JP2017032017A - Cable holding structure - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a cable holding structure capable of preventing contact of a cable with an undesired contact member without increasing costs and enlarging a device as a whole.SOLUTION: A cable holding structure includes a cable clamp 10 having a clamp portion 20 holding a cable 6 at a holding position by clamping, a lock claw portion 30 locked to a mounting portion 9 by rotatably inserted thereto, and a plurality of elastic fixing portions 40 for elastically energizing the lock claw portion 30 in a locking direction when the lock claw portion 30 is locked in the mounting portion 9, and a restriction rib 50 disposed on the mounting portion 9, having a low portion 51 disposed in adjacent to the holding position 25, and height portions 52 disposed in adjacent to the elastic fixing portions 40 and higher than the low portion 51, and kept into contact with the cable clamp 10 to restrict the rotation of the cable clamp 10.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a cable holding structure, and more particularly, to a cable holding structure that fixes a cable to an attached member using a clamp.

  Conventionally, a large number of cables are used in image forming apparatuses such as copying machines, printers, facsimiles, and multi-function machines having a plurality of these functions. These cables are partly connected to the main body of the image forming apparatus. Is fixed. For example, a cable clamp is used when holding the cable with respect to the apparatus main body. As this type of cable clamp, a clamp that holds and holds a cable, and a latch that is integrated with the clamp and is locked by being rotatably inserted into a mounted member such as a panel or a substrate. What has a nail | claw has prevailed (patent document 1).

JP 2004-242478 A

  However, in the cable clamp of Patent Document 1 described above, the locking claw is rotatably inserted into the attached member, so that the cable clamp holding the cable may be rotated by the waist of the cable. On the other hand, in the vicinity of the cable installation portion, members (hereinafter referred to as non-contactable members) where the cable contact is not preferable, such as a movable portion, a sheet metal edge, and a heat generating portion, may be arranged. And when the cable clamp is rotated by the waist of the cable, there is a possibility that the held cable may come into contact with the non-contactable member.

  In order to solve this, it is conceivable to provide a protective member such as a tube on the cable disposed in the vicinity of the non-contactable member, but in this case, the cost increases. In addition, although it is conceivable to wire the cable away from the non-contactable member, in that case, the apparatus is increased in size.

  An object of this invention is to provide the cable holding structure which can prevent the contact to the member with an unpreferable contact of a cable, without causing cost increase and the enlargement of the whole apparatus.

  The cable holding structure of the present invention includes a clamp portion that holds a cable in a holding position by clamping, and a locking claw that is integrated with the clamp portion and locked by being rotatably inserted into a member to be attached. And a plurality of elastic fixings that are integrated with the locking claw portion and elastically bias the locking claw portion in the locking direction when the locking claw portion is locked to the attached member. A cable clamp having a portion, a low portion provided in the attached member and disposed adjacent to the holding position, a high portion disposed adjacent to the elastic fixing portion, and higher than the low portion, And a restricting means for restricting the rotation of the cable clamp in contact with the cable clamp.

  According to the present invention, since the restricting means abuts on the cable clamp and restricts the rotation of the cable clamp, the contact of the cable to the undesired member is prevented without increasing the cost or enlarging the entire apparatus. it can. Moreover, since the low part adjacent to the holding position of the cable is formed lower than the high part, the cable does not come into contact with the restricting means, and erroneous assembly of the cable clamp can be prevented.

It is the schematic which shows the operation panel which concerns on this Embodiment, (a) is a top view, (b) is a front view, (c) is a left view. It is the schematic which shows the cable holding structure which concerns on this Embodiment, (a) is a top view, (b) is a front view, (c) is a right view. It is a schematic front view which shows the dimension of each part of the cable holding structure which concerns on this Embodiment, (a) is a cable clamp, (b) is a control rib. In the cable holding structure which concerns on this Embodiment, it is the schematic which shows the case where a cable clamp is shifted and latched about 45 degree | times, (a) is a top view, (b) is a front view. In the cable holding structure which concerns on this Embodiment, it is the schematic which shows the case where a cable clamp is shifted and latched about 90 degree | times, (a) is a top view, (b) is a front view. It is a top view which shows the state which hold | maintained the cable of the operation panel with the cable holding structure which concerns on this Embodiment.

  Hereinafter, embodiments of the present invention will be described in detail with reference to FIGS. In the present embodiment, the case where the cable holding structure of the present invention is applied to an operation panel of a multifunction machine is described. However, the application object of the cable holding structure is not limited to the operation panel of the multifunction machine, and can be applied to all configurations in which the cable is held and fixed to the attached member.

  As shown in FIG. 1, the operation panel 1 of the present embodiment is provided in a multifunction machine (not shown) of an electrophotographic system having a plurality of functions of a copying machine, a printer, and a facsimile, for example. The operation panel 1 includes a display unit 2, an input unit 3, an input board 4, a control board 5, a cable 6, and left and right hinge parts 7 and 8. The input unit 3 is a numeric keypad, and an input signal input from the input unit 3 is detected by the input board 4. The input board 4 and the control board 5 are connected by a cable 6, and an input signal obtained by the input board 4 is input to the control board 5 through the cable 6. The control board 5 transmits the obtained input signal to the control unit of the main body of the multifunction machine.

  The right hinge portion 7 includes a hinge (hereinafter referred to as an operation panel hinge) 70 fixed to the operation panel 1, a hinge (hereinafter referred to as a main body hinge) 71 fixed to an apparatus main body (not shown), and a hinge support. And a shaft 72. Similarly, the left hinge unit 8 includes an operation panel hinge 80, a main body hinge 81, and a hinge support shaft 82. The left and right hinge portions 7 and 8 allow the operation panel 1 to tilt with respect to the apparatus main body. That is, when the user operates the operation panel 1 in the T direction, the operation panel hinges 70 and 80 are inclined via the operation panel 1.

  Next, the cable holding structure 100 for fixing the cable 6 in the operation panel 1 will be described in detail. As shown in FIG. 2, the cable holding structure 100 includes a cable clamp 10 and a regulation rib (regulation means) 50 provided on a plate-like attachment portion (attached member) 9 of the operation panel 1. . 2 to 6, the direction in which the cable clamp 10 is inserted into the attachment portion 9 is the downward direction, and the opposite direction is the upward direction.

  The cable clamp 10 includes a clamp part 20, a locking claw part 30, and an elastic fixing part 40. The clamp unit 20 includes a hinge 21, a cover 22, a hook 23, and a lock claw 24. The cover 22 swings around the hinge 21 to hold the cable 6, and then the hook 23 provided on the cover 22 is hooked with the lock claw 24 to restrain the cable 6. In addition, a position where the cable 6 is held by clamping in the clamp unit 20 is a holding position 25. That is, the clamp unit 20 holds the cable 6 at the holding position 25 by clamping. The bottom surface of the holding position 25 is a clamp bottom surface 25a.

  The locking claw portion 30 is integrated with the clamp portion 20 and is locked by being rotatably inserted into a through hole 9 a formed in the attachment portion 9. That is, by inserting the locking claw portion 30 into the through hole 9a of the attachment portion 9, the locking claw portion 30 is elastically bent inward, and when further inserted, the locking claw portion 30 expands. It catches on the edge on the back side of the through hole 9a. As a result, the locking claw portion 30 is prevented from coming off from the through hole 9a, and the cable clamp 10 is restricted so as not to come out upward.

  The elastic fixing part 40 is integrated with the integrated part of the clamp part 20 and the locking claw part 30 and protrudes substantially horizontally on both sides in the longitudinal direction of the clamp part 20, and its tip part 41 protrudes downward. Is formed. In the present embodiment, a pair of elastic fixing portions 40 are provided so as to elastically urge the locking claw portions 30 in the locking direction when the locking claw portions 30 are locked to the mounting portion 9. Yes. However, the elastic fixing | fixed part 40 is not restricted to a pair, What is necessary is just two or more. That is, when the elastic fixing portion 40 elastically stretches between the attachment portion 9, the downward rattling of the cable clamp portion 20 is elastically fixed.

  The elastic fixing portion 40 is elastically deformed from the root portion 42 by an external force acting upward (see FIG. 3A). In this case, the elastic fixing portion 40 is elastically deformed and lifted, but when the elastic fixing portion 40 abuts against the clamp portion 20, further deformation is restricted. That is, since the tip 41 of the elastic fixing part 40 exceeds the height of the base part 42 (H2 in FIG. 3A), the elastic fixing part 40 comes into contact with the clamp part 20, and beyond that, The relationship is difficult to rise.

  The restriction rib 50 is provided in the attachment portion 9 along the cable clamp 10, has a low portion 51 and a high portion 52, and abuts on the cable clamp 10 to restrict the rotation of the cable clamp 10. The low part 51 is disposed adjacent to the holding position 25. The high portion 52 is disposed adjacent to each elastic fixing portion 40 and is formed higher than the low portion 51. Further, the regulation rib 50 has a high portion 52 on both sides of the low portion 51 as a center.

  The restriction rib 50 is attached to the attachment portion 9 by, for example, screwing or adhesion. In the present embodiment, the distance between the side surfaces of the cable clamp 10 and the regulation rib 50 is set to 0.3 mm as the minimum distance at which the cable clamp 10 and the regulation rib 50 do not interfere in view of component tolerances and the like. Thereby, even if the cable clamp 10 rotates with respect to the attachment part 9, since the front-end | tip part 41 of the elastic fixing | fixed part 40 contact | abuts to the side surface of the high part 52 of the control rib 50, rotation is controlled within a predetermined angle. The

  Here, as shown in FIG. 3A, in the cable clamp 10, the dimensions of each part are set as follows in a state where the locking claw part 30 is in contact with the back surface of the attachment part 9. The height between the lower surface 40a of the elastic fixing portion 40 and the upper surface 9b of the attachment portion 9 is H1. The height between the base portion 42 of the elastic fixing portion 40 and the upper surface 9b of the attachment portion 9 is H2. Furthermore, the height between the clamp bottom surface 25a and the upper surface 9b of the attachment portion 9 is set to H3. Moreover, as shown in FIG.3 (b), in the regulation rib 50, the dimension of each part is set as follows. Let the height of the low part 51 be R1. The height of each high portion 52 is R2.

  Moreover, the relationship of the dimension of each part of the cable clamp 10 of this Embodiment and the control rib 50 is set as follows. In the restriction rib 50, the height R1 of the low portion 51 is set to be lower than the height R2 of each high portion 52 and satisfy the relationship R1 <R2. The height R1 of the low portion 51 is set to be lower than the height H3 of the clamp bottom surface 25a at the holding position 25 and satisfy the relationship R1 <H3. The height R1 of the lower portion 51 is set to be higher than the height H1 of the lower surface 40a of the elastic fixing portion 40 when the locking claw portion 30 is locked to the attachment portion 9, and satisfy the relationship of H1 <R1. ing. The height R2 of the high portion 52 is set to be higher than the height H2 of the root portion 42 of the elastic fixing portion 40 and satisfy the relationship H2 <R2.

  Next, the operation when the cable 6 is held by the cable holding structure 100 described above will be described in detail.

  As shown in FIG. 2B, when the cable 6 is held on the cable clamp 10 and installed on the attachment portion 9, one end portion of the elastic fixing portion 40 of the cable clamp 10 even if the cable clamp 10 rotates. 41 abuts the high portion 52 of the adjacent regulating rib 50. Here, since the height R2 of the high portion 52 is higher than the height H2 of the root portion 42 of the elastic fixing portion 40, the high portion 52 is higher than the tip portion 41, and even if the tip portion 41 contacts the high portion 52. It is difficult to get over. For this reason, the rotation of the cable clamp 10 can be restricted within a predetermined angle by the restriction rib 50, and the swing of the cable 6 is restricted within a predetermined range with the cable 6 clamped (see FIG. 6).

  Further, at the holding position 25 of the cable clamp 10 that holds the cable 6, a low portion 51 that is a low portion of the regulating rib 50 is close to the cable 6. Here, since the height R1 of the low portion 51 is lower than the height H3 of the clamp bottom surface 25a at the holding position 25, the low portion 51 does not come into contact with the cable 6 and a load is applied to the cable 6. Occurrence is suppressed.

  Next, an erroneous assembly when the above-described cable clamp 10 is assembled to the attachment portion 9 will be described in detail with reference to FIGS. 4 and 5. Here, the incorrect assembly of the cable clamp 10 means that, as shown in FIGS. 4 (a) and 5 (a), the locking claw portion 30 is moved in a state where the cable clamp 10 is inclined by an angle θ from the normal position. It means to be inserted into the through hole 9a. In this case, while the elastic fixing portion 40 rides on the regulating rib 50, the locking claw portion 30 is locked in the through hole 9a, and the cable clamp 10 is held, and the occurrence of such a state is prevented. The structure to perform is demonstrated below.

  As shown in FIG. 4, when assembled at a position where the angle θ is about 45 degrees, one elastic fixing portion 40 rides on the high portion 52 of the regulating rib 50. In this case, since the height R2 of the high portion 52 is higher than the height H2 of the root portion 42 of the elastic fixing portion 40, the elastic fixing portion 40 abuts against the clamp portion 20 and does not flex the elastic fixing portion 40 strongly. Since the pawl portion 30 is not caught on the edge of the through-hole 9a, misassembly can be prevented.

  As shown in FIG. 5, when assembled at a position where the angle θ is about 90 degrees, the lower surface 40 a of the elastic fixing portion 40 rides on the lower portion 51 of the regulating rib 50. In this case, since the height R1 of the lower portion 51 is higher than the height H1 of the lower surface 40a of the elastic fixing portion 40, the locking claw portion 30 does not get caught on the edge of the through hole 9a, so that erroneous assembly can be prevented.

  Next, a case where the above-described cable holding structure 100 is applied to the operation panel 1 will be described with reference to FIG. The hinge part 7 is a movable part and is a non-contactable member of the cable 6. When the cable 6 close to the hinge portion 7 is held, the restriction rib 50 is installed along the cable clamp 10. Thereby, by restricting the rotation of the cable clamp 10 by the restriction rib 50, the cable 6 is restricted so as not to move in the direction approaching the hinge portion 7. In addition, when holding the cable 6 which is not close to the hinge part 7, the regulation rib 50 does not need to be provided.

  As described above, according to the cable holding structure 100 of the present embodiment, the restriction rib 50 abuts on the cable clamp 10 and restricts the rotation of the cable clamp 10. For this reason, it is possible to prevent contact of the cable 6 with an unfavorable member without increasing the cost or enlarging the entire apparatus. Moreover, since the low part 51 adjacent to the holding position 25 of the cable 6 is formed lower than the high part 52, the cable 6 does not contact the regulation rib 50 and prevents the cable clamp 10 from being assembled incorrectly. be able to. As a result, the restriction rib 50 of the cable clamp 10 that is simple, low-cost, and does not cause misassembly or the like can be realized. Further, when the cable 6 is protected from the movable part or the like, there is no provision of a protective member such as a tube, a guide member, or the distance of the wiring path of the cable 6 from the interference member. It is effective for applications that require further downsizing and thinning.

DESCRIPTION OF SYMBOLS 6 ... Cable, 9 ... Attachment part (member to be attached), 10 ... Cable clamp, 20 ... Clamp part, 25 ... Holding position, 25a ... Clamp bottom surface, 30 ... Locking claw part, 40 ... Elastic fixing part, 40a ... Elasticity The lower surface of the fixing part, 42 ... the root part, 50 ... the regulating rib (regulating means), 51 ... the low part, 52 ... the high part, 100 ... the cable holding structure.

Claims (5)

A clamp portion that holds the cable in a holding position by clamping, a locking claw portion that is integrated with the clamp portion and is locked by being rotatably inserted into the attached member, and the locking claw portion And a plurality of elastic fixing portions that elastically urge the locking claw portion in the locking direction when the locking claw portion is locked to the attached member. ,
The cable clamp includes a low portion provided on the attached member and disposed adjacent to the holding position, and a high portion disposed adjacent to the elastic fixing portion and higher than the low portion. A regulation means for abutting and regulating the rotation of the cable clamp, and
A cable holding structure characterized by that. The height of the low part of the restricting means is lower than the clamp bottom surface of the holding position,
The cable holding structure according to claim 1. The height of the lower portion of the restricting means is higher than the lower surface of the elastic fixing portion when the locking claw portion is locked to the attached member.
The cable holding structure according to claim 1 or 2, wherein The height of the high portion of the restricting means is higher than the height of the base portion of the elastic fixing portion,
The cable holding structure according to any one of claims 1 to 3, wherein The restricting means has the high portion on both sides of the low portion,
The cable holding structure according to any one of claims 1 to 4, wherein

Images