JP2017072939A - Electronic device and storage body - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an electronic device having a mechanism for absorbing external shock, and a housing body including the electronic device.SOLUTION: An electronic device 1 to be fixed to a case includes a mounting board 3, a display unit 2 arranged on one surface of the mounting board 3, and a housing 6 for housing the mounting board 3 and the display unit 2 inside. The housing 6 includes: a side plate part 6c for forming an outer frame of a housing area 6a thereof; and a top plate part 6d and a bottom plate part 6e connected to the side plate part 6a, to form a thickness of the housing area 6a. In an inner wall of the housing 6 in each of connection areas between the side plate part 6c and the top plate part 6d/bottom plate part 6e, fillet parts 6f, 6g having a predetermined curvature radius r are arranged.SELECTED DRAWING: Figure 2

Description

  The present invention relates to an electronic device and a container, and more particularly to an electronic device and a container provided with a display.

  Patent Document 1 discloses an electronic bag tag accommodated in a recess provided on the outer surface of a suitcase. The electronic bag tag has a wireless communication interface so that back tag data can be updated wirelessly.

Special table 2014-516175 gazette

  The electronic bag tag disclosed in Patent Document 1 includes a display for displaying back tag data. Such an electronic back tag usually uses a glass TFT display such as a low power consumption electronic paper as a display. However, when a glass display is used for an electronic back tag, there is a problem that the display is liable to be damaged if another object comes into contact with the display when a suitcase or the like is transported.

  An object of this invention is to provide the electronic device provided with the mechanism which absorbs the impact from the outside, and the container provided with the said electronic device.

  An electronic device according to an embodiment of the present invention includes a mounting substrate, a display disposed on one surface side of the mounting substrate, and a housing that houses the mounting substrate and the display inside. The housing includes a side plate portion that defines an outer frame of the storage region, and a face plate portion that is connected to the side plate portion and defines at least one side of the thickness of the storage region, and the side plate portion and the face plate portion. An R portion having a predetermined radius of curvature is provided on the inner wall of the casing in the connection region.

  In this electronic device, an R portion having a predetermined radius of curvature is provided on the inner wall of the housing in the connection region between the side plate portion and the face plate portion. In this case, even if an impact is applied to the housing from the upper surface or side surface of the electronic device, the impact can be dispersed in multiple directions due to the presence of the R portion (see FIG. 5B). ), It is possible to prevent external shocks from being transmitted as they are to the display or the like housed in the housing. As a result, according to this electronic device, it is possible to appropriately disperse impacts from the outside, and to reduce the chance of damage to the display arranged in the housing and the influence at the time of damage.

  In the electronic device described above, the radius of curvature of the R portion is preferably 10% or more of the total thickness of the electronic device. In this case, since the R portion is configured to be larger, it is possible to disperse external impacts in multiple directions, and thus it is possible to further reduce the damage to the display arranged in the housing.

  In the above electronic device, the R portion is preferably provided over the entire circumference of the inner wall of the housing. In this case, even if the electronic device receives an impact from any direction, it is possible to reduce breakage of the display arranged in the housing.

  In the above electronic device, it is preferable that the display is disposed in the housing region of the housing so that the edge thereof is separated from the inner wall of the housing by 1 mm or more. In this case, the impact received by the electronic device can be prevented from being directly transmitted to the display and the transmission thereof can be weakened, whereby the breakage of the display can be further reduced.

  In the above electronic device, the face plate portion includes a top plate portion provided to be connected to one end of the side plate portion and a bottom plate portion provided to be connected to the other end of the side plate portion, and the side plate portion and the top plate portion. A first R portion having a predetermined radius of curvature is provided on the inner wall of the casing in the connecting region with the inner wall of the casing in the connecting region between the side plate portion and the bottom plate portion. It is preferable that the 2nd R part which has is provided. In addition, it is preferable that the 1st and 2nd R part mentioned above has the same curvature radius. With such a configuration, the impact can be more evenly distributed regardless of the impact from any direction.

  In the above electronic device, the mounting board is connected to the board main body, the control unit mounted on the board main body, the storage unit connected to the control unit, the communication IC connected to the control unit, and the communication IC. And at least the control unit, the storage unit, and the communication IC are arranged on the substrate main body so as to be on the inner side in the planar direction from the region where the R unit is formed. May be. In this case, a member having a certain height is accumulated in the central portion of the substrate body, and the radius of curvature of the R portion of the inner wall of the housing can be increased while reducing the size and thickness of the electronic device. Become.

  In the above electronic device, an outer R portion having a predetermined radius of curvature may be provided on the outer wall of the housing in the connection region between the side plate portion and the face plate portion. In this case, since the impact can be dispersed in the outer wall portion of the housing that directly receives the impact, damage to the display or the like can be further reduced.

  In another aspect, the present invention provides an electronic device including any of the above-described devices, and a case having a storage unit to which the electronic device can be attached and which stores an arbitrary object. It can also be understood as a body. In this case as well, it is possible to achieve the same effects as the electronic device described above.

  According to the electronic device and the container according to the present invention, damage to built-in members such as a display can be reduced.

FIG. 1 is a perspective view showing an electronic device according to an embodiment of the present invention. 2 is a cross-sectional view taken along line II-II of the electronic device shown in FIG. FIG. 3 is a block diagram showing a configuration of the electronic device shown in FIG. 4 is a partial enlarged cross-sectional view of the electronic device shown in FIG. 2, (a) is an enlarged cross-sectional view showing the distance between the display and the inner wall of the housing, and (b) is a fillet portion of the inner wall of the housing. It is an expanded sectional view which shows a curvature radius. FIG. 5 is a diagram schematically illustrating an example in which external impact is dispersed by the fillet portion. FIG. 6 is a diagram illustrating a simulation result obtained by performing a stress analysis when an external impact is applied to the electronic device according to the embodiment of the present invention. FIG. 7 is a perspective view showing an example of attachment of the electronic device shown in FIG. 1, and is a perspective view showing an example in which the electronic device is attached to a suitcase. FIG. 8 is a cross-sectional view of the electronic device attached to the suitcase. FIG. 9 is a cross-sectional view showing an electronic device according to a modification of the present invention.

  Hereinafter, an electronic device and a container according to the present invention will be described in detail with reference to the drawings. In the description, the same reference numerals may be used for the same elements or elements having the same function, and redundant description is omitted. Note that the present invention is widely applicable to electronic devices that are attached to a container that can accommodate an arbitrary object. In the following description, an example in which an electronic device used as a bag tag in a baggage transfer system such as an airport is attached to a suitcase will be described, but the present invention is not limited to this.

  FIG. 1 is a perspective view showing an electronic device according to an embodiment of the present invention. 2 is a cross-sectional view taken along line II-II of the electronic device shown in FIG. As shown in FIGS. 1 and 2, the electronic device 1 according to the present embodiment includes a display 2, a mounting substrate 3 on which the display 2 is disposed, a cushioning material 4 disposed on the back side of the mounting substrate 3, A protective panel 5 and a housing 6 are provided above the display 2. The housing 6 has a rectangular shape in plan view, and stores the display 2, the mounting substrate 3, and the cushioning material 4 in the storage area 6a. Moreover, the protective panel 5 is installed in the opening part 6b of the housing | casing 6. FIG. The protection panel 5 is formed of a resin material having translucency such as a transparent acrylic panel, for example, and protects the adjacent display 2 from external impact. The cushioning material 4 is composed of a cushion having a porous structure, for example. The cushioning material 4 has a thickness of at least 1 mm or more, is disposed between the mounting substrate 3 and the bottom plate portion 6e of the housing 6, and receives external impact applied to the bottom plate portion 6e of the housing 6 and the like. It does not transmit directly to the mounting substrate 3 or the display 2, that is, it contributes to the function of reducing the impact and communication stability.

  The display 2 is configured by electronic paper such as an electrophoresis method, an electronic powder method, an electrowetting method, a cholesteric liquid crystal method, or an electrochromic liquid crystal method. Since the display 2 made of electronic paper consumes little power (or does not require power consumption) for holding a display image, the display can be maintained even when power supply is stopped. In the present embodiment, for example, an electrophoretic glass TFT display is preferably used as the display 2 from the viewpoint of versatility. In addition, although the effect of this invention is easily show | played when the display 2 is a display containing glass in this way, even if it is not necessarily a display containing glass, it can show | play the effect of this invention. Alternatively, the display 2 may be displayed only while power is supplied, and a liquid crystal display other than electronic paper, an organic EL, or the like may be used as the display 2.

  The image displayed on the display 2 can be the same as that printed on a conventional paper bag tag. That is, the image displayed on the display 2 can be a one-dimensional barcode or two-dimensional code that can be read by an apparatus such as a hand scanner, a barcode scanner, or an automatic luggage scanner. Also, plain text, reference numbers and the like may be displayed on the display 2. Thereby, even when there is no wireless equipment for reading the data of the electronic device 1, data such as a barcode can be read using a conventional equipment in the same manner as a paper bag tag.

  As shown in FIG. 3, the mounting substrate 3 includes a storage unit 31, an HF band IC (communication IC) 32, an HF band antenna 33, a power supply circuit 34, a UHF band IC (communication IC) 35, and a UHF band antenna 36. And a control unit 37 electrically connected thereto. The mounting substrate 3 omits these mounting components and the like in the figure, but these storage unit 31, HF band IC 32, HF band antenna 33, power supply circuit 34, UHF band IC 35, UHF band antenna 36, and control unit 37. Is formed or mounted on either the front or back surface of the substrate body.

  The storage unit 31 stores various pieces of information such as individual identification information of the electronic device 1 and information on the itinerary (including airline name, flight number, waypoint, final destination, tag number, etc.), for example, non-volatile It is composed of memory.

  The HF band antenna 33 performs wireless communication over a short distance using an HF frequency band of 13.56 MHz. This wireless communication is controlled by the HF band IC 32. With the HF band antenna 33, the electronic device 1 can be a reader / writer terminal or NFC smartphone that supports communication standards such as ISO / IEC 14443 Type A / B, ISO / IEC 18092, FeliCa (registered trademark), ISO / IEC 15693, NFC (Near Field Communication), etc. It is possible to communicate with etc.

  The UHF band antenna 36 performs radio communication using a UHF frequency band from 860 MHz to 960 MHz. This wireless communication is controlled by the UHF band IC 35. For example, data stored in the storage unit 31 of the electronic device 1 or the memory area in the UHF band IC 35 is read by a baggage transport system including a reader / writer that supports UHF band wireless communication. For example, the UHF band antenna 36 in the present embodiment is formed in a planar shape with respect to the surface of the mounting substrate 3 opposite to the display 2 and can have various shapes such as a meander shape, a dipole, and a double dipole.

The control unit 37 controls the entire electronic device 1. As shown in FIG. 3, the control unit 37 is connected to the storage unit 31, the HF band IC 32, the HF band antenna 33, the power supply circuit 34, the UHF band IC 35, and the UHF band antenna 36, as well as the switch 38, the display 2, and the like. It is connected to LED39. The control unit 37 according to the present embodiment is configured by, for example, an MCU (Micro Controller Unit), for example, a wired I ² C (Inter-integrated Circuit) interface, a serial interface SPI (Serial Parallel Interface), or a UART (Universal Astronautical). The storage unit 31, the HF band IC 32, the HF band antenna 33, the power supply circuit 34, the UHF band IC 35, and the UHF band antenna 36 are electrically connected by a Receiver Transmitter) or the like.

  The control unit 37 performs control for rewriting various information stored in the memory unit 31, the memory area in the HF band IC 32, the memory area in the UHF band IC 35, and the display contents of the display 2. For example, in the electronic device 1, power is supplied to the HF band IC 32 and the control unit 37 by a reader / writer terminal such as a smartphone that supports NFC. Thereby, the control unit 37 updates various information stored in the storage unit 31, the memory area in the HF band IC 32, the memory area in the UHF band IC 35, and the like with new information received by the HF band antenna 33. be able to. Moreover, the control part 37 can rewrite the display content of the display 2 based on the updated information. That is, when the information displayed on the display 2 is included in the new information received by the HF band antenna 33, the control unit 37 rewrites the display image on the display 2. Further, also when information to be displayed on the display 2 is generated by the firmware in the control unit 37 based on the received information, the control unit 37 rewrites the display image on the display 2. In the present embodiment, an LED 39 is connected to the control unit 37. For example, when the control unit 37 rewrites the data in the storage unit 31, the memory area in the HF band IC 32, the memory area in the UHF band IC 35, or the display content of the display 2, the rewrite status is indicated by the LED 39. You may make it notify.

  The control unit 37 also includes data including at least a part of the contents displayed on the display 2, the storage unit 31, the memory area in the HF band IC 32, the various areas stored in the memory area in the UHF band IC 35, and the like. Is transmitted from the UHF band antenna 36 to the baggage transportation system. For example, power is supplied to the UHF band IC 35 and the control unit 37 by the reader / writer of the baggage transport system. Accordingly, the control unit 37 performs control to transmit data stored in the storage unit 31 and the like from the UHF band antenna 36 to the baggage transportation system. The data transmitted to the baggage transportation system is, for example, a tag number. If power supply time and reading time can be taken long, the airline name, flight number, waypoint, etc. may be arbitrarily selected and transmitted. In the present embodiment, the voltage induced by the UHF band antenna 36 is rectified by the power supply circuit 34 and supplied to the control unit 37.

  The switch 38 is, for example, a touch sensor, and is used for selecting an arbitrary function such as screen activation on the display 2, deletion of a display image, page turning, and the like. Such a switch 38 is an electrostatic switch or the like formed on the display 2, and can be used when, for example, electric power supplied in a non-contact manner in the HF band is stored in a capacitor or the like.

  Here, returning to FIG. 1 and FIG. 2, the configuration of the housing 6 constituting the outer shape of the electronic device 1 will be described in more detail. The housing 6 has a storage area 6a therein, and stores the display 2, the mounting board 3, and the buffer material 4 in the storage area 6a, and the display 2, the mounting board 3 and the like from the external impact. Protect. Such a casing 6 is formed as an integrally molded product obtained by adding a certain amount of glass fiber to polycarbonate resin, for example. The housing 6 is provided so as to be connected to the side plate portion 6c that defines the outer frame portion of the storage area 6a in the plane direction, the upper surface plate portion 6d that is connected to the upper end of the side plate portion 6c, and the lower end of the side plate portion 6c. And a bottom plate portion 6e. The side plate portion 6c has a predetermined plate thickness and has a rectangular outer shape in plan view. 6 d of upper surface plates form the upper surface side of the electronic device 1 with the protection panel 5 installed in the opening part 6b, and the bottom surface plate part 6e forms the lower surface side of the electronic device 1 independently. Note that an opening may be provided in the bottom plate portion 6e, and another member may be installed in the opening.

  Such a casing 6 has a fillet portion 6f (R portion) having a predetermined radius of curvature r on the inner wall in the connection region between the side plate portion 6c and the upper surface plate portion 6d (see FIG. 4B). Further, the inner wall in the connecting region between the side plate portion 6c and the bottom plate portion 6e also has a fillet portion 6g (R portion) having a predetermined radius of curvature r. The curvature radii r of the fillet portions 6f and 6g are preferably the same, but may be different. As shown in FIG. 4A, the fillet portion 6f of the housing 6 and the end portion of the display 2 are separated from each other, and the display 2 is disposed so as not to contact the fillet portion 6f. The separation distance d is preferably at least 1 mm.

  As described above, the provision of the R portion instead of the corner portion on the inner wall of the housing 6, particularly the inner wall of the connection region, allows the impact applied from the outside to the housing 6 to be dispersed inside. This will be described with reference to FIG. For example, as shown in FIG. 5A, if the wall is a straight wall instead of the R, the impact S from the outside is transmitted to the inside as it is. However, as shown in FIG. 5B, when the wall portion is curved, the impact S from the outside is dispersed, and the impact transmitted to the inside is attenuated. As described above, by providing the R portion in the housing 6, the impact from the outside is not transmitted to the inside of the housing 6 as it is, but is distributed and attenuated and transmitted. Then, by dispersing the external impact, the impact on the display 2, the mounting substrate 3 and the like housed in the housing 6 is reduced. In particular, the display 2 is often configured to include glass or the like, and is easily damaged by an external impact. However, by providing such an R portion, it is possible to reduce the damage. In the electronic device 1 according to the present embodiment, since the display 2 is arranged so as not to contact the fillet portions 6f and 6g of the housing 6, the external impact is further transmitted to the display 2. It has a difficult structure.

The fillets 6 f and 6 g are provided over the entire circumference of the inner wall of the housing 6, and the radius of curvature r is preferably 10% or more of the layer thickness of the electronic device 1. For example, when the thickness of the electronic device 1 is 20 mm, the curvature radii of the fillet portions 6f and 6g are preferably 2 mm or more, and more preferably 5 mm or more. Here, when a load of 10 kg is applied to the central portion (circular portion having a diameter of 10 mm) of the thin medium model that imitates the electronic device 1 under the following conditions, the connection region between the side plate portion 6c and the top plate portion 6d ( The result of simulating the stress transmitted to the boundary portion (the portion indicated by the dotted circle in FIG. 6) will be described with reference to FIG.
・ Outline of thin media model:
Overall thickness Z = 10mm
Longitudinal length = 85.6 mm
Length in short direction = 54.0mm
The simulation software used the static analysis function of Solidworks Premium 2014, and a simple trial calculation was performed using structural members having a solid mesh and a Poisson's ratio of about 0.3 to 0.4.

  The simulation was executed under the above conditions, and the curvature radius r of the fillet portion 6f was sequentially changed to 0 mm, 0.5 mm, 6 mm, and 10 mm, and the stress at that time was measured. As a result, when the radius of curvature r of the fillet portion 6f is 0 mm (that is, when there is no R portion), the stress applied to the connection region is about 2.6 MPa, whereas the radius of curvature r of the fillet portion 6f is 0.0. When the thickness is 5 mm, the stress applied to the connection region is reduced to about 2.5 MPa. Further, when the curvature radius r of the fillet portion 6 f is 6 mm, the stress applied to the connection region is rapidly reduced to about 1.6 MPa, and the fillet is further reduced. When the curvature radius r of the portion 6f was set to 10 mm, the stress applied to the connection region rapidly decreased to about 1.5 MPa. As described above, the housing 6 is provided with a fillet portion in an internal connection region thereof, and particularly has a curvature of 1 mm or more (or 2 mm or more, more preferably 5 mm or more), that is, 10% or more of the layer thickness of the electronic device 1. By doing so, it was shown that the stress applied to the connected region is remarkably reduced. For this reason, it has been shown that transmission of external impacts to members (displays and the like) housed in the housing 6 is reduced by the fillet portion.

  In addition, as shown in FIG. 2, when the fillet portions 6f and 6g are provided in the connection region of the casing 6, the volume of the storage region 6a is not provided with the fillet portions 6f and 6g (in the case of a corner portion). Compared to In particular, the space in the height direction of the storage area 6a is reduced around the side plate portion 6c. For this reason, for example, in the mounting substrate 3, the storage unit 31 (memory), the HF band IC 32, the power supply circuit 34, the UHF band IC 35, the control unit 37 (MCU), and the like having a predetermined height (for example, 1.8 mm or less). Is preferably mounted on the substrate main body so as to be inward of the planar direction with respect to the region where the fillet portions 6f, 6g, etc. are formed when viewed in a plan view (closer to the substrate center side). More preferably, these electronic components are integrated and arranged in a region within 70% of the area ratio from the center of the substrate body. Since the HF band antenna 33 and the like are made of copper foil, aluminum foil, conductive ink, or the like, there is no particular problem even if it is installed so as to cover the fillet portions 6f and 6g.

  Moreover, in the housing | casing 6, R part 6h, 6i is also provided in the outer corner | angular part corresponding to the area | region which provided the fillet parts 6f and 6g. For this reason, in the housing | casing 6, the impact from the outside is disperse | distributed also by these outer side R parts 6h and 6i.

  Next, an example of use of such an electronic device 1 will be described by taking as an example a case where the electronic device 1 is attached to a case that can accommodate an arbitrary object. As shown in FIG. 7, in this embodiment, the electronic device 1 is attached to the suitcase 100. The suitcase 100 includes a body (case) 105, a handle 106, a grip portion 107, and casters 108. The body 105 includes a body side shell 102 and a lid side shell 103 that faces the body side shell 102. The body-side shell 102 includes a bottom plate portion 102a and a side plate portion 102b that stands up around the bottom plate portion 102a. The lid-side shell 103 has an upper plate portion 103a and a side plate portion 103b that stands up around the upper plate portion 103a. The body side shell 102 and the lid side shell 103 can be opened and closed by an opening / closing mechanism such as a slide fastener in a state where the side plate portions 102b and 103b are combined. The material of the body 105 is, for example, a resin such as polycarbonate or ABS.

  The handle 106 and the grip portion 107 are attached to the body shell 102, for example. The handle 106 is configured to be extendable and retractable and can be stored in the body shell 102. The grip portion 107 is fixed to the side plate portion 102 b of the body side shell 102. The handle 106 and the grip portion 107 are provided on the side of the side plate portion 102b facing the side on which the casters 108 are attached. The suitcase 100 in the illustrated example has four casters 108, but may be two, for example.

  The electronic device 1 is attached to the body 105. In the present embodiment, as shown in FIG. 8, the electronic device 1 is attached to the side plate portion 103 b in the lid side shell 103. More specifically, the electronic device 1 is attached to the surface of the side plate portion 103b opposite to the side on which the casters 108 are attached (opposite side). A concave portion 104 that matches the shape of the electronic device 1 is formed on the side plate portion 103 b of the lid-side shell 103. The concave portion 104 has a rectangular bottom surface portion 104a and a side surface portion 104b provided around the bottom surface portion 104a. For example, the height of the concave portion 104 may be the same as or greater than the thickness of the housing 6 of the electronic device 1. The electronic device 1 is fixed to the lid-side shell 103 while being accommodated in the concave portion 104. At this time, the protection panel 5 of the electronic device 1 is arranged so as to be flush with or located on the inner side of the side plate portion 103b of the lid-side shell 103. With such an arrangement, the possibility that an impact is applied to the protective panel 5 is reduced.

  As described above, according to the electronic device 1 and the suitcase 100 on which the electronic device 1 is mounted according to the present embodiment, the predetermined curvature radius r is provided on the inner wall of the housing 6 in the connection region between the side plate portion 6c and the face plate portions 6d and 6e. Fillet portions 6f and 6g having the above are provided. For this reason, even if an impact is applied to the housing from the top surface or side surface of the electronic device 1, the impact can be dispersed in multiple directions due to the presence of the fillet portions 6f and 6g (see FIG. 5). ), It is possible to prevent the external shock from being transmitted to the display 2 or the like housed in the housing 6 as it is. As a result, according to the electronic device 1, it is possible to appropriately disperse the impact from the outside and reduce the breakage of the display 2 disposed in the housing 6. Further, since the stress is dispersed by the fillet portions 6f and 6g, it is possible to reduce the thickness of the housing 6 (for example, 20% or more) while ensuring the same strength.

  In the electronic device 1 and the suitcase 100, the curvature radius r of the fillet portions 6f and 6g is 10% or more of the total thickness of the electronic device 1. In the case of having such a radius of curvature, the impact from the outside can be dispersed in more directions, so that the damage of the display 2 arranged in the housing 6 can be further reduced.

  In the electronic device 1 and the suitcase 100, the fillet portions 6 f and 6 g are provided over the entire circumference of the inner wall of the housing 6. For this reason, even when the electronic device 1 receives an impact from any direction, it is possible to reduce the damage of the display 2 arranged in the housing 6.

  In the electronic device 1 and the suitcase 100, the display 2 is arranged in the housing storage area 6 a so that the edge of the display 2 is 1 mm or more away from the inner wall of the housing 6. For this reason, the impact received by the electronic device 1 can be prevented from being directly transmitted to the display 2 and the transmission thereof can be weakened, whereby the damage to the display 2 can be further reduced.

  In the electronic device 1 and the suitcase 100, the housing 6 includes an upper surface plate portion 6d provided to be connected to one end of the side plate portion 6c, and a bottom surface plate portion 6e provided to be connected to the other end of the side plate portion 6c. have. A first fillet portion 6f having a radius of curvature r is provided on the inner wall of the housing in the connection region between the side plate portion 6c and the upper surface plate portion 6d, and in the connection region between the side plate portion 6c and the bottom surface plate portion 6e. A second fillet portion 6 g having a radius of curvature r is provided on the inner wall of the housing 6. Although the first and second fillet portions 6f and 6g described above have been described as having the same curvature radius in the present embodiment, the curvature radii of both may be different. With such a configuration, an impact from any direction can be more evenly distributed.

  In the electronic device 1 and the suitcase 100, the mounting board 3 is connected to the board body, the control unit 37 mounted on the board body, the storage unit 31 connected to the control unit 37, and the control unit 37. The communication ICs 32 and 35, and the antennas 33 and 36 connected to the communication ICs 32 and 35 and formed on the substrate body. The control unit 37, the storage unit 31, and the communication ICs 32 and 35 are connected to the fillet portion 6f. , 6g may be arranged on the substrate body so as to be on the inner side in the plane direction than the region where 6g is formed. In this case, a member having a certain height is accumulated in the central portion of the substrate body, and the radius of curvature r of the fillet portion of the inner wall of the housing 6 can be increased while reducing the size and thickness of the electronic device. It becomes possible.

  Moreover, in the electronic device 1 and the suitcase 100, the outer side R part which has a predetermined curvature radius may be provided in the outer wall of the housing | casing 6 in the connection area | region of the side board part 6c and the upper bottom face board parts 6d and 6e. In this case, since the impact can be dispersed in the outer wall portion of the housing that directly receives the impact, damage to the display 2 and the like can be further reduced.

  As mentioned above, although embodiment of this invention was explained in full detail with reference to drawings, a specific structure is not restricted to this embodiment. For example, the outer shape of the housing 6 constituting the electronic device 1 is not limited to the above-described example. For example, as shown in the electronic device 1a of FIG. Ribs 6j and 6k that protrude in the vertical direction from the face plate portion 6e may be further provided along the periphery. In this case, for example, since the protective panel 5 is disposed inward from the outer surface of the electronic device 1, the external impact on the protective panel 5 itself can be reduced by the ribs 6j and 6k. As a result, damage to the display 2 can be further reduced. Moreover, the external shape of the electronic device 1 (housing 6) is not limited to a rectangular shape in plan view, and a triangular shape, other polygonal shapes, a circular shape, an elliptical shape, or the like can be appropriately employed. .

  Moreover, although the case where the housing 6 of the electronic device 1 is formed integrally in the above-described example is shown, the structure is divided into upper and lower parts, and the display 2, the mounting substrate 3, and the cushioning material are provided on the lower housing portion. After housing 4, the upper housing part may be fitted to the lower housing part so as to cover them (or both may be screwed) to form housing 6. When the housing 6 is divided and formed in this way, the work of storing the display 2 and the like in the housing 6 can be made efficient.

  Further, the electronic device 1 may be attached to any part of the suitcase 100. For example, the electronic device 1 may be provided on another surface of the lid-side shell 103 or the upper plate portion 103a. Moreover, the electronic device 1 may be attached to the body side shell 102, for example, may be attached to the side surface in which the holding part 107 in the body side shell 102 is provided. In the suitcase 100, the side surface on which the casters 108 are provided generally does not face upward. Therefore, when the electronic device 1 is attached to the side surface facing the side surface on which the casters 108 are provided, it becomes difficult for the electronic device 1 to contact the ground. Therefore, the UHF band antenna 36 is likely to be at a position away from the ground or the like, the visibility is improved, and a decrease in communication characteristics during conveyance on the belt conveyor can be suppressed. The body side shell 102 and the lid side shell 103 may be formed by integral molding, or may be divided. When the body-side shell 102 and the lid-side shell 103 are divided, the electronic device 1 is provided in the divided parts, so that the trouble of mounting the electronic device 1 during manufacturing and assembly is reduced. In this case, the parts to be divided may be designed so that the electronic device can be replaced after the product is shipped.

  Moreover, although the example which performs power supply and data communication (data update) using the frequency of HF band, and reads stored data using the frequency of UHF band was shown, it is not limited to this. The frequency band described in the embodiment is an example, and may be an arbitrary frequency band. For example, power is supplied to an electronic device using a 13.56 MHz HF band frequency band or other energy harvesting such as a primary battery, a solar battery, or a vibration element, and the microwave frequency band is 2.4 GHz. The baggage transportation system may be configured to perform data communication and image rewriting power generation with the electronic device. The battery may be temporarily stored in a secondary battery, a capacitor, or the like, and may receive all or part of the necessary power. In this case, the baggage transport system uses the Bluetooth (registered trademark), Bluetooth LE (registered trademark), ANT (registered trademark) communication, or wireless LAN (including Wi-Fi) communication in the 2.4 GHz band. Data communication with the electronic device 1 may be performed, and in addition to the HF band and UHF band antennas, a communication method may exist simultaneously.

  Moreover, although the example in which the suitcase 100 was formed with resin, such as a polycarbonate and ABS, was shown, it is not limited to this. For example, the suitcase may be formed of a metal such as aluminum or duralumin. In general, when wireless communication is performed, communication characteristics deteriorate if the antenna is in contact with metal. However, since the air gap is formed between the antenna and the suitcase as in the embodiment shown in FIG. 9 and the like, the antenna does not come into contact with the metal, and deterioration in communication characteristics can be suppressed.

  Moreover, the material which forms the housing | casing 6 in the electronic device 1 is a synthetic resin, for example, and is not specifically limited. The housing 6 is not only formed of one type of material, but may be formed of two or more types of materials. For example, you may form only the edge part in the housing | casing 6 with an elastic body with a low Young's modulus. In addition, in consideration of molding, a ceiling part and a bottom part divided into two in the casing thickness direction may be combined. Moreover, the structure where the surface of the housing | casing 6 is coat | covered with the elastic body with a low Young's modulus may be sufficient. Furthermore, even in a crushable structure widely used in automobiles and the like, priority is given to protection of important members for satisfying the functions of the display 2, the control unit 37, etc., and a structure that promotes alternative destruction of the casing and case is adopted. Good. In addition, the function of the housing 6 itself may be provided on the suitcase 100 side, and the substrate on which the antenna is formed may be directly fixed to the suitcase 100 without the housing.

  Further, the UHF band IC 35 has two or more external interfaces, one of which may be electrically connected to the UHF band antenna 36 and the other may be connected to the control unit 37. Furthermore, you may connect with various component devices via the control part 37. FIG. Further, the display and the UHF band antenna do not have to be installed in parallel, and the receiving part of the antenna does not have to be a plane parallel to the vicinity of the display.

  Moreover, in said example, although the suitcase 100 was illustrated as a container, for example, it is not limited to this. For example, the types of containers can be used for logistics boxes (folding containers), cases used for process management in factories, containers of various sizes used for railway transportation and home delivery, in-house flights, confidential document processing, etc. A wide variety of cases can be used such as a case for a round-trip letter that assumes reuse being used.

DESCRIPTION OF SYMBOLS 1, 1a ... Electronic device, 2 ... Display, 3 ... Mounting board, 6 ... Housing | casing, 6a ... Storage area, 6c ... Side plate part, 6d ... Top plate part (face plate part), 6e ... Bottom plate part (face plate part) 6f, 6g ... fillet part (R part), 6h, 6i ... outer R part, 31 ... storage part, 32 ... HF band IC (communication IC), 33 ... HF band antenna, 35 ... UHF band IC (for communication) IC), 36 UHF band antenna, 37 control unit, 100 suitcase, d separation distance, r curvature radius.

Claims (9)

An electronic device that can be attached to a case,
A mounting board;
A display disposed on one side of the mounting substrate;
A housing for housing the mounting substrate and the display inside,
The housing includes a side plate portion that defines an outer frame of the storage region, and a face plate portion that is connected to the side plate portion and defines at least one side of the thickness of the storage region,
An electronic device, wherein an R portion having a predetermined radius of curvature is provided on an inner wall of the casing in a connection region between the side plate portion and the face plate portion.   The electronic device according to claim 1, wherein a radius of curvature of the R portion is 10% or more of a total thickness of the electronic device.   The electronic device according to claim 1, wherein the R portion is provided over the entire circumference of the inner wall of the housing.   The electronic device according to any one of claims 1 to 3, wherein the display is arranged in a housing region of the housing such that an edge portion thereof is separated from the inner wall of the housing by 1 mm or more. The face plate portion includes a top plate portion provided to be connected to one end of the side plate portion, and a bottom plate portion provided to be connected to the other end of the side plate portion,
A first R portion having a predetermined radius of curvature is provided on the inner wall of the casing in the connection region between the side plate portion and the upper surface plate portion, and the connection region between the side plate portion and the bottom plate portion is in the connection region. The electronic device according to claim 1, wherein a second R portion having a predetermined radius of curvature is provided on the inner wall of the housing.   The electronic device according to claim 5, wherein the first and second R portions have the same radius of curvature. The mounting board is connected to a board main body, a control unit mounted on the board main body, a storage unit connected to the control unit, a communication IC connected to the control unit, and the communication IC. An antenna formed on the substrate body,
At least the control unit, the storage unit, and the communication IC are arranged on the substrate main body so as to be on the inner side in a planar direction with respect to a region where the R unit is formed. The electronic device according to item.   The electronic device according to any one of claims 1 to 7, wherein an outer R portion having a predetermined radius of curvature is provided on an outer wall of the casing in a connection region between the side plate portion and the face plate portion. . The electronic device according to any one of claims 1 to 8,
A case to which the electronic device can be attached and having a storage unit for storing an arbitrary object;
Container.