the tag disabling unit is installed at a position higher than the reading window, and the tag disabling unit is inclined and placed on the optical reading device so that its height gradually changes from the reading window side. is set up. Further, the tag invalidating section is installed on an elastic body provided on the optical reader.
[0155]
Further, according to the present invention, a detachable cable cover that covers the connector section may be provided on the back surface of the optical reading device provided with the connector to which the cable is connected, and the cable cover may include a plurality of cable holes from which the cable is drawn. Also, a cable groove for holding a cable connected to the connector may be provided on the back surface of the optical reader, and a cable fixing means for fixing the cable may be provided in the cable groove.
[0156]
According to another aspect of the present invention, there is provided an apparatus including: a main body including at least a light source and a first reading window; and a cover unit provided on the main body and including a second reading window. The buzzer sound from the main body and the cover part are resonated in the space formed between the main body and the cover part to amplify the buzzer sound. You may comprise so that it may transmit outside from this opening part. In addition, the main body may include a support on which the cover is placed and which secures a space with the cover. Further, the present invention may include a plurality of buzzers each having a buzzer sound having a different wavelength.
[Brief description of the drawings]
FIG. 1 is a view illustrating a barcode reader according to an embodiment of the present invention.
FIG. 2 is a diagram illustrating a scanning pattern according to an embodiment.
FIG. 3 is a view showing an output light focusing unit according to an embodiment of the present invention.
FIG. 4 is a sectional view of a laser unit.
FIG. 5 is a drawing showing the relationship between outgoing light, return light, and each part of an outgoing light focusing unit.
FIG. 6 is a drawing showing a focal point of each reflected light when the detection sensor is at an intermediate position.
FIG. 7 is a drawing showing a change in a focused beam diameter at the time of FIG. 6;
FIG. 8 is a drawing showing the focal point of each reflected light when the detection sensor is located before the focal position of the condenser lens.
FIG. 9 is a drawing showing a change in a focused beam diameter at the time of FIG. 8;
FIG. 10 is a diagram showing an embodiment of a barcode reader provided with a memo insertion slot.
FIG. 11 is a sectional view of a memo insertion part.
FIG. 12 is an example of a barcode reader having a display unit.
FIG. 13 is a diagram showing a data flow between a barcode reader and a POS terminal.
FIG. 14 is a diagram showing a counter including a barcode reader and a tag invalidating device.
FIG. 15 shows a conventional barcode reader having a tag invalidating unit.
FIG. 16 is a diagram illustrating a barcode reader including a tag invalidating unit according to an embodiment of the present invention.
FIG. 17 is a view showing a state of article movement in FIG. 16;
FIG. 18 shows another embodiment of a barcode reader having a tag invalidating unit.
FIG. 19 is a view showing a state of article movement in FIG. 18;
FIG. 20 is another embodiment of the barcode reader including the tag invalidating unit.
FIG. 21 is a diagram showing a back surface of the barcode reader.
FIG. 22 is a view showing a state of a cable pulled out from a cable hole.
FIG. 23 shows a conventional bar code reader having a speaker hole.
FIG. 24 is an embodiment of a bar code reader in which a buzzer hole is eliminated.
FIG. 25 is a sectional view of the bar code reader of FIG. 24;
FIG. 26 is a view showing characteristics of a buzzer.
FIG. 27 is a drawing showing characteristics of a buzzer when two buzzers are provided.
FIG. 28 is a drawing showing characteristics of a buzzer when a large number of buzzers are provided.
FIG. 29 is another embodiment of the bar code reader in which the buzzer hole is eliminated.
FIG. 30 is a view illustrating a conventional barcode reader installed on a counter.
FIG. 31 is an embodiment of the barcode reader of the present invention installed on a counter.
FIG. 32 is an embodiment of a conventional barcode reader having a keyboard installed on the top.
FIG. 33 is an embodiment of the barcode reader of the present invention in which a keyboard is installed on the top.
FIG. 34 is a view showing a conventional bar code reader.

Claims (1)

A laser light source that emits laser light, a scanning unit that scans the laser light source, emits the light to the outside of the apparatus, and irradiates the object with scanning light, and detects reflected light reflected from the article and outputs an electric signal corresponding to the amount of light. An optical reading device comprising: a light detector that outputs light; and a light collecting unit that collects the reflected light on the light detector.
The distance between the light collector and the light detector is determined so that the light detector is arranged at a position closer to the light collector than the focal position of the light collector. Optical reader.

Images