JP6263448B2 - Wiring cable straightener - Google Patents

Description

  The present invention relates to a wiring cable straightening tool for arranging a group of wiring cables led out from a server in a server rack, for example, in an orderly manner according to the system and function of each cable.

  This type of wiring cable straightening tool (wiring / piping material drawing device) is disclosed in Patent Document 1, for example. It is comprised with the holder which supports the wiring cable derived | led-out in the horizontal direction, and the support tool which is latched and attached to the holder and supports the wiring cable derived | led-out in the vertical direction. The support is a pair of front and rear deformed bars arranged in parallel, a U-shaped braid that is welded between these wires at regular intervals, and a braid arranged in parallel with the deformed bar It is formed in a bowl shape with a plurality of main reinforcement wires welded to the bottom frame portion of the wire. The support is formed by bending a hook-shaped fixing portion, a contact portion extending downward from the fixing portion, and a support portion having a U-shape in plan view extending from the lower end of the contact portion into a single stroke. Formed. The support tool can be attached to any position in the longitudinal direction of the support tool with the fixed part hooked to the deformed muscle wire and the contact part received by the parent muscle wire, and the fixed part is caulked. This is integrated with the receiver.

  A similar wire fitting (wiring holding device) can also be seen in Patent Document 2. In Patent Document 2, a server rack includes a pair of left and right side supports, a horizontal member connected to the back and top of the support, and a top plate, an upper shelf, an intermediate shelf and the like arranged between the side supports. It is equipped with a straightening tool on the horizontal member. The straightening tool is composed of a pair of left and right horizontal striates, a standing striate that stands up continuously at the protruding end of the horizontal striated body, a connecting striated body that connects the upper ends of the striated striates, and a base of the horizontal striatum. It is formed by bending a drooping line extending downward from the end and an ascending line extending upward from the lower end of the drooping line into a single stroke. The horizontal member is formed of a channel member having a C-shaped cross section, and the hanging linear body and the rising linear body are engaged in the mounting groove, and the base end portion of the horizontal linear body faces the opening in the mounting groove. By receiving it with the lower standing wall, the straightening tool can be mounted at an arbitrary position in the horizontal direction of the horizontal member. The wire straightening tool attached to the horizontal member has its horizontal striated body, the standing striated line and the connecting striated line continuous in the gate shape projecting backward from the horizontal member. The distribution form of the distribution cable is adjusted by supporting the derived distribution cable or by passing the distribution cable derived in the vertical direction through the inside of the protruding frame portion.

Japanese Patent No. 4939675 (paragraph numbers 0040 to 0046, FIG. 1) JP 2001-104072 (paragraph numbers 0011 to 0015, FIG. 3)

  The straightening tool of Patent Document 1 is used by being attached to the outer side surface of a bowl-shaped receiver, and the receiver is arranged under the ceiling of a building such as a factory or along a building wall. As described above, when the drawing device is provided separately from the receiver, and the bent portion of the wiring cable that is drawn down from the holder toward the lower electric panel is supported by the support portion of the drawing device, the hanging-out portion of the wiring cable is It is possible to protect the wiring cable by preventing sudden bending. However, this wire aligning device is only a wire aligning device for external wiring, which is placed under the ceiling of a building such as a factory or along the building wall. Especially, the width of the receiving device is large. Not suitable for use as a wiring arrangement for rack internal wiring. In addition, since the fixing part is caulked and fixed to the deformed wire rod of the receiving tool, it takes a lot of time to change the wiring form of the wiring cable by changing the fixing position of the drawer device as the server is added or replaced .

  According to Patent Document 2, since the mounting position of the wire-liner on the horizontal member can be freely changed in the left-right direction as necessary, the case where the wiring form of the wiring cable is changed with the addition or replacement of the server. Can save time and effort. If necessary, the support position of the wiring cable led out in the lateral direction can be changed by changing the connecting position of the horizontal member to the side support body up and down. However, in order to change the connecting position of the horizontal member up and down, it is necessary to remove the horizontal member from the side support, change the mounting position, and then connect to the side support again. Work becomes large and takes a lot of time and effort.

  For example, the server rack contains multiple servers and host machines or hubs that control the operating status of each server in multiple stages, and power and communication cables are connected to these devices. Has been. These wiring cables are aggregated according to the system and function of each cable, and led out from the server rack to a cable rack provided outside the server rack in a state of being bundled by a binding band. In many cases, cable bundles bundled with cable ties are fastened by using the support posts inside the server rack. However, because the number of support posts is small, all cable bundles cannot be arranged in an orderly manner. . For this reason, when adding or replacing servers, it is difficult to easily and quickly add a wiring cable or remove it from a cable bundle.

  The present invention eliminates the cluttered wiring form of the wiring cable as described above, and can arrange the cable bundle in an orderly manner according to the system, function, etc., and the wiring form of the cable bundle accompanying the expansion or replacement of internal devices It is an object of the present invention to provide a wiring cable straightening device that can easily change the cable.

The wiring cable straightening tool according to the present invention includes a wiring base 10 fixed to the inner wall of the casing 1 that houses a large number of internal devices 2 and 3, and the internal device 2 mounted on the wiring base 10. A cable holder 11 that guides and guides the cable bundle C of the distribution cable 4 connected to 3 is provided. The straightening base 10 is provided with a group of mounting portions 18 for attaching and detaching the cable holder 11. The cable holder 11 includes a holder body 20 that supports the cable bundle C, a flat attachment base 21 that is provided integrally with the holder body 20, and a plurality of latches that are provided on the attachment base 21 and are attached to and detached from the attachment portion 18. The body 22 and 23 and the entrance / exit 24 of the cable bundle C are provided. The cable holder 11 can be mounted at an arbitrary position of the straightening base 10 by engaging and mounting the latching bodies 22 and 23 to the mounting portion 18. The straightening base 10 includes a lattice body 16 having a large number of lattice members 15 arranged in an intersecting manner and a peripheral frame 17 that supports the lattice body 16. The peripheral frame 17 is attached to the inner wall of the housing 1. It is fixed with the tool 13. At both ends of the attachment base 21 of the cable holder 11, latching bodies 22 and 23 that are latched and attached to the lattice material 15 are formed. The lattice body 16 is configured by arranging a group of metal wire rods 15 vertically and horizontally. The adjacent distance in the vertical direction and the adjacent distance in the horizontal direction of the metal wire 15 are set to be the same. Mounting bases 21 are provided at two positions on the outer surface of the holder main body 20 of the cable holder 11 so as to be orthogonal to each other, and each of the mounting bases 21 is a latching body corresponding to the vertical and horizontal adjacent intervals of the metal wire 15. 22 and 23 are formed. A plurality of types of cable bundles C are guided and guided by a plurality of cable holders 11 attached to the wire-shaping base 10 in a state of being separately held according to the system and function of the wiring cable 4.

  At the entrance / exit 24 of the holder main body 20, restricting claws 25 and 26 that engage with each other to restrict the expansion deformation of the holder main body 20 are provided.

  The holder body 20 of the cable holder 11 is formed in a square frame shape, and the circumferential ribs 27 project from the inner and outer surfaces of the holder body 20 and the restricting claws 25 and 26. The mounting base 21 is integrated with the holder main body 20 via a circumferential rib 27 and a plurality of lateral ribs 28 intersecting with the rib 27.

  The engaging positions of the restricting claws 25 and 26 at the entrance / exit 24 of the holder main body 20 are provided above the center of the holder main body 20 in the vertical direction. The length H2 of the holder main body 20 that is continuous with the inner restricting claw 26 and the same claw 26 is set larger than the length H1 of the holder main body 20 that is continuous with the outer restricting claw 25 and the same claw 25, so The holder body 20 that is continuous with the claw 26 and the claw 26 is easily elastically deformed.

  The straightening base 10 is fixed to the inner wall of the server rack 1 that accommodates a large number of servers 2. The cable bundle C of the distribution cable 4 connected to the server 2 is guided in a vertical and horizontal direction by a large number of cable holders 11 attached to the wire-shaping base 10, and the connection end of each cable bundle C is moved out of the server rack 1. Take out.

  In the present invention, the wire-straightening tool is configured by the wire-shaping base 10 having a group of mounting portions 18 and the cable holder 11 that is mounted on the base 10 and guides and guides the cable bundle C. The cable holder 11 is composed of a holder main body 20 that supports the cable bundle C, a flat mounting base 21, and a plurality of hooks 22 and 23 that are attached to and detached from the mounting portion 18. The entrance / exit 24 of C was provided. According to such a straightening tool, the wiring form of the cable bundle C can be freely adjusted by changing the mounting position of the cable holder 11 with respect to the straightening base 10. Therefore, according to the wire aligning tool of the present invention, by passing the cable bundle C along the many cable holders 11 attached to the wire aligning base 10, a plurality of types according to the system and function of the wiring cable 4 are provided. Can be arranged neatly in a state where the cable bundle C is separately held. Further, since the cable bundle C is aggregated according to the system and function of the wiring cable 4, it is possible to prevent a wiring mistake when adding the wiring cable 4 with the addition or replacement of the internal devices 2 and 3. In particular, when the cable bundles C are grouped by color, the system and function of the wiring cable 4 can be identified by just looking at the color, and thus wiring mistakes can be prevented more reliably. In addition, since the weight of the cable bundle C is supported by the plurality of cable holders 11 and the cable bundle C is held in position by the cable holder 11, unnecessary wiring cables 4 can be removed from the cable bundle C. The removal work of the cable 4 can be accurately performed with less effort.

  When the restricting claws 25 and 26 are provided at the entrance / exit 24 of the holder main body 20, the holder main body 20 that supports the cable bundle C is expanded and deformed by the weight of the cable bundle C. Can be regulated. Therefore, the cable bundle C connected to the holder main body 20 can be securely held by the holder main body 20, and the wiring form of the cable bundle C can be always maintained in an orderly state. The cable bundle C does not protrude from the entrance / exit 24. Further, the cable bundle C can be accommodated in the holder main body 20 and can be easily connected by elastically deforming one of the restricting claws 25 and 26 to widen the entrance / exit 24.

  When the straightening base 10 is constituted by the grid body 16 having a large number of grid members 15 arranged in an intersecting manner and the peripheral frame 17 that supports the grid body 16, the latching bodies 22 provided at both ends of the mounting base 21. The cable holder 11 can be easily attached to the grid body 16 simply by hooking the 23 on the grid material 15 adjacent vertically or horizontally. Moreover, since the cable holder 11 can be easily detached from the lattice body 16 by removing the latching bodies 22 and 23 from the lattice material 15, the cable holder 11 can be easily attached to and detached from the line-fixing base 10. At the time of use, the peripheral frame 17 is fixed by the mounting tool 13, and the wire-shaping base 10 is attached to the inner wall of the housing 1, so that the mounting tool 13 is attached when the cable holder 11 is mounted at an arbitrary position of the wire-shaping base 10. Does not get in the way.

  When a group of metal wires 15 are arranged vertically and horizontally to form a lattice body 16 and the adjacent distance in the vertical direction and the adjacent distance in the horizontal direction of the metal wire 15 are set to be the same, the mounting portion 18 is formed in a square shape. The mounting posture of the cable holder 11 with respect to the mounting portion 18 can be changed to either vertical or horizontal. Further, if the mounting bases 21 are provided at two locations on the outer surface of the holder main body 20 and the latching bodies 22 and 23 are provided on each of the mounting bases 21, the mounting posture of the cable holder 11 with respect to the mounting portion 18 can be changed in various ways. Thus, the direction of the entrance / exit 24 can be changed to the front, upper, lower, left, right, or the like of the holder body 20. Therefore, according to the wiring configuration of the cord bundle C and the user's preference, the mounting orientation and mounting position of the cable holder 11 are changed, and the cable bundle C is led out in the vertical direction and the horizontal direction to guide the wiring configuration of the cord bundle C. Can be optimized. Compared to the case where a cable holder for vertical derivation and a cable holder for horizontal derivation are provided separately, there is an advantage that the wire-straightening structure can be simplified and the cost can be reduced.

  When circumferential ribs 27 project from the inner and outer surfaces of the holder main body 20 and the regulating claws 25 and 26 and the mounting base 21 is integrated with the holder main body 20 via the circumferential ribs 27 and the plurality of lateral ribs 28, the circumferential ribs 27 and The lateral ribs 28 can increase the structural strength of the holder body 20 and the mounting base 21. Therefore, the load resistance of the holder body 20 when supporting the cable bundle C can be improved, and more cable bundles C can be passed through the cable holder 11.

  When the length H2 of the inner restriction claw 26 and the holder body 20 is set larger than the length H1 of the outer restriction claw 25 and the holder body 20, the moment arm of the inner restriction claw 26 and the holder body 20 is increased, The restricting claw 26 can be elastically deformed with a smaller force. Therefore, the cable bundle C can be routed quickly and easily at the entrance / exit 24 of the holder body 20. Further, since the length H2 on the restriction claw 26 side is larger than the length H1 on the restriction claw 25 side, the cable bundle C is received by the restriction claw 26 even when the engagement between the restriction claws 25 and 26 is released. Thus, the cable bundle C can be well prevented from sticking out or dropping out from the entrance / exit 24.

  When the straightening base 10 is fixed to the inner wall of the server rack 1 and the cable bundle C led out from the server 2 is led out vertically and horizontally by the cable holder 11 attached to the straightening base 10 and taken out of the server rack 1. In the server rack 1, the cable bundle C can be eliminated from being messed up and disturbed. In addition, since the distribution cables 4 in the server rack 1 can be arranged in an orderly manner, it is possible to check the connection state between the server 2 and the distribution cables 4 and to perform maintenance management such as cable deterioration due to heat generation.

It is the AA arrow directional view in FIG. 2 which shows the wire arrangement tool which concerns on this invention. It is an internal side view of the server rack which shows the example of application of the wire arrangement tool which concerns on this invention. It is a disassembled perspective view of the wire arrangement tool which concerns on this invention. It is the BB sectional view taken on the line in FIG. It is the external appearance 6 side view and sectional drawing of the cable holder which concerns on this invention. It is the perspective view which shows another Example of the mounting tool which comprises a wire-shaping tool, and a vertical side view.

(Example 1) FIG. 1 thru | or 5 shows the Example of the wire straightening tool for wiring cables which concerns on this invention. In the present invention, front / rear, left / right, and upper / lower follow the cross arrows shown in FIGS. 1 to 3 and the front / rear, left / right, and upper / lower indications shown near each arrow. FIG. 2 is an internal side view showing a schematic structure of a server rack (housing) 1 which is an application example of the wire straightening tool. The server rack 1 is configured as a hollow square box that is long in the vertical direction. A group of servers (internal devices) 2 and host machines (internal devices) 3 are accommodated in a multi-stage manner in a frame installed in the rack. is there.

  In order to arrange a group of wiring cables 4 derived from the server 2 and the host machine 3 such as power cables and communication cables in order according to the system and function of each cable, the upper and lower surfaces of the front and rear walls of the server rack 1 4 are arranged in a straight line. Maintenance doors (not shown) are provided on the left and right sides of the server rack 1 so as to be openable and closable, and the server 2 and the host machine 3 can be inspected and replaced by opening the doors. The wiring cable 4 is colored in different colors such as red, blue, yellow, green, and gray according to its system and function, and is bundled as a cable bundle C by being bundled with a binding band 5 for each different color. (See FIG. 1). The server rack 1 is arranged in a straight line with the front and rear walls thereof adjacent to each other to form a rack line, and the maintenance door faces the passage between the adjacent rack lines.

  In FIG. 1, the wire arrangement tool constituting the wire arrangement structure is fixed to the inner surfaces of the front and rear walls of the server rack 1 and is attached to the wire arrangement base 10 to derive the cable bundle C of the wiring cable 4. A plurality of cable holders 11 to be guided and a mounting tool 13 for fixing the wire base 10 to the horizontal frame 12 are used. The horizontal frame 12 is made of an aluminum channel material having a C-shaped cross section, and is fixed in a state where the opening surface is joined to the front and rear walls of the server rack 1.

  The straightening base 10 is composed of a lattice body 16 composed of a large number of metal wire materials (lattice materials) 15 that are arranged to cross each other, and a peripheral frame 17 that supports the lattice body 16. Specifically, a group of linear metal wires 15 are arranged to cross each other at regular intervals in the vertical and horizontal directions, and the intersecting portions of the metal wires 15 are welded to constitute the lattice body 16. The intersection of the grid 16 and the peripheral frame 17 is also welded. The adjacent interval in the vertical direction and the adjacent interval in the horizontal direction of the metal wire 15 are set to be the same, and accordingly, the square-shaped mounting portions 18 are formed in the lattice body 16 in a state of being continuous vertically and horizontally. The peripheral frame 17 is a round bar having a diameter larger than that of the metal wire 15 and is formed in a rectangular frame shape that is long in the vertical direction, and is formed into an endless frame shape by welding the ends of the bars. Since the straightening base 10 is composed of the lattice body 16 constituted by a group of metal wires 15 and the peripheral frame 17 that supports the lattice body 16, the structure is not wasted. By preparing a plurality of types of the wire bases 10 having different vertical and horizontal dimensions, the wire bases 10 suitable for the number of cable bundles C to be wired and the wiring form can be used.

  In FIG. 3, the cable holder 11 includes a holder main body 20 that supports the cable bundle C, a flat mounting base 21 that is provided integrally with the holder main body 20, and first and second latches that are provided at both ends of the mounting base 21. It consists of a plastic molded article provided with claws (holding bodies) 22 and 23 and an entrance / exit 24 of the cable bundle C formed at the front end of the holder body 20. In this embodiment, the holder body 20 is formed in a square frame shape, and mounting bases 21 are provided in the rear frame portion and the upper frame portion of the holder body 20 so as to be orthogonal to each other. 1. First and second latching claws 22 and 23 are provided. Further, the control claws 25 and 26 having the same width as the holder body 20 are provided at the entrance and exit 24 of the holder body 20 so as to overlap the inside and outside, and the both claws 25 and 26 are engaged with each other, whereby the holder body 20 is connected to the cable bundle. It was made possible to regulate the expansion and deformation by the weight of C. Reinforcing ribs (circular ribs) 27 project from the inner and outer surfaces of the holder body 20 and the restricting claws 25 and 26, and the reinforcing ribs 27 and three horizontal ribs 28 orthogonal to the ribs 27 are provided. Thus, both mounting bases 21 are integrated with the holder body 20. As described above, when both the mounting bases 21 are integrated with the holder main body 20 via the reinforcing ribs 27 and the lateral ribs 28, the structural strength of the holder main body 20 and the mounting base 21 is enhanced, and the load resistance of the holder main body 20 is improved. can do.

  As shown in FIG. 4, in the mounting base 21 on the rear frame side, the first and second latching claws 22 and 23 are each formed in an inverted U shape. The upper first latching claw 22 of the both latching claws 22, 23 is provided with an oblique guide surface 30 and an engaging projection 31 on the inner surface side of the downward claw tip, whereas the second latching claw 23 is provided. Is provided with an oblique guide surface 32 at the lower end of the toe on the mounting base 21 side, and an engaging projection 33 on the inner surface side of the remaining toe. The vertical pitch of the claw grooves of the first and second latching claws 22 and 23 is made to correspond to the vertical and horizontal adjacent intervals of the metal wire 15. The guide surfaces 30 and 32 are provided to facilitate the latching and mounting of the both hooking claws 22 and 23 to the mounting portion 18, and the engaging projections 31 and 33 are both latched on the mounting portion 18. It is provided to restrict the claws 22 and 23 from separating from the mounting portion 18.

  In the mounting base 21 on the upper frame side, as in the mounting base 21 on the rear frame side, the first and second latching claws 22 and 23 are each formed in a U-shape, but the front end of the mounting base 21 A first latching claw 22 is provided on the base 21 and a second latching claw 23 is provided on the rear end of the base 21. The front first latching claw 22 is provided with an oblique guide surface 30 and an engaging projection 31 on the inner surface side of the rearward toe, whereas the second latching claw 23 is provided on the mounting base 21 side. An oblique guide surface 32 is provided at the rear end, and an engagement protrusion 33 is provided on the inner surface side of the remaining toe. The front and rear pitches of the claw grooves of the first and second hooking claws 22 and 23 on the mounting base 21 on the upper frame side are made to correspond to the vertical and horizontal adjacent intervals of the metal wire 15. The guide surfaces 30 and 32 are provided to facilitate the latching and mounting of the both hooking claws 22 and 23 to the mounting portion 18, and the engaging projections 31 and 33 are both latched on the mounting portion 18. It is provided to restrict the claws 22 and 23 from separating from the mounting portion 18.

  Engaging claws 34 and 35 that are engaged with each other protrude from the inner and outer overlapping portions of the regulating claws 25 and 26 toward the other side. Further, the engaging positions of the restricting claws 25 and 26 at the entrance / exit 24 of the holder body 20 are provided above the center of the holder body 20 in the vertical direction. Accordingly, the length H2 of the front frame portion of the holder main body 20 that is continuous with the inner restriction claw 26 and the same claw 26 is the length of the front frame portion of the holder main body 20 that is continuous with the outer restriction claw 25 and the same claw 25. Is set to be larger than the height H1 (see FIG. 4). As described above, when the length H2 of the front frame portion of the inner restriction claw 26 is set larger than the length H1 of the front frame portion of the outer restriction claw 25, the inner restriction claw 26 and the holder continuous to the same claw 26 are provided. The main body 20 can be easily elastically deformed, and the cable bundle C can be easily connected to the holder main body 20. Further, the fact that the inner restricting claw 26 is inclined slightly rearward also helps to facilitate the backward elastic deformation of the restricting claw 26.

  In FIG. 3, the mounting tool 13 includes a press fitting that integrally includes a mounting frame 38 having a C-shaped cross section into which the peripheral frame 17 is fitted, and a fastening seat 39 that is continuous above and below the mounting frame 38. As shown in FIG. 1, screws 40 inserted through the fastening seats 39 are fitted into the horizontal frame with the left and right portions of the upper side of the peripheral frame 17 fitted into the mounting frame 38 and the upper and lower fastening seats 39 applied to the horizontal frame 12. The straightening base 10 can be temporarily fixed to the horizontal frame 12 by being screwed into 12. Similarly, the right and left two portions of the lower side of the peripheral frame 17 are fitted into the mounting frame 38, and the screws 40 inserted through the fastening seats 39 are screwed into the horizontal frame 12 with the upper and lower fastening seats 39 applied to the horizontal frame 12. By doing this, the straightening base 10 can be fixed to the horizontal frame 12.

  The wire straightening tool configured as described above is used in the following manner. First, a group of wiring cables 4 derived from the server 2 or the host machine 3 is bundled with a binding band 5 according to the system or function of each cable to form a cable bundle C. Next, the cable holder 11 is hooked and mounted on the mounting portion 18 of the lattice body 16 along the wiring form of the cable bundle C. At this time, when the cable bundle C is led out in the lateral direction, as shown in FIG. 3, the first latching claw 22 and the second latching claw 23 provided on the mounting base 21 on the rear frame side of the holder body 20. Is attached to the mounting portion 18 adjacent to the top and bottom. Further, when the cable bundle C is led out in the vertical direction, as shown in FIG. 1, the first latching claw 22 and the second latching claw 23 provided on the mounting base 21 on the rear frame side of the holder body 20 are provided. Then, it is attached to the mounting portion 18 adjacent to the left and right.

  In the example shown in FIG. 1, two cable holders 11 for leading out the cable bundle C in the horizontal direction are mounted on the top and bottom of the straightening base 10, and one cable for leading out the cable bundle C in the vertical direction. The holder 11 was attached to the middle part of the straightening base 10 in the vertical direction. Finally, in a state where the cable bundle C is applied to the inner restricting claw 26, the cable bundle C is moved toward the inside of the holder main body 20 to elastically deform the restricting claw 26 backward, and the cable bundle C is moved to the holder main body 20. You can pass through the inside. Furthermore, by passing the cable bundle C through all the holder bodies 20, the cable bundles C can be arranged in a crank shape in an orderly manner. The cable bundle C derived from the straight line structure is led out from a wiring port that is gathered together and opened in the peripheral wall of the server rack 1 and is arranged between the server rack 1 and the ceiling wall (see FIG. (Not shown) and connected via cables and connectors in the rack.

  When the server 2 is added or replaced, the wiring cable 4 is added or unnecessary wiring cables 4 are removed from the cable bundle C. For example, when the server 2 is added, after the new server 2 is mounted on the frame, a connector provided on the wiring cable 4 such as a power cable or a communication cable is connected to the server. Next, the binding band 5 of the cable bundle C bundled for each system is opened, the wiring cable 4 led out from the server 2 is aligned with the cable bundle C of the same system, and is bound by the binding band 5 again. Further, the wiring cable 4 is passed through the cable holder 11 while the inner restricting claw 26 is elastically deformed. Thereafter, the new wiring cable 4 can be integrated into the existing cable bundle C by performing the work of opening and rebinding the binding band 5 and passing the wiring cable 4 through the cable holder 11. Alternatively, all the binding bands 5 may be opened in advance, and after the wiring cable 4 is passed through the cable holder 11, the binding bands 5 may be rebound. When removing the unnecessary wiring cable 4 from the cable bundle C, the wiring cable 4 is removed from the cable holder 11 with all the binding bands 5 open. At this time, the weight of the cable bundle C is supported by the plurality of cable holders 11 and the position of the cable bundle C is held by the cable holder 11, so that the wiring cable 4 can be easily detached.

  The cable holder 11 can be attached to the straightening base 10 using an attachment base 21 located on the upper frame side in FIG. For example, when the cable bundle C is led out in the lateral direction, the first hooking claws 22 and the second hooking claws 23 provided on the mounting base 21 on the upper frame side of the holder main body 20 are vertically connected to metal wires. 15 is attached to a mounting portion 18 consisting of 15 pieces. Since the entrance / exit 24 of the cable holder 11 in this case is located above the holder main body 20, the cable bundle C can be passed through the holder main body 20 by pressing the cable bundle C against the restricting claw 26. When the cable bundle C is led out in the vertical direction, the first hooking claws 22 and the second hooking claws 23 provided on the mounting base 21 on the upper frame side of the holder body 20 are connected to the left and right metal wires. 15 is attached to a mounting portion 18 consisting of 15 pieces. In this case, since the entrance / exit 24 of the cable holder 11 is located on the right or left side surface of the holder main body 20, the cable bundle C is pushed into the holder main body 20 by being pushed into the holder main body 20 by applying the cable bundle C to the restriction claw 26. C can be passed through the holder body 20. As described above, the cable holder 11 can be attached to the attachment portion 18 by either the attachment base 21 on the rear frame side of the holder body 20 or the attachment base 21 on the upper frame side of the holder body 20. The mounting posture of the cable holder 11 can be variously changed according to the form and the user's preference.

  FIG. 6 shows another embodiment of the wearing tool 13. In this case, the mounting tool 13 is composed of a plastic locking body 44 that supports the peripheral frame 17 of the wire-shaping base 10 and a magnet unit 45 that magnetically attracts the steel rack peripheral wall of the server rack 1. The locking body 44 is integrally provided with a horizontally long rectangular locking base 46 and a latching arm 47 protruding from the left and right of the front surface of the locking base 46, and supports the peripheral frame 17 on the latching arm 47. A locking groove 48 is recessed. The magnet unit 45 is composed of a square block-shaped permanent magnet 49, a pair of upper and lower iron-plate attracting plates 50 attracted to the magnetic poles thereof, a case 51 for accommodating them, and the like. The magnet unit 45 is integrated with the locking body 44 by being bonded and fixed to 46. When the wire-shaping base 10 is attached to the peripheral wall of the server rack 1, the magnet unit 45 of the pair of left and right mounting tools 13 is attracted to the peripheral wall, and the upper frame of the peripheral frame 17 is attached to the locking groove 48 of the latching arm 47. Lock to. Further, the magnet unit 45 of the pair of left and right mounting tools 13 is attracted to the surrounding wall, and the lower frame of the surrounding frame 17 is locked in the locking groove 48 of the latching arm 47.

  In the above embodiment, the mounting base 21 is provided at two positions on the rear side and the upper side of the holder main body 20, but it is not necessary, and the mounting base 21, the first hooking pawl 22 and the second hooking pawl 23 are It is sufficient if it is provided on either the rear frame side or the upper frame side of the holder body 20. Further, in the above embodiment, the metal wire 15 is arranged so as to intersect vertically and horizontally, but the lattice body 16 is configured, but this is not necessary. For example, the lattice body 16 can be formed of a plastic molded product. In this case, the peripheral frame 17 can be formed integrally with the lattice body 16. The lattice body 16 is integrally formed with a large number of lattice members 15 arranged to cross each other. If necessary, the grid body 16 may be composed of the metal wire 15 and the grid material 15 that are diagonally crossed.

  The straightening base 10 does not need to be constituted by the grid material 15 or the grid body 16 of the metal wire material 15, and a group of mounting holes (mounting portions) 18 formed vertically and horizontally, such as plastic, metal, and wood. It can be composed of a perforated plate. In that case, the mounting base 21 of the cable holder 11 is provided with hooking claws (holding bodies) 22 and 23 that are inserted into and engaged with the mounting holes 18, and the cable holder 11 may be attached to and detached from the straightening base 10. . The pair of restricting claws 25 and 26 restricts the holder body 20 from expanding and deforming due to the weight of the cable bundle C when the engaging claws 34 and 35 are engaged with each other, but this is not necessary. For example, even if the connecting protrusion and the connecting hole are provided in the overlapping portion of the pair of restricting claws 25 and 26 and the connecting protrusion and the connecting hole are engaged and connected, the expansion deformation of the holder body 20 is restricted. Good. Alternatively, an insertion frame may be provided on one of the pair of restriction claws 25 and 26, and an elastic arm may be provided on the other, and the elastic arms may be inserted into and engaged with the inner surface of the insertion frame to connect the restriction claws 25 and 26 together. . The entrance / exit 24 does not need to be provided in the middle of the upper and lower parts of the front frame portion of the holder body 20, and can be provided near the upper portion or the lower portion of the front frame portion.

  The holder main body 20 does not need to be formed in a square frame shape, but can be formed in a D shape, a C shape, a trapezoidal shape including two adjacent side portions orthogonal to each other, or the like. The straightening structure of the wiring cable according to the present invention can be used for adjusting the wiring form of the optical cable. Furthermore, the present invention can be applied to a control panel of a metal processing machine, a control panel of an industrial robot, etc., and can be used to arrange a wiring form of a wiring cable derived from the control panel.

1 chassis (server rack)
2 Internal equipment (server)
3 Internal equipment (host machine)
4 Wiring cable 10 Straightening base 11 Cable holder 15 Grid material (metal wire)
16 Grid 17 Peripheral frame 18 Mounting part 20 Holder body 21 Mounting base 22 Hook (first hook)
23 Hook (second hook)
24 Entrance 25/26 Restriction claw C Cable bundle

Claims (5)

A wire base (10) fixed to the inner wall of the housing (1) that houses a large number of internal devices (2, 3), and the internal device (2, 3) mounted on the wire base (10). A cable holder (11) for guiding and guiding the cable bundle (C) of the distribution cable (4) connected to the cable,
The straightening base (10) is provided with a group of mounting portions (18) for attaching and detaching the cable holder (11).
The cable holder (11) is provided on the holder main body (20) for supporting the cable bundle (C), the flat mounting base (21) provided integrally with the holder main body (20), and the mounting base (21). A plurality of hooks (22, 23) to be attached to and detached from the mounting portion (18), and an entrance (24) of the cable bundle (C),
By engaging and attaching the latching bodies (22, 23) to the attachment portion (18), the cable holder (11) can be attached to an arbitrary position of the straightening base (10).
The straight line base (10) is composed of a grid body (16) having a large number of grid materials (15) crossed and a peripheral frame (17) supporting the grid body (16). The frame (17) is fixed to the inner wall of the housing (1) with a mounting tool (13),
At both ends of the mounting base (21) of the cable holder (11), hooking bodies (22, 23) to be hooked onto the mounting portion (18) are formed, respectively.
The grid body (16) is configured by vertically and horizontally intersecting a group of metal wire rods (15), and the metal wire (15) has an adjacent interval in the vertical direction and an adjacent interval in the horizontal direction,
Mounting bases (21) are provided at two positions on the outer surface of the holder body (20) of the cable holder (11) so as to be orthogonal to each other, and the metal wire (15) is placed on each of the mounting bases (21). Hooks (22, 23) corresponding to vertical and horizontal adjacent intervals are formed,
Guide and guide a plurality of types of cable bundles (C) with a plurality of cable holders (11) mounted on the wire-shaping base (10) in a state of being separately held according to the system and function of the wiring cable (4). Wiring cable trimming device featuring   2. The wiring cable according to claim 1, wherein a regulation claw (25, 26) that engages with each other to regulate expansion and deformation of the holder body (20) is provided at an entrance / exit (24) of the holder body (20). Wire rod. The holder main body (20) of the cable holder (11) is formed in a square frame shape, and circumferential ribs (27) project from the inner and outer surfaces of the holder main body (20) and the regulation claws (25, 26).
Preparative with base (21), and the orbiting rib (27) of claim 2 that is integral with the holder body (20) via a plurality of transverse ribs (28) intersecting the same rib (27) Wiring cable straightener. The engagement position of the restricting claw (25, 26) at the entrance (24) of the holder body (20) is provided above the center of the holder body (20),
The length (H2) of the holder body (20) continuous to the inner restriction claw (26) and the same nail (26) is set to the holder body (20) continuous to the outer restriction claw (25) and the same nail (25). 4. The wiring according to claim 2, wherein the holder body (20) is set to be longer than the length (H 1) to facilitate elastic deformation of the inner restricting claw (26) and the holder body (20) continuous with the claw (26). Cable straightener. The housing (1) is a server rack that accommodates a large number of servers (2), and a straight line base (10) is fixed to the inner wall of the server rack (1).
The cable bundle (C) of the distribution cable (4) connected to the server (2) is led out and guided vertically and horizontally by a number of cable holders (11) mounted on the straightening base (10), and each cable bundle ( The wiring cable straightening device according to any one of claims 1 to 4, wherein the connection end of C) is taken out of the server rack (1) .

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