JP2008193353A - Radio device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To facilitate screwing-up and screwing-off in a radio device including a chassis having a substrate disposed in an enclosure when attaching and detaching the chassis, by dropping the chassis to projections provided in the enclosure to screw up the chassis. <P>SOLUTION: The radio device includes a chassis 5 provided with one or more substrates for communication with other radio devices and the enclosure having the chassis 5 stored therein. An inverted Ω shape is given to the chassis 5 by forming the chassis 5 into a U shape and bending both end parts of the U shape outward into bent parts 5a, and projections 6 to be engaged with the bent parts 5a formed in both ends of the chassis 5 are provided in both inside ends of the enclosure, whereby maintenance can be improved even in the case of miniaturization of the device. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a built-in structure when connecting an antenna circuit or a circuit unit.

The structure of a conventional wireless device will be described with reference to FIG. As shown in FIG. 5, the conventional wireless device has a structure in which the RF / MODEM substrate 1 and the optical substrate 2 are arranged as one unit in the casing, and the casing is covered with the antenna unit 7. Yes.
The RF / MODEM substrate 1 is disposed on the upper surface of the chassis 5, and is connected to the duplexer 3 disposed on the upper surface of the chassis 5 by a cable 9. The optical substrate 2 is disposed on the lower surface of the chassis 5 and is connected to the RF / MODEM substrate 1 by a cable 9 to form one unit.
Further, the duplexer 3 is connected to the antenna portion 7 by a cable 9, and the optical substrate 2 is connected to a connector 4 disposed on the side surface of the housing by an optical cable 8.

Next, the arrangement of the chassis 5 composed of the RF / MODEM substrate 1 and the optical substrate 2 in the housing will be described. Inside the housing, a protrusion 6 is provided on the inside to fix the chassis 5 composed of the RF / MODEM substrate 1 and the optical substrate 2, and the chassis 5 can be screwed or the like by the protrusion 6. Fixed. The height of the protrusion 6 is higher than the height of the optical substrate 2 provided on the lower surface of the chassis 5, and even if the chassis 5 is disposed in the casing, the optical substrate 2 hits the bottom surface of the casing. There is no such thing.
As described above, the conventional radio device has a configuration in which the chassis 5 is fixed in the housing and the antenna unit 7 is covered.

For example, Patent Document 1 is a conventional wireless device.

JP 2006-268640 A

  Conventionally, an RF / MODEM substrate is disposed on the upper surface of the chassis, and a unit having an optical substrate on the lower surface of the chassis is fixed by screwing with a protrusion in the housing. However, due to the miniaturization of the radio, there is a limit to the space for screwing when fixing the unit to the protrusion in the housing, making it difficult to screw the unit into the housing within the limited space. It was. In addition, an optical cable that connects a connector and an optical substrate disposed on the side of the housing needs a predetermined length in order to perform optical communication. However, when this optical cable is housed in the housing, the cable is not fixed and disposed in the housing, so that the cable moves due to vibration or the like, and is connected to the connection portion between the optical substrate and the connector disposed on the side surface of the housing. This will add a load and affect the communication of the radio. Similarly, the cable connecting the antenna unit and the duplexer is also bent in the housing, and a load is applied to the connection portion between the antenna unit and the duplexer. For this reason, it was necessary to carefully perform the assembling work in order to prevent the cables and the like from being bent during the assembling.

  In addition, when performing maintenance of the radio, the antenna unit is removed, and then the unit fixed in the housing is removed. However, as described above, the space fixed with screws is limited. Therefore, it is difficult to remove the unit. Further, since the optical substrate provided on the lower surface of the unit is connected to the optical cable, it is difficult to remove the unit when removing the unit from the housing.

  In order to solve the above-described problems, the present invention includes a chassis including one or more substrates for communicating with other wireless devices, and a housing that houses the chassis, and the chassis is formed in a concave shape. And having a reverse ohmic shape in which both end portions of the concave shape are bent outward, and protrusions for joining the bent portions formed at both ends of the chassis are provided at both ends of the housing. Thus, even when the size is reduced, maintenance can be improved.

According to the first embodiment of the present invention, the chassis on which the RF / MODEM substrate and the optical substrate are arranged is a reverse ohm type, and the chassis is dropped to the protruding portion provided in the housing and screwed to thereby form the reverse ohm type. Since the portions bent to the outside of both end portions can be used as a space for screwing, it is possible to facilitate screwing and screw removal at the time of chassis installation or removal of the chassis for maintenance or the like.
In addition, by placing the position of the board arranged on the chassis and the position of the connector provided on one side of the chassis so that the optical cables arranged in the chassis are concentrated on the upper surface of the chassis, The optical cable can be easily detached, and the chassis can be easily detached from the housing.
In addition, since the optical cable is fixed by wrapping the optical cable provided in the housing around the push-on connector part provided in the chassis, the optical cable is not fixed and the load on the connection part of the cable due to vibration etc. Can be reduced.

  In the second embodiment, since the chassis and the optical cable are prevented from interfering with each other, it is easier to remove when performing maintenance than in the first embodiment. In the second embodiment, since the optical cable is connected to the connector provided on the one side surface of the housing through the lower surface side of the chassis, when fixing the optical cable, the optical fiber cable is wound in a bundled fixture. It is possible to prevent the optical cable from being fixed and a load applied to the connection portion of the optical cable due to vibration or the like without being fixed.

  A first embodiment of the present invention will be described. FIG. 1 is a diagram showing a first embodiment of the present invention. As shown in FIG. 1, the radio apparatus according to the first embodiment also has an RF / MODEM substrate 1 and an optical substrate 2 arranged as a unit in a casing, and the antenna unit 7 attaches the casing to the casing. It has a structure with a lid. The wireless device of the present invention is a wireless device installed particularly in a toll booth or a parking lot on an expressway, and communicates with a wireless device provided in a car or the like.

  First, the chassis 5 used in the present invention will be described. The chassis 5 uses a chassis 5 having a reverse ohmic shape (a shape in which the chassis is concave and both end portions of the concave shape are bent outwardly, hereinafter referred to as a reverse ohmic shape). The chassis 5 has a shape 5a in which both ends are bent outward, and this portion is dropped to the protruding portion 6 in the casing, and is screwed to fix the chassis 5 in the casing. In addition, the RF / MODEM substrate 1, the optical substrate 2, the duplexer 3, and the like are disposed in the central portion of the chassis 5 (concave concave portion, hereinafter referred to as the central portion) as in the conventional case to form one unit.

Next, a method for arranging the substrates arranged in the chassis 5 will be described. First, the optical board 2 is conventionally arranged on the lower surface of the chassis 5, but the optical board 2 connected to the optical cable 8 at the time of maintenance of the wireless device or the like is on the lower surface of the chassis 5. It is difficult to remove only the chassis 5 from the housing. For this reason, in the present invention, the receiving side of the optical substrate 2 and the push-on connector 10 is disposed on the upper surface of the central portion of the chassis 5. By doing so, the optical cable 8 can be easily detached from the optical substrate 2 when only the chassis 5 is removed during maintenance, which has been a problem in the past.
In addition, the RF / MODEM substrate 1 and the duplexer 3 are provided on the lower surface of the central portion of the chassis. In this way, by arranging the substrates on the chassis 5, the substrates connected by the optical cable 8 can be concentrated on the upper surface of the chassis. Thereby, the optical cable 8 can be easily detached at the time of maintenance or the like, and the work efficiency at the time of maintenance can be improved.

Next, connection of the optical substrate 2, the RF / MODEM substrate 1, the duplexer 3, and the push-on connector 10 disposed in the chassis 5 will be described.
First, as described above, the optical substrate 2 and the push-on connector 10 are disposed on the upper surface of the central portion of the chassis 5. An RF / MODEM substrate 1 and a duplexer 3 are disposed on the lower surface of the central portion of the chassis 5. The push-on connector 10 disposed on the upper surface of the chassis 5 is disposed at a position (symmetrical position) where the push-on connector 10 provided in the antenna unit 7 is fitted, and disposed on the chassis 5 side. The push-on connector 10 is configured to be connected to the duplexer 3 disposed on the lower surface of the chassis 5 at a position symmetrical to the push-on connector 10. The duplexer 3 is connected to the RF / MODEM substrate 1 by a cable 9. The RF / MODEM substrate 1 is configured to be connected to an optical substrate 2 disposed on the upper surface of the chassis 5. In this way, the optical substrate 2, the RF / MODEM substrate 1, the push-on connector 10, and the duplexer 3 are arranged in the chassis 5 to form one unit.

Next, the structure of the casing of the wireless device will be described. The case structure of the wireless device of the present invention is formed in a U-shape as in the prior art, and a projection 6 is provided in the case for screwing and fixing the bent portions 5a at both ends of the inverted ohmic chassis 5. It becomes the composition.
Further, a connector 4 for connecting to an optical cable 8 connected to the optical substrate 2 is provided on one side of the casing. Conventionally, the connector 4 provided on the lower side of one side of the housing is provided on the upper side. As a result, the optical cable 8 can be concentrated on the upper part of the housing, and the optical cable 8 can be easily removed during maintenance, and only the chassis can be efficiently removed.

  Next, the case where a chassis is inserted and fixed to a housing | casing is demonstrated. As described above, the bent portions 5a at both ends of the chassis 5 are dropped to the protruding portions 6 in the housing. The bent portion 5a of the chassis 5 dropped to the protruding portion 6 in the casing is fixed by screwing from the upper surface of the chassis 5 toward the protruding portion 6 in the casing. As described above, the bent portions 5a are provided at both ends of the chassis 5 and are inserted and fixed in the casing. Therefore, the bent portions 5a at both ends of the chassis 5 can be used as a screwing space, and the casing can be made compact. Even in such a case, since the space for screwing can be secured, the screwing can be easily performed, and the chassis 5 can be easily detached at the time of maintenance.

  Next, the case where the antenna part 7 is attached to a housing | casing is demonstrated. After the chassis 5 is fixed to the housing as described above, the optical substrate 2 and the connector 4 attached on one side upper side of the housing are connected by the optical cable 8. When the optical cable 8 is connected, a hole for passing the optical cable 8 is provided in one of the side surfaces of the concave portion of the chassis 5 and one of the protrusions 6 provided in the housing. By passing, the optical substrate 2 and the connector 4 are connected by the optical cable 8. Since this optical cable 8 needs to secure a certain length, it is longer than the distance from the optical substrate 2 to the connector 4. For this reason, when using the optical cable 8 having a length longer than the distance from the optical substrate 2 to the connector 4, the optical cable 8 is wrapped around the push-on connector 10 portion disposed on the upper surface of the chassis 5. It is possible to reduce the load on the connection portion of the optical cable due to vibration or the like, which has been a problem in the past. As described above, after connecting the optical substrate 2 and the connector 4 attached to the upper side of one side of the housing with the optical cable 8, the antenna unit 7 is attached to the housing. When the antenna unit 7 is attached, the antenna unit 7 is attached to the housing so that the push-on connector 10 provided in the chassis 5 and the push-on connector 10 provided in the antenna unit 7 are fitted. And fix by screwing at the end.

As described above, according to the first embodiment of the present invention, the chassis 5 on which the RF / MODEM substrate 1 and the optical substrate 2 are disposed is formed into the inverted ohmic chassis 5 in which both ends are bent 5a. By dropping the chassis 5 to the protrusion 6 provided in the body and screwing it, it can be used as a space for screwing the bent portion, so that the screwing when removing the chassis 5 during installation of the chassis 5 or maintenance, The screw can be easily removed.
Further, the position of the board disposed in the chassis 5 and the position of the connector 4 provided on one side surface of the chassis are arranged above the chassis 5 so that the optical cables 8 disposed in the chassis are concentrated on the upper surface of the chassis 5. Thus, the optical cable 8 can be easily removed at the time of maintenance, and the chassis 5 can be easily detached from the housing.
Further, since the optical cable 8 is fixed by wrapping the optical cable 8 provided in the housing around the push-on connector portion 10 provided in the chassis 5, the optical cable 8 is not fixed and the cable is connected by vibration or the like. The load on the part can be reduced.

  A second embodiment of the present invention will be described. FIG. 2 is a diagram showing a second embodiment of the present invention. As shown in FIG. 2, the radio apparatus according to the second embodiment is also provided with the RF / MODEM substrate 1 and the optical substrate 2 as one unit in the casing, and the antenna unit 7 attaches the casing to the casing. It has a structure with a lid.

The basic configuration of the second embodiment of the present invention is the same as that of the first embodiment. In the first embodiment, an optical substrate is disposed on the upper surface of the reverse ohmic chassis 5 and the optical cable 8 is connected to the connector 4 provided above one side surface of the housing. However, as described above, in the first embodiment, the optical cable 8 is connected through a hole through which the optical cable 8 provided in one of the concave side surfaces of the inverted ohmic chassis 5 and one of the protrusions in the housing is passed. When removing the chassis 5 for maintenance, it is necessary to remove the optical cable 8 from the hole for connecting to the connector 4 provided on the side surface of the housing.
For this reason, in the second embodiment, an embodiment for further improving the maintainability as compared with the first embodiment will be described. Here, since the basic configuration of the second embodiment is substantially the same as that of the first embodiment, only the differences will be described.

  FIG. 2 is a diagram illustrating a second embodiment. The difference from the first embodiment is that the connector 4 provided on one side surface of the housing is provided below. As described above, in the first embodiment, since the optical cable 8 is connected through the optical cable 8 to the hole provided in one of the concave side surfaces of the inverted ohmic chassis 5 and one of the protruding portions in the housing, the maintainability is improved. There was a point of getting worse. For this reason, in the second embodiment, in order to prevent the optical cable 8 from passing through the hole provided in one of the concave side surfaces of the chassis 5, the connector 4 is arranged below the one side surface of the housing.

  Further, in order to connect the optical substrate 2 disposed on the upper surface of the chassis 5 and the connector 4 provided below one side surface of the housing, a notch portion 11 is provided on one of the bent portions 5a of the chassis 5, A cutout 11 is also provided in one of the protrusions 6 inside the housing, and the optical cable 8 is passed through the cutout 11 for connection.

The above-described notch 11 provided in the chassis 5 and the protruding portion 6 in the housing will be specifically described with reference to FIGS. FIG. 3 is a view of the chassis 5 as viewed from above, and FIG. 4 is a view of the housing as viewed from above.
As shown in FIG. 3, a U-shaped notch 11 is provided on one of the bent portions 5 a of the chassis 5. Moreover, as shown in FIG. 4, the U-shaped notch part 11 is provided also in one side of the protrusion part 6 provided in the inside of a housing | casing. The notch 11 shown in FIG. 4 has a configuration in which the notch 11 is provided in a rail shape in the height direction of the protrusion 6.
When the chassis 5 shown in FIG. 3 and the protrusion provided in the housing of FIG. 4 are fixed, the chassis 5 and the notch 11 provided in the protrusion 6 inside the housing are overlapped with each other. 5 is dropped into the housing and fixed with screws. For this reason, in the part of the notch part 11 provided in the chassis 5 and the protrusion part 6 provided in the housing | casing, a cavity can be made vertically with respect to the height direction of a housing | casing. When the optical cable 8 is passed, it is possible to connect the optical substrate 2 on the upper surface of the chassis 5 and the connector 4 provided on the lower side of the casing by passing the optical cable 8 in the cavity. .

In the second embodiment, since the above-described configuration prevents the chassis 5 and the optical cable 8 from interfering with each other, it is easier to remove when performing maintenance than in the first embodiment. In the second embodiment, since the optical cable 8 is connected to the connector 4 provided on one side surface of the housing through the lower surface side of the chassis 5, the optical cable 8 is wound when the optical cable 8 is fixed. By providing a bundling fixture in the state and fixing it to the bottom surface or the like inside the housing, it is possible to prevent the optical cable 8 from being fixed and a load applied to the connection portion of the optical cable 8 due to vibration or the like.
Needless to say, in the second embodiment, the same components as those in the first embodiment have the same effects as those in the first embodiment.

Configuration diagram of a radio according to the first embodiment Configuration diagram of radio apparatus according to second embodiment The figure which looked at the chassis concerning a 2nd embodiment from the upper surface The figure which looked at the inside of a case concerning a 2nd embodiment from the upper surface Configuration diagram of conventional radio equipment

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 RF-MODEM board | substrate, 2 optical board, 3 duplexer, 4 connector, 5 chassis, 5a bending part, 6 protrusion part, 7 antenna part, 8 optical cable, 9 cable, 10 push-on connector, 11 notch part

Claims (1)

A chassis having one or more boards for communicating with other radios;
A housing for housing the chassis,
The chassis is formed in a concave shape and has an inverted ohmic shape in which both end portions of the concave shape are bent outward, and the both ends inside the casing are joined to the bent portions formed at both ends of the chassis. A wireless device provided with a protruding portion.

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