JP7020519B2 - How to remove the transmission device, cable guide, and board - Google Patents

Description

The present invention relates to a transmission device, a cable guide, and a method for removing a substrate.

As an example of a transmission device to which a plurality of cables are connected, an optical network unit (also referred to as an Optical Line Thermal, hereinafter referred to as "OLT") is known. Most OLTs have a plurality of substrates and a housing in which the substrates are accommodated in order to improve maintainability and line accommodation density. At the end of the board, a plurality of connection ports to which the optical fiber cable is connected are arranged along the edge. A plurality of boards are housed in a housing. Patent Document 1 discloses an example of such a transmission device. In this example, the substrate is vertically placed so that the substrate surface is along the vertical direction.

Japanese Unexamined Patent Publication No. 2001-358473

By the way, due to the miniaturization of the transmission device, optical fiber cables may become densely packed, making it difficult to repair or inspect the transmission device. For example, if the optical fiber cable connected to the transmission device hangs down, the optical fiber cable becomes an obstacle when the substrate is inserted and removed from the housing of the transmission device, and the work is delayed. An object of the present invention is to provide a transmission device for easily inserting and removing a substrate, a cable guide, and a method for removing the substrate.

A transmission device according to an aspect of the present invention includes a substrate having a connection end to which a cable is connected, and a cable guide arranged along the connection end to guide the cable. The cable guide is provided in the elongated guide main body portion extending in a predetermined first direction, the guide main body portion extending in the second direction intersecting the first direction, and the arm portion supporting the cable. It includes a connection portion provided on the guide main body portion and in which the cable guide is arranged so that the first direction is along the connection end portion.

According to the above transmission device, it is easy to insert and remove the substrate.

It is a perspective view of the transmission apparatus which concerns on one aspect of the invention. It is a perspective view of a cable guide. It is a front view of a cable guide. It is a perspective view of a support member. It is an exploded perspective view of a support member. It is a top view of the transmission device. It is a front view of a transmission device. It is a perspective view of the modification of the cable guide set.

[Explanation of Embodiments of the present invention]
First, embodiments of the present invention will be described in a list.
(1) The transmission device according to one embodiment of the present invention includes a horizontal substrate having a connection end to which a plurality of cables are connected, and a cable guide arranged below the connection end to guide the cable. A plurality of combinations with the above are arranged in the vertical direction, and the cable guides are arranged along the connection end portion of the board to guide the cable, and are provided at one end outside the guide portion. It has a first connection portion that is connected to the transmission device, and a second connection portion that is provided at the other end of the guide portion and is connected to the transmission device.

According to this configuration, since the cable is guided by the cable guide, the cable guide prevents the cable from hanging down, and the substrate can be easily inserted and removed.

(2) In the transmission device, a support member attached to the transmission device to support the cable guide is further provided, and at least one of the first connection portion and the second connection portion of the cable guide is from the transmission device. It is connected to the transmission device via the support member so as to be separated from each other.
According to this configuration, at least one of the first and second connections is supported at a distance from the transmission device. Since cables are densely packed around the connection end of the board housed in the transmission device, it is difficult to make the connection in the case of a configuration in which the first or second connection part is directly connected to the transmission device. However, according to the above configuration, it is easy to connect the first or second connection portion.

(3) In the transmission device, the support member has a support portion that supports the second connection portion of the cable guide, and the support portion is the inner circumference of a through hole into which the second connection portion can be inserted and removed. It is configured as a part of the surface, and the second connection portion is supported by being placed on the support portion.
According to this configuration, the second connection portion of the cable guide is inserted into the through hole of the support member. Due to such a structure, the second connection portion of the cable guide can be easily connected to the support member. Further, the movement of the second connection portion of the cable guide in the direction intersecting the insertion direction is restricted. As a result, the cable guide is prevented from falling off from the support member.

(4) In the transmission device, a plurality of cable connectors at the connection end of the substrate are diagonally arranged so as to face the support member, and the support member grips the cable. Has a grip to be used.
According to this configuration, the cable is routed toward the support member. Further, the cables routed to the support member can be bundled at the grip portion. As a result, the wiring space of the cable can be reduced.

(5) In the transmission device, the first connection portion of the cable guide is connected to the transmission device by a fastening member, and the first connection portion has a slit through which the fastening member can be inserted. Have.
According to this configuration, the engagement between the fastening member and the first connecting portion can be released by loosening the fastening member and moving the cable guide.

(6) In the transmission device, the guide portion of the cable guide has a guide main body portion arranged along the connection end portion of the substrate of the transmission device and the guide portion so as to be separated from the connection end portion. It has at least one arm extending from the main body.
In this configuration, the cable is supported by the arm of the guide. Space is secured around the arm. You can insert your finger into this space when plugging and unplugging the cable. Therefore, the cable can be easily inserted and removed as compared with a flat plate-shaped guide plate in which such a space is not provided.

(7) In the transmission device, the distance between vertically arranging the substrates is 25.4 mm or less, at least the arm portion has flexibility, and the arm portion has the cable dropped from the arm portion. It has a blocking part that prevents it from doing so.
According to this configuration, even when the distance between the boards arranged in the vertical direction is 25.4 mm or less and the cables are densely packed in the vertical direction, at least the arms are bent, so that the cables can be easily inserted and removed. can. Further, since the arm portion has a blocking portion, it is possible to prevent the cable from falling off from the cable guide.

(8) The cable guide according to one embodiment of the present invention is a cable guide set for a transmission device including a plurality of horizontal boards having a connection end to which a plurality of cables are connected in the vertical direction. A guide portion on which a cable is placed and guided along the connection end portion of the board, a first connection portion provided at one end on the outer side of the guide portion and connected to the transmission device, and a guide portion of the guide portion. Includes a cable guide with a second connection provided at the other end and connected to the transmission device.
According to this configuration, the cable is guided along the connection end portion of the board by the guide portion, and the hanging of the cable is suppressed, so that the board can be easily inserted and removed.

(9) The method for removing the substrate according to one embodiment of the present invention is as follows. The method of removing the board includes a plurality of horizontal boards having a connection end to which a plurality of cables are connected in the vertical direction, and a cable guide for guiding the cables in the horizontal direction corresponds to the board. This is a method of removing a board from which one of the plurality of boards is removed from the transmission device attached at the first connection portion and the second connection portion, and is a board to be removed from the transmission device. The first step of pulling out a plurality of cables from the connection end of the board to be removed, and the second step of removing the cable guide attached to the board to be removed from the transmission device after the first step. The procedure includes a third procedure of removing the board to be removed from the transmission device after the second procedure.
According to this configuration, the board to be removed can be removed without pulling out the cable of the board other than the board to be removed, and at that time, the board to be removed comes into contact with the cable of the other board. Can be suppressed.

(10) In the method of removing the board, in the first procedure, the cable is pulled out from the connection end of the board to be removed from the transmission device by using a space vertically wider than the mounting interval of the board. ..
According to this configuration, it is easy to insert and remove the cable.

[Details of Embodiments of the present invention]
Specific examples of the transmission device and the cable guide set (cable guide) according to the embodiment of the present invention will be described below with reference to the drawings. It should be noted that the present invention is not limited to these examples, but is indicated by the scope of claims, and may include the meaning equivalent to the scope of claims and all modifications within the scope of the claims. Intended.

In the explanation of the transmission device and cable guide set, the vertical direction means the vertical direction of the transmission device and cable guide when the transmission device is placed in an appropriate state (specifically, the installation state in use). It's called direction. Therefore, in an appropriate installation state, the top and bottom of the transmission device correspond to the top and bottom in the vertical direction, and similarly, the top and bottom of the cable guide correspond to the top and bottom in the vertical direction. Further, the housing height direction DZ, which will be described later, coincides with the vertical direction. The housing vertical direction DY coincides with the insertion / removal direction of the substrate. The housing lateral direction DX is a direction orthogonal to the housing height direction DZ and the housing vertical direction DY.

FIG. 1 shows a transmission device 80.
An example of the transmission device 80 is an optical line terminal (hereinafter referred to as “OLT”). An optical terminal line device (Optical Network Unit) is connected to the OLT via an optical fiber cable. Not only an optical fiber cable but also an electric cable is connected to the OLT. In this embodiment, the optical fiber cable and the electric cable are collectively referred to as "cable 90". The cable connector 83 includes a connector for an optical fiber cable and a connector for an electric cable.

The transmission device 80 includes a plurality of boards 82, a housing 81, and a cable guide 10.
The housing 81 accommodates a plurality of substrates 82. The plurality of substrates 82 are housed in the housing 81 in a state of being arranged in a direction intersecting the substrate surfaces 82s (for example, the housing height direction DZ). Specifically, the substrate 82 is housed in the housing 81 so that the substrate surface 82s is horizontal, and the plurality of substrates 82 are arranged in the vertical direction.

The board 82 has a connection end 82a to which a plurality of cables 90 are connected. A plurality of cable connectors 83 are arranged in parallel in the horizontal direction at the connection end portion 82a of the board 82. With the plurality of boards 82 housed in the housing 81, the connection end 82a is arranged in the opening on the front side of the housing 81. Since the plurality of boards 82 are arranged in the housing height direction DZ, the cable connectors 83 are arranged vertically and horizontally in front of the transmission device 80.

The cable connector 83 for the optical fiber cable of each substrate 82 faces diagonally in the same direction as in the present embodiment (see FIG. 6), for example. Specifically, all the cable connectors 83 for the optical fiber cable are similarly oriented in a direction inclined by a predetermined angle in the lateral DX of the housing with respect to the line perpendicular to the front surface of the transmission device 80. Therefore, the cable 90 connected to the cable connector 83 is wired in the same direction with respect to the transmission device 80. In this way, when the cable connector 83 is wired diagonally, the support member 20 having the grip portion 25 (see later) is on the side where the cables 90 are gathered in front of the transmission device 80 as in the present embodiment. It is preferable to be attached to. That is, in the present embodiment, the support member 20 (see later) is on the front side of the transmission device 80 on the side facing the plurality of cable connectors 83 diagonally provided at the connection end 82a of the substrate 82 (in FIG. 6 on paper). Is placed on the right side of). The plurality of cables 90 are wired toward the support member 20. Further, these plurality of cables 90 are bundled by a grip portion 25 (see later) attached to the support member 20. The cable connector 83 may be provided vertically with respect to the front surface of the transmission device 80. Also in this case, it is preferable that the support member 20 having the grip portion 25 (see later) is attached to the front surface of the transmission device 80 on the side where the cables 90 are aggregated, as in the present embodiment. This is because the cable 90 can be bundled by the grip portion 25 provided on the support member 20. Further, since the support member 20 and the second connecting portion 15 of the cable guide 10 can be connected to each other on the side where the cables 90 are aggregated, the cable guide 10 can be easily attached.

In the following description, in the transmission device 80 in which the cable connector 83 faces diagonally, the side surface on the side opposite to the direction in which the cable 90 is extended is referred to as "first side surface 80a", and the side surface on the side on which the cable 90 is extended is second. It is called the side surface 80b.

When the cable 90 is connected to each cable connector 83, the front surface of the transmission device 80 is covered by the plurality of cables 90. If the cables 90 are not arranged, it will be difficult to insert and remove the board 82, so that the cables 90 are bundled for each board 82. Further, in order to facilitate the insertion and removal of the substrate 82, a plurality of cable guides 10 are attached to the housing 81. Hereinafter, the cable guide 10 will be described.

As shown in FIG. 1, the cable guide 10 supports the cable 90 connected to the substrate 82. Preferably, as shown in FIG. 1, the transmission device 80 further comprises a support member 20. More preferably, the support member 20 is provided with a grip portion 25 for gripping the cable 90. In the transmission device 80, a group of parts that guide the cable 90 is called a "cable guide set 1". The cable guide set 1 includes a plurality of cable guides 10, and in this embodiment, further includes a support member 20.

The cable guide 10 will be described with reference to FIGS. 2 and 3. The cable guide 10 is of the type used together with the support member 20.
The cable guide 10 is arranged below the connection end 82a of the substrate 82 and guides the cable 90. The lower side of the connection end portion 82a of the substrate 82 is a lower portion of the connection end portion 82a of the substrate 82 in the vertical direction, and indicates a lower side than the cable 90. Further, it is not the entire cable guide 10 but the guide portion 11 described later that is arranged below the connection end portion 82a of the substrate 82. Such a cable guide 10 guides the cable 90 connected to the board 82 from the front of the transmission device 80 along the insertion / removal direction of the board 82. The cable guide 10 is made of resin or metal. As an example, the cable guide 10 is formed by stamping a metal plate.

The cable guide 10 is combined with the substrate 82 as described above. Therefore, in the transmission device 80, a plurality of combinations of the substrate 82 whose substrate surface 82s is horizontal and the cable guide 10 are arranged in the vertical direction.

The cable guide 10 is connected to the guide unit 11, the first connection unit 14 provided at one end of the guide unit 11 and connected to the transmission device 80, and the cable guide unit 14 provided at the other end of the guide unit 11 and connected to the transmission device 80. It has a second connection portion 15 and the like.

The guide portion 11 is arranged along the connection end portion 82a of the substrate 82, and the cable 90 can be mounted on the guide portion 11. For example, the guide portion 11 includes a guide main body portion 12 and one or a plurality of arm portions 13 extending from the guide main body portion 12. The guide main body 12 is arranged along the connection end 82a of the substrate 82 of the transmission device 80. The arm portion 13 extends from the guide main body portion 12 so as to be separated from the connection end portion 82a of the substrate 82. The arm portion 13 mainly supports a portion of the cable 90 away from the connector connection end.

The number of arms 13 is not limited, but the number is preferably small enough not to bend the cable 90. This is because if the number of arm portions 13 is too large, the arm portions 13 become an obstacle and it becomes difficult to insert and remove the cable 90. Further, the arm portion 13 is preferably flexible because the cable 90 can be easily inserted and removed. This is because the space around the arm portion 13 is expanded due to the deformation of the arm portion 13, so that it becomes easy to insert a finger to the base of the cable 90. Further, it is preferable that the guide main body portion 12 and the arm portion 13 have flexibility. With this configuration, when the finger is inserted to the base of the cable 90, the arm portion 13 is deformed and the guide main body portion 12 is curved or twisted due to the contact with the finger, and the space around the finger is expanded. Therefore, the cable 90. It becomes easier to insert your finger to the base of the wire. Further, it is preferable that the arm portion 13 is provided with a blocking portion 13a so that the cable 90 does not fall off from the arm portion 13. The blocking portion 13a is configured as an upwardly projecting protrusion provided at the tip of the arm portion 13. This protrusion can be formed, for example, by bending the arm portion 13.

The first connection portion 14 is provided at one end of the guide portion 11. The first connection unit 14 is connected to the transmission device 80. Preferably, the first connecting portion 14 is connected to the transmission device 80 by a fastening member 84 for fixing the substrate 82 to which the cable guide 10 is attached. For example, when both ends of the housing lateral DX of the board 82 are fixed to the housing 81 by fastening members 84 (for example, screws), the first connecting portion 14 is the fastening member 84 and is housing together with the board 82. Connected to 81. The first connection portion 14 has a slit 14a through which a shaft portion (for example, a screw portion of a bolt) of the fastening member 84 can be inserted. The slit 14a extends in the same direction as the longitudinal direction of the guide portion 11 and opens on the side opposite to the guide portion 11. When disengaging the fastening member 84 from the first connecting portion 14, the fastening member 84 is loosened and the cable guide 10 is moved to the second connecting portion 15.

The second connection portion 15 is provided at the end of the guide portion 11 opposite to the first connection portion 14. The second connection unit 15 is directly or indirectly connected to the transmission device 80. Preferably, the second connecting portion 15 is connected to the transmission device 80 via the support member 20 so as to be separated from the transmission device 80. That is, the second connecting portion 15 is connected to the support member 20 attached to the transmission device 80. In the present embodiment, the second connecting portion 15 is connectable to the support member 20 in a non-fixed state. "Connecting in a non-fixed state" means that the second connecting portion 15 is not fixed so as not to be displaced by a force such as tightening, but the second connecting portion 15 is supported from below (that is,). A state in which the second connection portion 15 is placed on the support portion 21a) is shown. The second connection portion 15 is configured as an extension portion of the guide main body portion 12. The second connecting portion 15 is provided with a tapered portion 15a so as to be easily inserted into the through hole 21b (see later) of the support member 20.

The shape structure of the cable guide 10 will be described. The guide main body 12 and the arm 13 of the guide 11 are formed in a plate shape. The guide main body 12 is provided with a step 11b on the first connecting portion 14 side. The step portion 11b is configured to come into contact with the front surface of the transmission device 80 when the cable guide 10 is attached to the transmission device 80. Further, on the side of the first connection portion 14 of the guide main body portion 12, a bent portion 11a bent at a right angle to the guide main body portion 12 is provided. The first connecting portion 14 is configured to further bend the bent portion 11a to include a surface (a surface on the transmission device 80 side) that intersects with a surface (a surface facing upward) formed by the guide portion 11. The surface of the first connection portion 14 (the surface on the transmission device 80 side) is located closer to the transmission device 80 than the edge of the guide main body 12 on the transmission device 80 side in the vertical direction DY of the housing. With such a configuration, when the first connection unit 14 is connected to the transmission device 80, the guide main body unit 12 of the guide unit 11 is separated from the transmission device 80.

The support member 20 will be described with reference to FIG.
The support member 20 supports the second connection portion 15 of the plurality of cable guides 10. The support member 20 is an end portion closer to the second side surface 80b on the front surface of the transmission device 80, and is attached to the portion closer to the second side surface 80b than the substrate 82 in the lateral DX of the housing.

The support member 20 has a support main body portion 21, a fastening portion 22 extending from the support main body portion 21, and a grip portion mounting portion 23 extending from the support main body portion 21 to the side opposite to the fastening portion 22.
The fastening portion 22 is fastened to the transmission device 80 with a fastening member (for example, a screw). The fastening portion 22 is provided with a fastening hole 22a through which the fastening member is inserted.

The support main body 21 is configured in a plate shape. When the cable guide 10 is attached to the transmission device 80, the support main body 21 is arranged along the housing height direction DZ. The support main body 21 is provided with a plurality of support portions 21a for supporting the second connection portion 15 of the cable guide 10. The support portions 21a are arranged at the same intervals as the substrate 82 arranged in the housing height direction DZ. The support portion 21a is configured as a portion on which the second connection portion 15 of the cable guide 10 is placed. Due to this configuration, the second connection portion 15 of the cable guide 10 can be easily connected to the support member 20.

Preferably, as in the present embodiment, the support portion 21a is configured as a bottom surface 21c on the inner peripheral surface of the through hole 21b into which the second connection portion 15 can be inserted and removed. The second connection portion 15 of the cable guide 10 is inserted into the through hole 21b and placed on the bottom surface 21c on the inner peripheral surface. The second connecting portion 15 is restricted from moving in a direction intersecting the insertion direction. Therefore, in this example, the connection of the second connection portion 15 is easy, and the disconnection of the second connection portion 15 is suppressed.

The grip portion 25 is attached to the grip portion mounting portion 23. The grip portion mounting portion 23 is provided with a grip portion hole 23a for mounting the grip portion 25. The grip portion hole 23a is configured to rotate and engage the grip portion 25. Specifically, the gripping portion hole 23a has a circular shaft hole 23b and a pair of slits 23c extending in opposite directions from the shaft hole 23b (see FIG. 5).

As shown in FIG. 5, the grip portion 25 includes a shaft portion 25a and a pair of claws (hereinafter, “first claw 25c” and “second claw 25d”) for gripping the cable 90. The first claw 25c and the second claw 25d are provided at the tip of the shaft portion 25a so as to face each other. The distance of the gap 25e between the tip of the first claw 25c and the tip of the second claw 25d is set to such a distance that the cable 90 can be inserted. The cable 90 is arranged between the first claw 25c and the second claw 25d through the gap 25e. The plurality of cables 90 are bundled by the grip portion 25.

The shaft portion 25a of the grip portion 25 has a pair of convex portions 25b protruding in opposite directions. The pair of convex portions 25b extend in a direction perpendicular to the alignment direction of the first claw 25c and the second claw 25d. The shaft portion 25a is inserted into the shaft hole 23b of the grip portion hole 23a, and the convex portion 25b is inserted into the slit 23c of the grip portion hole 23a. By inserting the shaft portion 25a and the convex portion 25b into the grip portion hole 23a and rotating the shaft portion 25a, the shaft portion 25a of the grip portion 25 engages with the grip portion hole 23a.

Next, in the transmission device 80, a method of removing the substrate 82 (method of removing the substrate) will be described. The removal of the substrate 82 includes the first procedure to the third procedure, and is performed in this order.
In the first procedure, a plurality of cables 90 are pulled out from the board 82 to be removed from the transmission device 80 (hereinafter, “board 82 to be removed”).

In this first procedure, when the cable 90 is pulled out from the connection end 82a of the board 82 to be removed from the transmission device 80, the above-mentioned space SX wider in the vertical direction than the mounting interval of the board 82 can be used. The cable 90 can be easily pulled out.

In the second procedure, the cable guide 10 attached to the board 82 to be removed is removed from the transmission device 80. Specifically, in the cable guide 10 of the present embodiment, the fastening member 84 for fastening the first connecting portion 14 is loosened, and the cable guide 10 is moved to the second connecting portion 15 side to cause the first connecting portion 14. And the fastening member 84 are disengaged from each other, and the movement of the first connecting portion 14 side is freed. After that, the cable guide 10 is moved to the side of the first connection portion 14 to disengage the engagement between the second connection portion 15 and the support portion 21a of the support member 20. In the present embodiment, the first connection portion 14 is fastened to the side where the cables 90 are not densely packed, that is, to the end near the first side surface 80a on the front surface of the transmission device 80, so that the cables 90 do not get in the way. , The disengagement is easy. The second connection portion 15 is arranged on the side where the cables 90 are densely packed, that is, at the end of the front surface of the transmission device 80 on the second side surface 80b side, but the second connection portion 15 is supported in a non-fixed state. Therefore, the second connection portion 15 can be easily removed from the support member 20. In short, the cable guide 10 can be easily removed by simply loosening the fastening member 84 on the first connecting portion 14 side and moving the cable guide 10.

In the third procedure, the board 82 to be removed is removed from the transmission device 80. Since the cable 90 is guided by the cable guide 10 so as not to hang down, the contact between the board 82 and the cable 90 is suppressed when the board 82 is removed. In particular, when the board 82 to be removed is moved perpendicularly to the front surface of the transmission device 80, the board 82 can be taken out without being caught by the cable 90. As described above, according to the transmission device 80 including the cable guide set 1, when the board 82 is removed, the cable 90 connected to the removed board 82 and other boards 82 arranged above and below the board 82. Contact with is suppressed.

The operation and effect of the transmission device 80 will be described with reference to FIGS. 6 and 7.
(1) As shown in FIG. 6, the transmission device 80 includes a plurality of cable guides 10. The cable guide 10 has a guide unit 11 and a first connection unit 14 and a second connection unit 15 connected to the transmission device 80. The guide portion 11 is arranged along the connection end portion 82a of the substrate 82 to guide the cable 90. That is, by arranging the cable guide 10 along the connection end 82a of the board 82, the cable 90 is wired at the same height as the connection end 82a of the board 82 in the housing height direction DZ. (See FIG. 7), and the downward dripping is suppressed. With this configuration, the cable guide 10 suppresses the cable 90 from hanging down, and the cable 90 does not get in the way when the board 82 is inserted / removed, so that the board 82 can be easily inserted / removed from the transmission device 80.

(2) Further, in the above embodiment, the transmission device 80 further includes a support member 20 that supports the cable guide 10. At least one of the first connection portion 14 and the second connection portion 15 of the cable guide 10 (in this embodiment, the second connection portion 15) is connected to the transmission device 80 via the support member 20 so as to be separated from the transmission device 80. Be connected.
According to this configuration, at least one of the first connection portion 14 and the second connection portion 15 is supported at a distance from the transmission device 80. Cables 90 are densely packed around the connection end 82a of the substrate 82 housed in the transmission device 80. Therefore, in the case of a configuration in which the first connection unit 14 or the second connection unit 15 is directly connected to the transmission device 80, it may be difficult to make the connection. However, according to the above configuration, the first connection unit 14 or It is easy to connect the second connection unit 15.

In the case of the present embodiment, the support member 20 is provided with a grip portion 25 for bundling the cables 90. Therefore, the cables 90 are concentrated on the arrangement side of the support member 20 in front of the transmission device 80. Therefore, the density of the cable 90 is high in the region on the arrangement side of the support member 20 on the front surface of the transmission device 80, and the density of the cable 90 is low on the opposite side. Then, the second connecting portion 15 of the cable guide 10 is connected to the support member 20. That is, the second connection portion 15 of the first connection portion 14 and the second connection portion 15, which is easy to connect, is arranged in a region where the density of the cable 90 is high in front of the transmission device 80. Therefore, the cable guide 10 can be easily attached and detached as compared with the case of the reverse structure (the structure in which the first connection portion 14 is connected to the portion of the front surface of the transmission device 80 where the cable 90 has a high density). become. Further, since the second connection portion 15 of the cable guide 10 is supported at a position separated from the transmission device 80, the second connection portion of the cable guide 10 is not obstructed by the cable 90 or is less obstructed by the cable 90. 15 can be inserted and removed. In this way, the above effect becomes more remarkable.

(3) Further, in the above embodiment, the guide portion 11 of the cable guide 10 has a guide main body portion 12 and at least one arm portion 13 extending from the guide main body portion 12 so as to be separated from the connection end portion 82a of the substrate 82. Have. The guide main body 12 is arranged along the connection end 82a of the substrate 82 of the transmission device 80.

According to the above configuration, the cable 90 is supported by the arm portion 13 of the guide portion 11. Then, a space SX is secured around the arm portion 13 (see FIG. 6). Therefore, the cable 90 can be easily inserted and removed as compared with a flat plate-shaped guide plate in which such a space SX is not provided.

(4) In the transmission device 80, it is preferable that the arm portion 13 has flexibility. More preferably, both the guide main body portion 12 and the arm portion 13 have flexibility. Further, the arm portion 13 preferably has a blocking portion 13a that prevents the cable 90 from falling off from the arm portion 13. In this configuration, the following effects are particularly remarkable when the distance between the substrates 82 arranged in the vertical direction is 25.4 mm or less.
For example, if the board mounting interval is 25.4 mm (1 inch) or less, the gap between the cable guides will be smaller, making it difficult to insert a finger into the gap, and if the board mounting interval is 20 mm or less, it will be even more difficult. be.
In this respect, in the above configuration, even when the board mounting interval is narrow, the arm portion 13 of the cable guide 10 bends, so that the cable 90 can be easily inserted and removed. Further, since both the guide main body 12 and the arm 13 have flexibility, when the guide main body 12 and the arm 13 are bent, it becomes easier to insert and remove the finger, and it becomes easier to insert and remove the cable 90. .. Further, even if the arm portion 13 is curved, the cable guide 10 is supported by the blocking portion 13a of the arm portion 13, so that the cable 90 is prevented from falling off from the cable guide 10. The blocking portion 13a of the arm portion 13 also has the following effects. That is, since the cable 90 has elasticity, it may squeeze out from the cable guide 10, but the blocking portion 13a suppresses such squeezing out.

(5) The cable guide set 1 is used in a transmission device having a plurality of horizontal substrates 82 having a connection end portion 82a to which a plurality of cables 90 are connected in the vertical direction. The cable guide set 1 includes a cable guide 10. The cable guide 10 has a guide portion 11, a first connection portion 14, and a second connection portion 15. The guide portion 11 mounts the cable 90 and guides the cable 90 along the connection end portion 82a of the substrate 82. According to this configuration, the cable 90 is guided along the connection end portion 82a of the substrate 82 by the guide portion 11, and the hanging of the cable 90 is suppressed, so that the substrate 82 can be easily inserted and removed.

[Other embodiments]
The present invention is not limited to the above embodiment. Hereinafter, other embodiments will be described.

A modified example of the cable guide set 1 will be described with reference to FIG. In this modification, the second connecting portion 15 of the cable guide 10 is provided with a retaining 15x. The retaining 15x prevents the second connecting portion 15 from coming out of the through hole 21x of the support member 20 when the fastening member 84 fixing the first connecting portion 14 of the cable guide 10 loosens and the cable guide 10 moves. do. In the case of this configuration, the through hole 21x of the support member 20 is configured to have a size that allows the retaining 15x to be inserted and removed.

In the support member 20 shown in the above embodiment, another example of the support portion 21a, which is a portion to which the second connection portion 15 of the cable guide 10 is connected, will be given.
In the embodiment, the support portion 21a is configured as the bottom surface 21c of the inner peripheral surface of the through hole 21b. For example, instead of this configuration, the support portion 21a may be configured as a slit provided in the support member 20.

-The cable guide 10 having a different form from the above embodiment will be illustrated.
In the cable guide 10 of the first example, both the first connecting portion 14 and the second connecting portion 15 are connected to the transmission device 80 via the support member 20.
In the cable guide 10 of the second example, the first connecting portion 14 is connected to the transmission device 80 via the support member 20, and the second connecting portion 15 is directly connected to the transmission device 80. This example has a structure in which the first connection portion 14 and the second connection portion 15 of the embodiment are interchanged.
In the cable guide 10 of the third example, both the first connection portion 14 and the second connection portion 15 are directly connected to the transmission device 80. That is, in this example, the support member 20 is omitted, and the second connecting portion 15 has the same structure as the first connecting portion 14.

That is, the examples shown in the embodiments and these examples are summarized as follows. The cable guide 10 is connected to the transmission device 80 via the support member 20 so that at least one of the first connection section 14 and the second connection section 15 is separated from the transmission device 80, and the first connection section 14 and the cable guide 10 are connected to the transmission device 80. The second connection unit 15 may both be directly connected to the transmission device 80.
In any of these cases, the guide portion 11 is arranged along the connection end portion 82a of the board 82 to which the cable guide 10 is attached. Therefore, the effect according to (1) shown in the embodiment is obtained.

The cable guide set 1 of the present invention can be suitably used for a transmission device to which the cable 90 is connected. The transmission device 80 of the present invention is suitably applied to a communication network. The method for removing the substrate 82 of the present invention is applied to the device to which the cable guide set 1 of the present invention is attached.

1 ... Cable guide set 10 ... Cable guide 11 ... Guide part 11a ... Bending part 11b ... Step part 12 ... Guide main body part 13 ... Arm part 13a ... Blocking part 14 ... First connection part 14a ... Slit 15 ... Second connection part 15a ... Tapered part 15x ... Retaining 20 ... Support member 21 ... Support body part 21a ... Support part 21b ... Through hole 21c ... Bottom surface 21x ... Through hole 22 ... Fastening part 22a ... Fastening hole 23 ... Grip part mounting part 23a ... Gripping Hole for part 23b ... Shaft hole 23c ... Slit 25 ... Grip part 25a ... Shaft part 25b ... Convex part 25c ... First claw 25d ... Second claw 25e ... Gap 80 ... Transmission device 80a ... First side surface 80b ... Second side surface 81 ... Housing 82 ... Board 82a ... Connection end 82s ... Board surface 83 ... Cable connector 84 ... Fastening member 90 ... Cable DX ... Housing horizontal DY ... Housing vertical DZ ... Housing height SX ... Space

Claims (3)

It ’s a transmission device,
A board with a connection end to which the cable is connected,
Including a cable guide arranged along the connection end and guiding the cable.
The cable guide
An elongated guide body extending in a predetermined first direction,
An arm portion provided on the guide main body portion so as to extend in a second direction intersecting the first direction and supporting the cable, and an arm portion
A connection portion provided on the guide main body portion and in which the cable guide is arranged so that the first direction is along the connection end portion includes a connection portion.
The connection part is
A first connection portion provided at one end of the guide main body portion and connected to the transmission device by a fastening member, and a first connection portion.
Including a second connection portion provided at the other end of the guide main body portion and connected to the transmission device.
The first connection portion is a transmission device having a slit through which the fastening member can be inserted . A cable guide for a transmission device that houses a board with a connection end to which a cable is connected.
An elongated guide body extending in a predetermined first direction,
An arm portion provided on the guide main body portion so as to extend in a second direction intersecting the first direction and supporting the cable, and an arm portion
A connection portion provided on the guide main body portion and in which the cable guide is arranged so that the first direction is along the connection end portion includes a connection portion.
The connection part is
A first connection portion provided at one end of the guide main body portion and connected to the transmission device by a fastening member, and a first connection portion.
Including a second connection portion provided at the other end of the guide main body portion and connected to the transmission device.
The first connection portion is a cable guide having a slit through which the fastening member can be inserted . From a transmission device in which a plurality of boards each having a connection end to which a cable is connected are arranged in a direction perpendicular to the main surface of the board, and a cable guide for guiding the cable is attached corresponding to the board. , How to remove any board,
The cable guide is provided in the elongated guide main body portion extending in a predetermined first direction and the guide main body portion extending in a second direction intersecting the first direction to support the cable. It includes an arm portion and a connecting portion provided on the guide main body portion and arranging the cable guide so that the first direction is along the connecting end portion.
The connection portion is provided at one end of the guide main body portion, and is provided at one end of the guide main body portion and is connected to the transmission device by providing a first connection portion connected to the transmission device by a fastening member. The first connection portion includes a second connection portion, and the first connection portion has a slit through which the fastening member can be inserted.
The removal method is
The cable connected to the board to be removed from the transmission device is attached to the cable adjacent to the board to be removed by using the space around the arm of the cable guide. The first step of pulling out and
After the first step, the second step of loosening the fastening member and removing the cable guide attached corresponding to the board to be removed, and the second step.
A method for removing a board, which comprises a third step of removing the board to be removed from the transmission device after the second step.

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