JP2012089640A - Hermetic structure for cable insertion part, and closure having the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a hermetic structure for a cable insertion part and a closure having the same which can clamp a cable with certainty without displacement while ensuring a good sealability.SOLUTION: A closure 11 has: a seal member 51 engaged with a recessed part 42 of a cylindrical part 41 formed on a base plate 12; a claw member 61 having a plurality of pressing claws 63 arranged at an interval in a circumferential direction and engaged with the recessed part 42 together with the seal member 51; a seal nut 71 having a plurality of clamp claws 78 arranged at an interval in the circumferential direction, pressing the seal member 51 to the recessed part 42 of the cylindrical part 41 via the claw member 61 to make them contact with each other tightly, and deforming the pressing claw 63 elastically inward the radial direction to make an inner peripheral surface of the seal member 51 and an outer peripheral surface of an optical cable 23 contact with each other tightly; and a clamp nut 81 deforming the clamp claws 78 elastically inward the radial direction to lock the clamp claw 78 to the outer peripheral surface of the optical cable 23.

Description

  The present invention relates to a sealing structure in an insertion portion through which a cable is inserted and a closure including the same.

  Since a closure that accommodates a connection portion and an extra length portion of a cable such as an optical cable may be disposed outdoors or in underground piping, high sealing performance is required. As a waterproof structure at the insertion point of such a cable, the cable is inserted in the axial direction of the clamp body, inserted into the cylindrical rubber bushing and the clamp ring, and then the clamp nut is screwed into the clamp body from the outside of the clamp ring. A waterproof cable clamp assembled by combining them is known (for example, see Patent Document 1).

JP 2002-340235 A

  According to the cable clamp described above, in the process of screwing the clamp nut into the clamp main body, the cable and the clamp can be brought into close contact with each other by the action of the clamp ring and the rubber bushing, and the waterproof effect can be enhanced. However, when a tensile force is generated in the cable held by the adhesive force of the rubber bushing, the cable may slide with respect to the rubber bushing and the clamp position may be shifted.

  The objective of this invention is providing the sealing structure of a cable insertion part which can clamp a cable reliably without misalignment, ensuring a favorable sealing property, and a closure provided with the same.

The sealing structure of the cable insertion portion of the present invention that can solve the above problems is a sealing structure of the cable insertion portion that seals the cable passed through the insertion port formed in the base plate,
A cylindrical portion extending in an axial direction from an edge of the insertion opening of the base plate;
A cylindrical sealing member made of an elastic material fitted in a recess formed on one end side of the cylindrical portion;
A cylindrical claw member that has a plurality of pressing claw portions arranged at intervals in the circumferential direction, and is fitted on the outer periphery of the seal member and fitted into the recess together with the seal member;
A plurality of clamp claws arranged at intervals in the circumferential direction, and screwed into the cylindrical portion, whereby the seal member is inserted into the concave portion of the cylindrical portion of the base plate via the claw member; A seal nut that causes the inner surface of the seal member to closely contact the outer peripheral surface of the cable by elastically deforming the pressing claw portion of the claw member radially inward,
And a clamp nut that is elastically deformed radially inward by being screwed to the seal nut and locked to the outer peripheral surface of the cable.

In addition, the closure of the present invention includes a case having an opening portion in which the inside is an accommodation space, and a base plate mounted so as to close the opening portion of the case, and a cable insertion provided in the base plate A closure from which a cable is drawn into the housing space,
The cable insertion portion of the base plate is sealed by the sealing structure of the present invention.

According to the present invention, when the seal nut is attached, the seal member is pressed and brought into close contact with the concave portion of the cylindrical portion of the base plate, and the pressing claw portion of the claw member is elastically deformed inward in the radial direction. The inner peripheral surface is brought into close contact with the outer peripheral surface of the cable. Thereby, the space between the base plate and the cable can be reliably sealed. In addition, by attaching the clamp nut, the clamp claw portion of the seal nut is elastically deformed radially inward to be uniformly locked to the outer peripheral surface of the cable. As a result, the cable can be securely gripped.
That is, the cable can be reliably clamped without misalignment while ensuring good sealing performance at the cable insertion portion through which the cable of the base plate is passed.

It is a figure which shows the external appearance of the closure which concerns on one Embodiment of this invention, Comprising: (a) is a top view, (b) is AA sectional drawing in (a), (c) is a side view. It is sectional drawing of the optical cable drawer | drawing-out part provided with the sealing structure of the cable penetration part which concerns on one Embodiment of this invention. It is a disassembled perspective view of the optical cable drawer part of FIG.

Hereinafter, an example of an embodiment of a sealing structure of a cable insertion portion and a closure having the same according to the present invention will be described with reference to the drawings.
As shown in FIG. 1, the closure 11 according to the present embodiment has a base plate 12 formed of, for example, a synthetic resin. The base plate 12 has a case 13 attached to the lower surface side in a watertight manner, whereby the lower surface side of the base plate 12 is covered with the case 13. In many cases, this type of closure is usually installed so that the case 13 is on the upper side, but the vertical direction in this specification and the drawings is determined as described above.

  The case 13 has a housing space S inside, and a base plate 12 is mounted so as to close the opening. An extra length accommodating portion 15 is provided in the accommodating space S covered with the case 13. The extra length accommodating portion 15 includes a frame 16 fixed to the base plate 12 and a plurality of extra length accommodating trays 17 supported and stacked on the frame 16. These extra length accommodation trays 17 accommodate optical fiber core wire connecting portions and optical fiber core wire extra length portions.

  The base plate 12 is provided with an optical fiber cord lead-out portion 22 from which the optical fiber cord 21 is drawn out and an optical cable lead-in portion (cable insertion portion) 24 into which the optical cable (cable) 23 is drawn.

  The optical cable 23 is formed by bundling a plurality of optical fiber cores and covering them with a jacket. For example, a plurality of optical fiber cores are housed in a slot rod housing groove or the like inside the jacket. In the optical cable 23 drawn into the accommodation space S from the optical cable lead-in part (cable insertion part) 24, the optical fiber core wire is drawn out and connected to the optical fiber core wire of the optical fiber cord 21. The optical fiber cord 21 is one in which one or a plurality of optical fiber cores are bundled and covered with a jacket. The connection portion and the extra length portion of the optical fiber core wire of the optical fiber cord 21 and the optical fiber core wire of the optical cable 23 are accommodated in the extra length accommodation tray 17 of the extra length accommodation portion 15.

  Next, the sealing structure of the cable insertion portion which is the optical cable drawing portion 24 in the base plate 12 into which the optical cable 23 is drawn will be described in detail.

  As shown in FIGS. 2 and 3, the optical cable lead-in portion 24 has a tubular portion 41 that extends in the axial direction from the edge of the insertion port 12 a formed in the base plate 12 and protrudes upward. A seal member 51 and a claw member 61 are fitted into the tubular portion 41, and a seal nut 71 and a clamp nut 81 are further attached.

  A concave portion 42 is formed on the upper end side of the cylindrical portion 41, and the seal member 51 and the claw member 61 are fitted into the concave portion 42 of the cylindrical portion 41 and attached to the cylindrical portion 41. As a result, the seal member 51 abuts on the stepped portion 43 constituting the recess 42, and movement in the axial direction is restricted. The tubular portion 41 has a male screw 44 formed on the outer periphery thereof.

  The seal member 51 is made of an elastic material such as synthetic rubber, and is formed in a substantially cylindrical shape. The seal member 51 is formed with a flange portion 52 protruding at the lower end portion in the circumferential direction. Further, the seal member 51 is formed with a step portion 54 by forming a small diameter portion 53 having a slightly smaller outer diameter at the upper end portion.

  The claw member 61 is made of a synthetic resin material or a metal material, and is formed in a substantially cylindrical shape. The claw member 61 is formed with a plurality of slits 62 at the upper end side thereof at intervals in the circumferential direction. By forming these slits 62, a plurality of pressing claw portions 63 are formed at equal intervals in the circumferential direction on the upper end side of the claw member 61. These pressing claws 63 are formed with claw portions 64 projecting inwardly on the inner peripheral surface side at the tips thereof.

  The claw member 61 is attached to the seal member 51 so as to cover the outer periphery thereof. Then, the lower end portion of the claw member 61 contacts the flange portion 52 of the seal member 51, and the claw portion 64 of each pressing claw portion 63 is disposed on the outer periphery of the small diameter portion 53 of the seal member 51.

  The seal nut 71 is formed from a synthetic resin material or a metal material, and is formed in a cylindrical shape. The seal nut 71 is formed between a nut portion 72 having a hexagonal outer shape in plan view, a clamp portion 73 formed at the upper end of the nut portion 72, and the nut portion 72 and the clamp portion 73. And a pressing portion 74.

  The nut portion 72 of the seal nut 71 is formed with a female screw 75 that can be screwed into the male screw 44 of the cylindrical portion 41 on the inner periphery thereof. The seal nut 71 is connected to the male screw 44 of the cylindrical portion 41. By attaching the female screw 75 of the nut portion 72 to the cylindrical portion 41, the nut portion 72 is attached to the cylindrical portion 41.

  The pressing portion 74 has a tapered surface 76 that gradually increases in diameter in the mounting direction to the tubular portion 41 on the inner peripheral side, and the tapered surface 76 of the pressing claw portion 63 of the claw member 61. It abuts on the outer periphery of the upper end.

  A plurality of slits 77 are formed in the clamp portion 73 of the seal nut 71 on the upper end side thereof at intervals in the circumferential direction. By forming these slits 77, a plurality of clamp claws 78 are formed at equal intervals in the circumferential direction on the upper end side of the clamp 73. These clamp claws 78 are formed with claw portions 79 projecting inwardly on the inner peripheral surface side at the tips thereof. A male screw 80 is formed on the outer periphery of the clamp portion 73 of the seal nut 71 on the lower end side of the clamp claw portion 78.

  The clamp nut 81 is formed from a synthetic resin material or a metal material, and is formed in a cylindrical shape. The clamp nut 81 has a hexagonal outer shape in plan view, and a female screw 82 that can be screwed into a male screw 80 formed on the clamp portion 73 of the seal nut 71 is formed on the inner periphery thereof. Yes. The clamp nut 81 is attached to the clamp portion 73 of the seal nut 71 by screwing a female screw 82 into the male screw 80 of the clamp portion 73 of the seal nut 71. The clamp nut 81 has a tapered surface 83 that gradually increases in diameter in the mounting direction of the seal nut 71 to the clamp portion 73 on the inner peripheral side of the upper end portion thereof. This is in contact with the outer periphery of the upper end of the clamp claw 78 formed on the clamp 73.

  In order to hold the optical cable drawing portion 24 having the above structure through the optical cable 23, first, the optical cable 23 is inserted into the clamp nut 81, the seal nut 71, the claw member 61, and the seal member 51, and the optical cable 23 is further connected to the cylindrical portion 41. To pass through.

  The claw member 61 is put on the seal member 51, and the seal member 51 and the claw member 61 are fitted into the concave portion 42 of the cylindrical portion 41 until the lower end portion of the seal member 51 contacts the stepped portion 43 of the concave portion 42. .

  When the optical cable 23 is drawn into the accommodation space S side by a necessary introduction length, the cylindrical portion 41 is covered with the nut portion 72 of the seal nut 71, and the female screw 75 of the nut portion 72 is attached to the male screw 44 of the cylindrical portion 41. The nut portion 72 is screwed by screwing.

  In this way, the taper surface 76 of the pressing portion 74 of the seal nut 71 contacts the outer peripheral portion of the tip end of the pressing claw portion 63 of the claw member 61, whereby the pressing claw portion 63 is pressed by the taper surface 76. Then, a force toward the screwing direction (downward in the drawing) acts on the claw member 61, and the flange portion 52 of the seal member 51 is pressed against the stepped portion 43 of the cylindrical portion 41 by the lower end portion of the claw member 61, The lower end portion of the member 51 is in close contact with the stepped portion 43. Thereby, the space between the base plate 12 and the seal member 51 is reliably sealed.

  Further, the pressing claw portion 63 of the claw member 61 is pressed inward in the radial direction by the tapered surface 76 of the pressing portion 74 of the seal nut 71 and elastically deforms. Then, the sealing member 51 is pressed from the outer peripheral surface side by the claw portions 64 formed on the inner peripheral surface side of these pressing claw portions 63, and the inner peripheral surface of the sealing member 51 is in close contact with the outer peripheral surface of the optical cable 23. Thereby, the space between the optical cable 23 and the seal member 51 is reliably sealed. At this time, the plurality of seal members 51 are pressed by the plurality of pressing claws 63 arranged at equal intervals in the circumferential direction, so that they are evenly adhered to the outer peripheral surface of the optical cable 23.

  Next, the clamp nut 81 is put on the clamp portion 73 of the seal nut 71, the female screw 82 of the clamp nut 81 is screwed into the male screw 80 of the clamp portion 73, and the clamp nut 81 is screwed.

  In this way, the taper surface 83 of the clamp nut 81 abuts on the outer periphery of the tip end of the clamp claw portion 78 formed on the clamp portion 73 of the seal nut 71, whereby the clamp claw portion 78 is pressed by the taper surface 83. The Then, the clamp claw portion 78 of the clamp portion 73 is pressed radially inward by the tapered surface 83 of the clamp nut 81 and elastically deforms. As a result, the claw portions 79 formed on the inner peripheral surface side of the clamp claw portions 78 are pressed against the outer peripheral surface of the optical cable 23 and are bitten into the outer cover of the optical cable 23 to be locked. Therefore, the optical cable 23 is clamped by the clamp part 73 of the seal nut 71 and is securely gripped. At this time, since a plurality of clamp claws 78 are arranged at equal intervals in the circumferential direction, they are pressed evenly over the circumferential direction of the outer peripheral surface of the optical cable 23. Therefore, the optical cable 23 is gripped by the clamp portion 73 of the seal nut 71 without a problem due to being biased and biased.

  As described above, according to the above-described embodiment, the seal member 51 is pressed and brought into close contact with the concave portion 42 of the cylindrical portion 41 of the base plate 12 by mounting the seal nut 71, and the pressing claw portion 63 of the claw member 61 is in the radial direction. The inner peripheral surface of the sealing member 51 is evenly adhered to the outer peripheral surface of the optical cable 23 by being elastically deformed inward. Therefore, the gap between the base plate 12 and the optical cable 23 can be reliably sealed. Furthermore, by mounting the clamp nut 81, the clamp claw portion 78 of the seal nut 71 can be elastically deformed radially inward and evenly locked to the outer peripheral surface of the optical cable 23, so that the optical cable 23 can be securely gripped.

  In this manner, the optical cable can be reliably clamped without misalignment while ensuring good sealing performance in the optical cable lead-in portion 24 through which the optical cable 23 of the base plate 12 is passed.

  According to the closure 11 having the base plate 12 having the hermetically sealed structure, the hermeticity of the optical cable lead-in portion 24 can be greatly improved, and the invasion of water can be surely prevented even if it is disposed outdoors or in underground pipes. And high reliability can be ensured.

  In the above embodiment, the structure in which the cable made of the optical cable 23 is inserted into the insertion port 12a of the base plate 12 is described. However, the cable to be inserted into the insertion port 12a of the base plate 12 is not limited to the optical cable.

11: closure, 12: base plate, 12a: insertion port, 13: case, 23: optical cable (cable), 24: optical cable lead-in part (cable insertion part), 41: cylindrical part, 42: concave part, 51: seal member, 61: Claw member, 63: Pressing claw part, 71: Seal nut, 78: Clamp claw part, 81: Clamp nut, S: Storage space

Claims (2)

A cable insertion part sealing structure for sealing a cable passed through an insertion port formed in the base plate,
A cylindrical portion extending in an axial direction from an edge of the insertion opening of the base plate;
A cylindrical sealing member made of an elastic material fitted in a recess formed on one end side of the cylindrical portion;
A cylindrical claw member that has a plurality of pressing claw portions arranged at intervals in the circumferential direction, and is fitted on the outer periphery of the seal member and fitted into the recess together with the seal member;
A plurality of clamp claws arranged at intervals in the circumferential direction, and screwed into the cylindrical portion, whereby the seal member is inserted into the concave portion of the cylindrical portion of the base plate via the claw member; A seal nut that causes the inner surface of the seal member to closely contact the outer peripheral surface of the cable by elastically deforming the pressing claw portion of the claw member radially inward,
A clamp nut that is screwed into the seal nut to elastically deform the clamp claw portion radially inward and engage the outer peripheral surface of the cable. Sealed structure. A case having an opening portion in which the inside is an accommodation space, and a base plate mounted so as to close the opening portion of the case, and a cable from the cable insertion portion provided in the base plate into the accommodation space Is a closure that is drawn
The closure characterized by the said cable insertion part of the said base plate being sealed by the sealing structure of Claim 1.

Images