JP5406247B2 - Cradle - Google Patents

Description

  The present invention relates to a cradle on which a display terminal is placed.

  Conventionally, a cradle for placing an electronic device with a display device has been proposed. For example, when an electronic device with a display device and a cradle that holds the electronic device are separate, the cradle has a pivotable backrest that opens and closes the placement unit, and holds the electronic device on the placement unit Is configured to open the placement portion by rotating the backrest (see, for example, Patent Document 1).

  In addition, the two devices, that is, the device to be held and the device to be held are not separate, but the housing that forms the display device and the other housing that holds this housing are rotatably integrated, and one housing A technique has been proposed in which the other magnetism is detected by the other casing so as to know the mutual rotational positional relationship (see, for example, Patent Document 2).

  In addition, although a literature example is not shown, an example is also known in which a magnet is mounted as a detected portion on a cradle on which an electronic device with a display device is placed.

JP 2004-126966 A JP 2006-2111238 A

  By the way, in recent years, for example, when a customer makes an application for opening an Internet banking at a bank counter, the person in charge of the counter sends the display terminal on the cradle nearby to the customer to the customer. In many cases, the display terminal is removed from the cradle, and the customer operates the display terminal to input the customer's address, name, date of birth, telephone number, existing regular transaction account number, etc. ing.

  In many cases, the display terminal includes a liquid crystal display device, and the liquid crystal display device includes a backlight. Since the liquid crystal display with the backlight turned on is bright, the input data displayed when the customer finishes inputting necessary data, puts the display terminal back in the cradle and returns it to the contact person. May be seen by a third party.

  Therefore, when the display terminal is placed on the cradle, it is necessary to automatically turn off the backlight of the own device by detecting that the own device is placed on the cradle on the display terminal side. In this case, it is preferable to provide the detected part on the cradle side and provide the detecting part on the display terminal side.

  Conversely, if a detection unit is provided on the cradle side and a detection unit is provided on the display terminal side, a communication device for controlling the turning off of the backlight of the display terminal must be provided on the detection cradle. This is not preferable because the configuration becomes complicated and the overall cost increases.

  However, in the above-mentioned Patent Document 1, there is no disclosure in any way about the idea of automatically turning off the backlight of the display terminal when the display terminal is placed on the cradle, and there is a problem that the backlight should be turned off. Not considered.

  Also, Patent Document 2 discloses that magnetism is used to detect magnetism and know the positional relationship such as rotation between the two housings, but the two housings are originally configured integrally. Therefore, there is no environment setting in which one is removed from the other, and therefore there is no idea of automatically turning off the backlight.

  In addition, when the customer operates the display terminal and inputs the customer's address, name, date of birth, telephone number, existing regular account number, etc., the customer temporarily stores the retrieved passbook. As a place to put, a cradle from which a display terminal is removed is often placed in a cradle as an unmistakable place.

  In this case, in the example in which a magnet is attached to the cradle as a detected part, there is a possibility that the magnet may destroy the magnetic data of the magnetic stripe of the passbook, but if such a problem is considered, Absent.

  In view of the above-described conventional situation, the present invention provides a detection unit having a simple configuration so that the display terminal can detect that the display terminal is placed on the cradle and the display terminal can automatically turn off the backlight. It is an object of the present invention to provide a cradle that is provided and that does not destroy the magnetic data of the magnetic stripe of the passbook even when the customer unconsciously places the passbook in the cradle.

  In order to solve the above-described problems, a cradle according to the present invention includes a liquid crystal display surface, a control unit that controls turning on / off of a backlight of the liquid crystal display surface, and a magnetic sensor that detects that the liquid crystal display surface is placed on the cradle. A cradle with a built-in permanent magnet on which the display terminal provided is placed, and the position at which the permanent magnet is disposed inside the cradle is determined by a positioning member on the placement part. When positioned and placed, the distance between the magnetic sensor and the magnetic sensor is a position within a magnetic detection limit distance that becomes a magnetic detection limit, and a magnetic stripe is attached instead of the display terminal. Non-destructive when the distance between the magnetic stripe when the passbook is placed on the above-mentioned placement part is the limit that the magnetic recording of the magnetic stripe is not destroyed by the magnetism of the permanent magnet A position above the field distance, as configured.

  In this cradle, the position within the magnetically detectable limit distance and the position greater than or equal to the non-destructive limit distance is configured to be set, for example, by the thickness of the wall surface of the mounting portion, and for example, A plurality of rear wall surfaces provided on the rear surface of the mounting portion, the upper surface projecting obliquely downward with respect to the horizontal direction, the inclined surface extending from the outer end portion of the upper surface to the outer surface of the mounting portion below, and the upper surface wraps around the inclined surface. It is comprised so that it may be set by the protrusion part which consists of R part formed in the corner | angular part.

  For example, a plurality of the projecting portions are provided and serve as a positioning portion that determines the positional relationship between the display terminal and the placement portion when the display terminal is placed on the placement portion. For example, it is preferable that the magnetically detectable limit distance is 11 mm and the nondestructive limit distance is 5 mm.

  The present invention uses a permanent magnet having a simple configuration as a detected portion that can detect that the display terminal is placed on the placement portion of the cradle, and thus has an effect that the cost is low.

  Also, even if the customer removes the display terminal from the placement unit and puts a passbook with a magnetic stripe on the empty placement unit, the permanent magnet will not damage the data in the magnetic stripe. The cradle is easy to use, and as a contact person, there is no need to pay attention to the handling of the cradle by the customer, and it is possible to concentrate on others.

It is a perspective view which shows the cradle which concerns on Examples 1-6 of this invention with a display terminal. 1A is a side cross-sectional view of the cradle shown in FIG. 1 according to the first embodiment, the display terminal showing only the main part below, and FIG. 1B is a light detection part of the display terminal in the direction of arrow a in FIG. FIG. FIG. 1 is a side sectional view showing the whole cradle of FIG. 1 according to the second embodiment and the display terminal showing only a main part below. FIG. 1 is a side sectional view showing the whole cradle in FIG. 1 according to the third embodiment and only the main part below the display terminal. (a) is a side sectional view showing the whole cradle and the display terminal only in the lower part of FIG. 1 according to the fourth embodiment, and (b) is empty after the display terminal is removed from the cradle. It is a figure which shows the state which the customer inserted the passbook in the mounting part. (a), (b) is the distance between the mounting position of the permanent magnet in the cradle according to the fifth embodiment confirmed to be safe as a result of the experiment and the magnetic sensor of the display terminal placed on the cradle or the magnetic stripe of the bankbook It is a figure which shows a relationship. It is a graph which shows the evaluation result obtained from the experimental result obtained by changing the thickness of the raising of the permanent magnet attachment internal wall surface shown to Fig.6 (a) variously. (a) is the front view of the cradle which concerns on Example 6, (b) is the AA 'arrow sectional drawing, (c) is a figure which shows the relationship between the protrusion part of a cradle, and the hollow of the back surface of a display terminal. is there. (a) is a side sectional view showing the whole cradle and the display terminal only in the lower part of FIG. 1 according to the embodiment 6, and (b) is empty after the display terminal is removed from the cradle. It is a figure which shows the state which the customer inserted the passbook in the mounting part.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 is a perspective view showing the cradle according to the first to sixth embodiments together with a display terminal. The cradle 1 shown in FIG. 1 is formed of a hard resin molded product, and includes a detected portion that will be described later in detail for detecting that the display terminal 2 placed on the cradle 1 is placed on the cradle 1. .

  One display terminal 2 includes a detection unit that detects a detection unit of the cradle 1 on a back surface that is hidden behind the drawing. As shown in FIG. 1, the display terminal 2 includes a liquid crystal display unit 3 on the front surface, and a control unit that controls turning on and off of the backlight of the liquid crystal display unit 3 is provided inside the display terminal 2. I have.

  The control unit of the display terminal 2 recognizes that the display terminal 2 has been taken out from the placement unit of the cradle 1 when the detection unit no longer detects the detected part of the cradle, and the backlight of the liquid crystal display unit 3 Is turned on, and when the detection unit detects the detected portion of the cradle, the display terminal 2 recognizes that it is placed on the placement portion of the cradle 1 and turns off the backlight of the liquid crystal display portion 3.

  2A is a side sectional view showing the whole of the cradle 1 of FIG. 1 according to the first embodiment and the display terminal 2 showing only a main part below, and FIG. The figure which looked at the optical detection part in the arrow a direction of Fig.2 (a) is shown.

  As shown in FIG. 2 (a), a protrusion 6 as a detected portion is formed on the rear wall surface 5 of the placement portion 4 of the cradle 1. One display terminal 2 includes a detection unit at a position corresponding to the protrusion 6. The detection unit includes a movable knob 7, a rotating member 8, a partition plate 9, and an optical sensor 10. As shown in FIG. 2B, the optical sensor 10 includes a light emitting unit 10a and a light receiving unit 10b arranged to face each other.

  When the display terminal 2 is placed on the placement unit 4 of the cradle 1, the protrusion 6 of the cradle 1 pushes the movable knob 7 of the detection unit of the display terminal 2. When the movable knob 7 is pushed, one end of the rotating member 8 connected to the extension of the movable knob 7 moves outward as indicated by an arrow b.

  The center of the rotating member 8 is supported by the support shaft 11. Thereby, the rotation member 8 rotates in a seesaw shape with the support shaft 11 as a fulcrum. That is, when the connecting portion with the extension portion of the movable knob 7 moves in the outer direction indicated by the arrow b, the partition plate 9 connected to the other end of the rotating member 8 moves in the inner direction as indicated by the arrow c. .

  An optical sensor 10 is arranged in the inner direction in which the partition plate 9 moves. By the movement of the partition plate 9 in the inner direction, the tip of the partition plate 9 enters the facing portion between the light emitting unit 10a and the light receiving unit 10b of the optical sensor 10 and blocks the optical path of the optical sensor 10. The optical sensor 10 outputs a signal indicating that the optical path is blocked to the control unit. Based on this signal, the control unit recognizes that the display terminal 2 is placed on the placement unit 4 of the cradle 1 and turns off the backlight of the liquid crystal display unit 3.

  When the display terminal 2 is removed from the placement unit 4 of the cradle 1, each component of the detection unit of the display terminal 2 moves in the opposite direction, so that the optical path of the optical sensor 10 is released from the partition plate 9. A signal indicating that the optical path is opened is sent from the optical sensor 10 to the control unit, and the control unit recognizes that the display terminal 2 has been taken out from the placement unit 4 of the cradle 1, and the backlight of the liquid crystal display unit 3. Lights up.

  FIG. 3 is a side sectional view of the cradle 1 shown in FIG. 1 according to the second embodiment and the display terminal 2 showing only the main part below. As shown in FIG. 3, a protrusion 6 as a detected portion is formed on the rear wall surface 5 of the placement portion 4 of the cradle 1.

  One display terminal 2 includes a detection unit at a position corresponding to the protrusion 6. The detection unit includes a movable knob 7 and a switch 13 having a leaf spring section 12. The switch 13 is configured to close the switch circuit when the leaf spring-like piece 12 is pushed from the outside, and to open the switch circuit by the return force of the leaf spring-like piece 12 when no external pressure is applied.

  When the display terminal 2 is placed on the placement unit 4 of the cradle 1, the protrusion 6 of the cradle 1 pushes the movable knob 7 of the detection unit of the display terminal 2. When the movable knob 7 is pushed, the distal end of the extension 7 a of the movable knob 7 pushes the leaf spring-shaped piece 12 of the switch 13.

  When the leaf spring section 12 is pushed in, the switch 13 closes the switch circuit, whereby a signal indicating that the switch circuit is closed is sent from the switch 13 to the control unit. Based on this signal, the control unit recognizes that the display terminal 2 is placed on the placement unit 4 of the cradle 1 and turns off the backlight of the liquid crystal display unit 3.

  When the display terminal 2 is taken out from the placement unit 4 of the cradle 1, each component of the detection unit of the display terminal 2 moves in the opposite direction. As a result, the switch circuit of the switch 13 is opened, and a signal indicating that the switch circuit is opened is sent from the switch 13 to the control unit, and the control terminal removes the display terminal 2 from the placement unit 4 of the cradle 1. Recognizing this, the backlight of the liquid crystal display unit 3 is turned on.

  FIG. 4 is a side sectional view of the cradle 1 shown in FIG. 1 according to the third embodiment and the display terminal 2 showing only the main part below. As shown in FIG. 4, a protrusion 6 as a detected portion is formed on the rear wall surface 5 of the placement portion 4 of the cradle 1.

  One display terminal 2 includes a switch 14 as a detection unit at a position corresponding to the protrusion 6. The switch 14 includes a push button 15 on the surface facing the protrusion 6. The switch 14 is configured to close the switch circuit when the push button 15 is pressed from the outside, and to open the switch circuit by the return force of the push button 15 when no external pressure is applied.

  When the display terminal 2 is placed on the placement unit 4 of the cradle 1, the protrusion 6 of the cradle 1 pushes the push button 15 of the switch 14 of the display terminal 2. When the push button 15 is pushed in, the switch 14 closes the switch circuit, whereby a signal indicating that the switch circuit is closed is sent from the switch 14 to the control unit. Based on this signal, the control unit recognizes that the display terminal 2 is placed on the placement unit 4 of the cradle 1 and turns off the backlight of the liquid crystal display unit 3.

  When the display terminal 2 is removed from the placement unit 4 of the cradle 1, the push button 15 of the switch 14 of the display terminal 2 is released from the pressing pressure, and returns to the original position with a return force. As a result, the switch circuit is opened, and a signal indicating that the switch circuit is opened is sent from the switch 14 to the control unit, and the control unit recognizes that the display terminal 2 has been taken out from the placement unit 4 of the cradle 1. Then, the backlight of the liquid crystal display unit 3 is turned on.

  By the way, as in the first to third embodiments described above, when the detection unit is configured by a mechanism, a mechanical operation is inevitably generated in the mechanism part every time detection and detection are canceled. In addition to having the property that the operation becomes unstable due to the position shift, the mechanical operation deteriorates with time, and therefore, there is an inconvenience that the operation of the detection unit replacement or maintenance processing occurs on the display terminal 2 side.

  In order to eliminate this inconvenience, that is, in order to construct a detection unit that does not involve a mechanical operation on the display terminal 2 side, the detection unit on the cradle side is configured with a permanent magnet. Permanent magnets are literally permanent magnets and are extremely inexpensive.

  FIG. 5A is a side sectional view showing the whole cradle 1 and the display terminal 2 only in the lower part of FIG. 1 according to the fourth embodiment, and FIG. 5B is a view from the cradle 1. It is a figure which shows the state which the customer inserted the passbook in the mounting part 4, using the mounting part 4 which became empty after the terminal 2 was removed as a temporary mounting base.

  As shown in FIG. 5 (a), a permanent magnet 16 as a detected portion is fixed to the inner wall surface of the rear wall surface 5 of the placement unit 4 of the cradle 1 with screws 17. One display terminal 2 is provided with a magnetic sensor 18 at a position where the magnetism of the permanent magnet 16 can be detected. The magnetic sensor 18 is fixed to the fixing portion 19 inside the display terminal 2 provided at a position corresponding to the permanent magnet 16 with a screw 21.

  When the display terminal 2 is placed on the placement unit 4 of the cradle 1, the magnetic sensor 18 of the display terminal 2 operates by detecting the magnetism of the permanent magnet 16 of the cradle 1. The magnetic detection operation signal of the magnetic sensor 18 is sent to the control unit. Based on this signal, the control unit recognizes that the display terminal 2 is placed on the placement unit 4 of the cradle 1 and turns off the backlight of the liquid crystal display unit 3.

  When the display terminal 2 is taken out from the placement unit 4 of the cradle 1, the magnetic sensor 18 cannot detect the magnetism of the permanent magnet 16 of the cradle 1, so the magnetic detection operation signal of the magnetic sensor 18 disappears. The control unit recognizes that the display terminal 2 has been removed from the placement unit 4 of the cradle 1 due to the disappearance of the magnetic detection operation signal of the magnetic sensor 18, and turns on the backlight of the liquid crystal display unit 3.

  By the way, as shown in FIG.5 (b), when the customer puts the bankbook 22 in the mounting part 4 by using the mounting part 4 instead of a temporary mounting table, it is stored in the magnetic stripe 23 of the bankbook 22. It is assumed that a failure sometimes occurs such as data corruption. This is because not only the magnetism of the permanent magnet 16 but also magnetism generally has the property of magnetizing a magnetic material such as the magnetic stripe 23 of the passbook 22.

  Of course, since the influence range of magnetism is inversely proportional to the square of the distance f and also depends on the magnetic strength of the magnetic sensor 18, it cannot be generally said that a malfunction always occurs. Therefore, in order to ensure safety, the present inventor decided to confirm by experiments whether or not the above problems occur.

  6 (a) and 6 (b) show the mounting position of the permanent magnet 16 in the cradle 1 according to the fifth embodiment confirmed to be safe as a result of the above experiment, and the magnetism of the display terminal 2 placed on the cradle 1. FIG. It is a figure which shows distance relationship with the magnetic stripe 23 of the sensor 18 or the bankbook 22. FIG. The permanent magnet has a magnetic flux density of 600 to 700 gauss. Moreover, since the housing | casing of the cradle 1 is hard resin, such as ABS resin, it is thought that it does not affect magnetism.

  As shown in FIG. 6 (a), in order to ensure a safe distance g from the permanent magnet 16 to the rear wall surface 5 of the mounting portion 4, the permanent magnet mounting inner wall surface 5a on the inner side of the rear wall surface 5 is provided with other internal walls. It is formed so as to be higher than the wall surface 5b. This distance g corresponds to the distance f from the magnetic stripe 23 when the customer shown in FIG. That is, g = f.

  Further, in this case, the distance h from the surface 16a of the permanent magnet 16 to the magnetic detection surface 18a of the magnet sensor 18 of the display terminal 2 placed on the placement part 4 is a rise of the permanent magnet mounting inner wall surface 5a. Is a distance at which the magnet sensor 18 can detect the magnetism of the permanent magnet 16.

  FIG. 7 is a chart showing the experimental results obtained by variously changing the raised thickness of the permanent magnet mounting inner wall surface 5a shown in FIG. 6 (a) and the evaluation obtained from the results. The chart 25 shown in FIG. 7 shows, from left to right, a column 26 indicating the gap between the sensor / permanent magnet or the passbook / permanent magnet, a column 27 for evaluating the range in which the sensor operates, and whether or not the data is destroyed by the passbook magnetism. And a column 29 indicating a range in which the sensor is activated and does not affect the passbook data.

  In the column 26, the distance h or the distance f shown in FIGS. 6A and 6B is shown. The column 27 indicates whether the magnetic sensor 18 operates by detecting magnetism (“◯”) or not (“×”) when the distance value in the column 26 indicates the distance h in FIG. It is the evaluation column shown.

  In the column 28, when the numerical value of the distance in the column 26 indicates the distance f in FIG. 6B, the magnetic data of the magnetic stripe 23 of the bankbook 22 is destroyed (“present”) or not (“not present”). It is the evaluation column which evaluated.

  The column 29 is shown by assigning an evaluation “◯” that can confirm safety to the distance range of the column 26 in which the evaluation in the column 27 is “◯” and the evaluation in the column 28 is “None”. . Thereby, it can be seen that 5 mm to 11 mm is a good range for both the distance f and the distance h. However, between the distance f (= g) and the distance h, there is a distance interval corresponding to the thickness i (including mechanical play) of the housing of the display terminal 2 as shown in FIG. Therefore, it is necessary to determine the distance g (= f) that satisfies 5 mm to 11 mm including this amount.

  For example, as an example, the distance g (= f) from the surface 16a of the permanent magnet 16 to the rear wall surface 5 of the placement unit 4 of the cradle 1 is 6.5 mm, and the magnetic detection surface 18a of the magnetic sensor 18 is If the distance to the housing surface is 1.5 mm and the mechanical backlash range is 1 mm, the distance h from the surface 16 a of the permanent magnet 16 to the magnetic detection surface 18 a of the magnetic sensor 18 is “6.5 + 1.5 + 1.0. = 9.0 "(mm).

  That is, the distance g (= f) = 6.5 mm and the distance h = 9.0 mm are both columns in which the sensor of the chart 25 showing the evaluation of the experimental result shown in FIG. 7 operates and does not affect the passbook data. 29, the configuration of the cradle 1 shown in FIGS. 6 (a) and 6 (b) indicates that it is within the design range that can ensure safety.

  By the way, in order to form the distance g (= f) from the surface 16a of the permanent magnet 16 to the rear wall surface 5 of the mounting portion 4 of the cradle 1 at 6.5 mm, the permanent magnet as in the fifth embodiment. It is not restricted to raising the mounting inner wall surface 5a. Another example 6 will be described below.

  FIG. 8A is a front view of the cradle according to the sixth embodiment, FIG. 8B is a cross-sectional view taken along the line AA ′, and FIG. 8C is a view of the protruding portion of the cradle and the display terminal 2. It is a figure which shows the relationship with the hollow formed in the back surface.

  As shown in FIGS. 8A and 8B, the cradle 1 of the present example includes a plurality of (two in the illustrated example) protruding portions 31 (31a and 31b) below the rear wall surface 5 of the mounting portion 4. It has. As shown in FIG. 8B, the protruding portion 31 protrudes from the permanent magnet mounting inner wall surface 5a by a distance g (= f). In other words, the distance from the surface 16a of the permanent magnet 16 to the convex surface (front surface) of the protruding portion 31 viewed in the direction perpendicular to the rear wall surface 5 of the mounting portion 4 of the cradle 1 is the distance g (= f). It is formed to become. This distance g (= f) is, for example, 9.0 mm described in FIG.

  Further, the upper portion 31-1 of the projecting portion 31 does not protrude perpendicularly to the rear wall surface 5 of the placement portion 4, but has a shape that is further inclined from the vertical by an angle θ, that is, inclined downward to the front portion. It is overhanging. Furthermore, R is formed in the corner | angular part 31-2 which goes around to a convex surface (front surface) from the upper part 31-1.

  Note that the angle θ is shown in FIG. 8B as an example in which the measured value is 25 degrees as an example, but a distance g (= f) of the degree of protrusion from the permanent magnet mounting inner wall surface 5a is secured. Thus, the inclination angle of the upper portion 31-1 is not limited to 25 degrees. Bigger is better than smaller. When the display terminal 2 is placed on the placement part 4, the protrusion 31 engages with a recess 32 formed on the back surface of the display terminal 2 as shown in FIG. Position 2 is performed.

  FIG. 9A is a side sectional view showing only the main part below the cradle 1 according to the sixth embodiment and the display terminal 2 placed on the cradle 1, and FIG. It is a figure which shows the state which the customer inserted the passbook 22 in the mounting part 4 which became empty after the terminal 2 was removed.

  As shown in FIG. 9A, the protruding portion 31 of the cradle 1 is engaged with the recess 32 of the display terminal 2 to position the display terminal 2 on the mounting portion 4. As a result, the magnetic sensor 18 of the display terminal 2 faces the permanent magnet 16 disposed in the center of the cradle 1 at the correct position as shown in FIG. Can be detected.

  In addition, as shown in FIG. 9B, the customer should place the surface with the magnetic stripe 23 on the placement unit 4 that is empty after the display terminal 2 is removed from the cradle 1. Even if the bankbook 22 is placed toward the rear wall 5, the upper portion 31-1 of the projecting portion 31 is inclined and the corner portion 31-2 (see FIG. 8B) is formed with R. The passbook 22 is not placed on the upper portion 31-1 of the projecting portion 31, but is slid down the projecting portion 31 and held at the lowermost portion of the placing portion 4.

  Thereby, the distance g (= f) described in FIG. 8B is formed between the surface 16a of the permanent magnet 16 and the magnetic stripe 23 of the bankbook 22. That is, there is no possibility that the magnetic data in the magnetic stripe 23 of the bankbook 22 is destroyed by the magnetism of the permanent magnet 16.

  The present invention can be used for a cradle with a built-in permanent magnet for a display terminal with a backlight.

DESCRIPTION OF SYMBOLS 1 Cradle 2 Display terminal 3 Liquid crystal display part 4 Mounting part 5 Rear wall surface 5a Permanent magnet mounting inner wall surface 5b Other inner wall surface 6 Protrusion 7 Movable knob 7a Extension part 8 Rotating member 9 Partition plate 10 Optical sensor 10a Light emission part 10b Light reception Part 11 Support shaft 12 Leaf spring section 12
13, 14 Switch 15 Push button 16 Permanent magnet 17 Screw 18 Magnetic sensor 19 Fixed part 21 Screw 22 Passbook 23 Magnetic stripe 25 Diagram showing evaluation of experimental result 26 Column showing sensor / permanent magnet or clearance of passbook / permanent magnet 27 Field for evaluating the range in which the sensor operates 28 Field for indicating whether or not the data is destroyed by the passbook magnetism 29 Field for indicating the range in which the sensor operates and does not affect the passbook data 31 (31a, 31b) Protruding portion 32 Indentation

Claims (6)

Permanent magnet on which a display terminal having a liquid crystal display surface, a control unit for controlling turning on / off of the backlight of the liquid crystal display surface, and a magnetic sensor for detecting that the liquid crystal display surface is placed on the cradle is placed on the placement unit A built-in cradle,
The position where the permanent magnet is disposed inside the cradle is:
When the display terminal is positioned and placed on the mounting portion by the positioning member, the distance from the magnetic sensor is a position within a magnetically detectable limit distance that is a limit of magnetic detection of the magnetic sensor. With
When a passbook with a magnetic stripe is placed on the placement section instead of the display terminal, the distance between the magnetic stripe and the magnetic stripe becomes a limit that the magnetic recording of the magnetic stripe is not destroyed by the magnetism of the permanent magnet. It is a position more than the destruction limit distance,
A cradle characterized by that. The position within the magnetically detectable limit distance and the nondestructive limit distance or more is set by the thickness of the wall surface of the mounting portion,
The cradle according to claim 1. A plurality of positions within the magnetically detectable limit distance and not less than the non-destructive limit distance are provided on the rear wall surface of the mounting portion, and are formed from an upper surface protruding obliquely downward with respect to the horizontal direction and an outer end portion of the upper surface. It is set by a projecting portion consisting of an inclined surface that reaches the outer surface of the mounting portion on the lower side, and an R portion that is formed at a corner portion that wraps around the inclined surface from the upper surface.
The cradle according to claim 1. A plurality of the projecting portions are provided, and also serves as a positioning portion that determines a positional relationship between the display terminal and the mounting portion when the display terminal is placed on the mounting portion.
The cradle according to claim 3. The magnetically detectable limit distance is 11 mm, and the non-destructive limit distance is 5 mm.
The cradle according to claim 1, 2, or 3. A display terminal placed on the cradle according to any one of claims 1 to 5,
A liquid crystal display surface;
A control unit that controls turning on and off of the backlight of the liquid crystal display surface;
A magnetic sensor for detecting the magnetism of the permanent magnet of the cradle;
With
The controller turns on a backlight of the liquid crystal display surface when the magnetic sensor does not detect the magnetism of the permanent magnet, and the liquid crystal display portion when the magnetic sensor detects the magnetism of the permanent magnet. Turn off the backlight of the surface,
A display terminal characterized by that.