Source: https://patents.google.com/patent/AU2005248211A1/en
Timestamp: 2020-02-19 02:40:03
Document Index: 371675128

Matched Legal Cases: ['Arts 5', 'art 18', 'art 19', 'art 18', 'art 18', 'art 19', 'art 19', 'art 20', 'art 54', 'art 55', 'art 18', 'art 18', 'art 18', 'art 18']

AU2005248211A1 - Noiseproof toothed cable - Google Patents
Noiseproof toothed cable Download PDF
AU2005248211A1
AU2005248211A1 AU2005248211A AU2005248211A AU2005248211A1 AU 2005248211 A1 AU2005248211 A1 AU 2005248211A1 AU 2005248211 A AU2005248211 A AU 2005248211A AU 2005248211 A AU2005248211 A AU 2005248211A AU 2005248211 A1 AU2005248211 A1 AU 2005248211A1
AU2005248211A
Takashi Yanagita
2004-05-26 Priority to JP2004-155537 priority
2005-05-26 Priority to PCT/JP2005/009626 priority patent/WO2005116463A1/en
2005-12-08 Publication of AU2005248211A1 publication Critical patent/AU2005248211A1/en
2007-11-29 Assigned to HI-LEX CORPORATION reassignment HI-LEX CORPORATION Request for Assignment Assignors: NIPPON CABLE SYSTEM INC.
239000011347 resins Substances 0 claims description 77
DECLARATION I ........ Shieo A LYAMA...................................... of ./.9.kiyama P.atent.Attorney's Office, Kitahama-Nagao.Bld. 3F, 9-9, Kitahama 1-chome, Chuo-ku, Osaka-shi, Osaka-fu, Japan do solemnly and sincerely declare: 1. That I am well acquainted with both the English and Japanese languages, and 2. That the attached document is a true and correct translation of the specification accompanying the application for patent made in International Application No. PCT/JP2005/009626 filed on 26 May 2005. AND I make this declaration conscientiously believing the statement contained herein to be true in every particular. SIG NED this...........4................... day of ............... D .... m ber ............................................... (gnature) A SOUNDPROOF GEARED CABLE Field of the Invention [0001) This invention relates to a sound proof geared cable. Background Arts 5 [0002) [ Patent Document 1 ] Published Japanese Patent Application No.S56-105109 [ Patent Document 2 1 Examined Japanese Utility Model application publication No.S58-29324 0 [ Patent Document 3 ] Published Japanese Utility Model application No.S55-170519 [ Patent Document 4 ) Examined Japanese Utility Model application publication No.S58-13169 [ Patent Document 5 1 Examined Japanese Utility Model application 5 publication No.S58-13171 [0003) A geared cables in which gear teeth is formed around the coil have been used for automobile window regulators and automobile sunroof closing mechanisms. However, since these geared cables generate noises while sliding in guide pipes, soundproof geared cables having high 0 durability with low generated noises in use are sought for, and various cables have been developed. In the Patent Document 1, a soundproof geared cable of which the periphery is covered with synthetic resin, formed by extrusion, is disclosed. In this cable, the synthetic resin is pressed against the geared 25 cable by vacuuming partially the space between the synthetic resin coating and the geared cable in the extrusion. In the Patent Document 2, a soundproof geared cable, in which the soft synthetic resin or soft rubber coated and the gear teeth composed of a metal wire wounded around it, is disclosed, so as the coat to be projected 30 outward from the outside of the gear teeth.
In the Patent Document 3, a soundproof geared cable, in which the periphery of the geared cable covered with an elastic tube composed of soft synthetic resin or soft rubber properly tightening the cable, is disclosed. Further in this the Patent Document 3, it described that the 5 elastic tube can be fixed to the gear teeth of the geared cable by adhesion or welding. In the Patent Document 4, a soundproof geared cable, in which an elastic member is wounded between the gear teeth of the geared cable, so as the elastic member to be projected outward from the outside of the gear 0 teeth, is disclosed. In the Patent Document 5, a soundproof geared cable, in which a fabric member is wounded between the gear teeth of the geared cable, so as the fabric member to be projected outward from the outside of the gear teeth. 5 Disclosure of invention [0004) In order to satisfies user's further requirements, this invention is directed to provide a soundproof gear cable with low noises generated against the guide pipe compared with conventional geared cables, small 20 load in use, and easy manufacturing. [0005) The soundproof geared cable of this invention (claim 1) comprises a geared cable having a core composed of a plurality of metal wires and a gear teeth fabricated by winding a metal wire spirally with equal intervals around a periphery of the core; and a tubular resin coat, 25 provided by an extrusion, having a concave part and a convex part around the periphery of the geared cable, wherein a space is provided between the concave part of the resin coat and the core, the convex part of the resin coat and the gear teeth is contacted, and a depth of the concave part positioned between the gear teeth is 0.1 to 0.5 mm. 30 In such soundproof geared cable, it is preferable that the flexural modulus of the resin coat based on ASTM D790 is to be 150 to 1300 MPa (claim 2). The second aspect of the soundproof geared cable of this invention 5 (claim 3) comprises a geared cable having a core composed of a plurality of metal wires, a gear teeth fabricated by winding a metal wire spirally with equal intervals around a periphery of the core, and a protection coat formed around the gear teeth; and a tubular resin coat, provided by an extrusion, having a concave part and convex part around a periphery of 0 the geared cable, wherein a space is provided between the concave part of the resin coat and the core, and the convex part of the resin coat and the protection coat is contacted. The soundproof geared cable in any of the above, it is preferable that a silicon layer is provided around the periphery of the resin coat 5 (claim 4). The manufacturing method of the soundproof geared cable of this invention claimm5, comprises the steps of forming a geared cable having a core composed of a plurality of metal wires and a gear teeth fabricated by winding a metal wire spirally with equal intervals around a periphery of !0 the core, preheating the geared cable, providing a tubular resin coat having a concave part and convex part around a periphery of the geared cable by extrusion without vacuuming. Further, it is preferable that the depth of the concave part of the resin coat positioned between the gear teeth is formed to be 0.1 to 0.5mm (claim 6). 25 The second aspect of the manufacturing method of the soundproof geared cable (claim7), comprises a steps of forming a geared cable having a core composed of a plurality of metal wires and a gear teeth fabricated by winding a metal wire spirally with equal intervals around a periphery of the core, preheating the geared cable, providing a protection coat 30 having a concave part and convex part around a periphery of the geared cable by extrusion without vacuuming, providing a resin coat having a concave part and convex part around a periphery of the protection coat by extrusion without vacuuming. The method described in any of the above may comprises the process of coating silicon around a periphery of the 5 resin coat (claim 8). [00061 Since the soundproof geared cable of this invention (claim 1) has the resin coat of which the depth of the concave part positioned between the gear teeth is 0.1 to 0.5mm, close contact with the gear teeth of the geared cable is achieved. Thereby the friction against the metal pipes, 0 and guide pipes etc. are small, resulting small noise. And because the resin coat is formed by extrusion, the depth and the elasticity modulus of the concave part may be formed evenly. Further, because the forming is easy, the production cost of the soundproof geared cable can be held down. Furthermore, since it is so formed that the convex part and the gear teeth 5 contact, and that a space is left between the concave part and the core of the geared cable, it can securely mesh with such an engaging fixture such as pinion enabling efficient transmission of the motive energy to the soundproof geared cable. In the case that the soundproof geared cable of which the flexural 0 modulus of the resin coat based on ASTM D790 is 150 to 1300 MPa, the obtained geared cable has flexibility and excellent sound insulating properties, and further has the resin coat with excellent durability (claim 2). In the second aspect of the soundproof geared cable of this 25 invention (claim 3), since the geared cable is provided with the protection coat, close relationship between the geared cable and the resin coat is obtained. Further, since the metal wire is covered with the protection coat and the resin coat, durability as a soundproof geared cable is high. 30 In the case that a silicon layer is provided around the periphery of the resin coat in any of the above soundproof geared cable, friction against the metal pipes, the guide pipe is further reduced enabling further lowering of the noises (claim 4). In the manufacturing method of the soundproof geared cable of this 5 invention (claim 5), since the geared cable is preheated after the forming of the geared cable, close contact to the later formed resin coat having unevenness is obtained. Further, since the resin coat having unevenness is formed by extrusion without vacuuming, it is possible to make the resin coat having a radial thickness and furthermore to form the resin coat 0 having elasticity and flexibility. Thereby meshing with the engaging fixture such as pinions is secured. The above described preheating of the cable can be carried out by passing through the cable in an electric furnace or a high frequency induction heating furnace, but the optimum condition of the temperature 5 varies any time depending on the material of the resin coat used and the temperature of the cooling carried out after the forming of the resin coat. When the depth of the concave part of the resin coat is formed to be 0.1 to 0.5mm, the close contact of the geared cable of the resin coat is obtained and it can be easily formed into a tubular shape (claim 6). When the depth 0 of the concave part is smaller than 0.1 mm due to the insufficient preheating, enough close contact cannot be obtained. When the depth of the concave part is larger than 0.5mm due to the high preheating temperature, sliding noises against metal pipes and guide pipes etc. become large. 25 In the second aspect of the manufacturing method of the soundproof geared cable of this invention (claim 7), comprises the process of forming a geared cable having a core composed of a plurality of metal wires and a gear teeth fabricated by winding a metal wire spirally with equal intervals around a periphery of the core, preheating the geared cable, 30 providing a protection coat having a concave part and convex part around a periphery of the geared cable by extrusion without vacuuming, providing a resin coat having a concave part and convex part around a periphery of the protection coat by extrusion without vacuuming. Thereby, the inner cables with low sliding noises generated against the guide pipe and with 5 excellent durability can be easily manufactured relatively. Brief Description of Drawings [Figure 1] Figure la is a side cross section showing an embodiment of the soundproof geared cable of this invention, Figure lb is a X-X line cross 0 section of Figure La. [Figure 2] Figure 2a is a side cross section showing the other embodiment of the soundproof geared cable of this invention, Figure 2b is a X-X line cross section of Figure 2a. [Figure 31 Figure 3a is a side cross section showing further the other 5 embodiment of the soundproof geared cable of this invention, Figure 3b is a X-X line cross section of Figure 3a. [Figure 41 Figure 4 is a side cross section showing further the other embodiment of the soundproof geared cable of this invention. [Figure 51 Figure 5 is an outline drawing showing the method of noise !0 measurement of the soundproof geared cable of this invention. Best mode for carrying out the invention [0007) The embodiment of this invention is described using drawings. [00081 The soundproof geared cable 10 in Figure 1 comprises a geared 25 cable 13 having a core 11 composed of metal wires and gear teeth 12 provided around the periphery of the core and a tubular resin coat 14 provided around the geared cable 13. The core 11 comprises a core wire 15 composed of a metal wire, a first wire-wound layer 16 formed by winding four metal wires around the 30 core wire, and a second wire-wound layer 17 formed by winding inversely six metal wires around the first wire-wound layer. The outer diameter of the core is formed so as to be 2.5 to 2.7 mm. Gear teeth 12 are formed by wounding a metal wire spirally around the core with 2.4 to 2.6 mm gaps. Thereby, the geared cable with the outer 5 diameter of 4.5 to 4.8 mm is formed. The resin coat 14 is a tube having a concave part and a convex part along the gear teeth 12 with its radial thickness to be 0.1 to 0.3mm and its depth of the concave part 18 to be 0.1 to 0.5mm(see reference alphabet Z). The convex part 19 of the resin coat 14 contacts the gear teeth 12, and 0 a space 20 is provided between the concave part 18 of the resin coat 14 and the core 11. As the material for such resin coat 14, synthetic resin with low friction coefficient having flexibility or elasticity such as nylon resin, polyester resin, polyurethane resin, polyolefin resin and so on can be cited, and elastomer of polyester is preferable among them. For nylon 5 resin etc., elasticizer may be blended to enhance the flexibility. [0009] Such soundproof geared cable 10 is manufactured as described below. After twisting the geared cable 13 together, the geared cable 13 is preheated up to 50-150'C. Then, the synthetic resin material is formed into a tubular shape around the periphery of the geared cable 13 by .0 extrusion (tubing) without vacuuming. At this moment, the close contact relation between the geared cable (the gear teeth 12) and the resin coat 14 is enhanced by preheating the geared cable 13 before the extrusion. In the case of insufficient preheating (low temperature), the close contact relation between the 25 geared cable and the resin coat cannot be secured enough, and in the case of insufficient preheating (high temperature), tubing by extrusion does not meet with success. These temperatures are not particularly limited, and can be determined appropriately depending on the material of the resin. 30 In addition, by not performing vacuuming during the extrusion, the '.7 radial thickness of the resin coat 14 can be secured and the space 20 between the core of the geared cable and the resin coat can be provided. Further, the resin coat 14 having flexibility and the elasticity can be formed. 5 [0010) The soundproof geared cable manufactured as above is used as follows. The teeth of a pinion or rack mounted on a motor etc. and the gear teeth of the soundproof geared cable engage, and the soundproof geared cable moves in the axial direction depending on the rotation of the pinion. When the soundproof geared cable is used for window regulators or 0 sunroof closing mechanisms, it is used by being inserted into guide pipes. In the soundproof geared cable 10, forming the resin coat 14 having flexibility and elasticity so as to provide the space 20 between the geared cable 13 and the resin coat 14 makes the pinion teeth and the concave part 18 and convex part 19 (or gear teeth 12) of the soundproof cable 10 5 engage securely. Further, since the close contact relation between the geared cable 13 and the resin coat 14 is solid at the convex part 19 of the resin coat, there is only a few possibility that the resin coat 14 will drop out, deviate from the geared cable 13 or collapse, presenting high durability. Furthermore, provision of the resin coat 14 makes the friction !0 against the guide pipe small, sliding resistance small, noise small. In other words, it enables the motive energy to be converted to the sound proof geared cable 10 efficiently. [0011] The soundproof geared cable 30 shown in Figure 2 is the one in which a silicon layer 31 is provided around the periphery of the 25 soundproof geared cable 10 of Figure 1. Thereby, the friction between the periphery of the soundproof geared cable 30 and the metal pipe, guide pipe is further decreased lowering further the noise accompanying the operation of the soundproof cable. Such silicon layer 31 can be obtained by coating and drying silicon 30 emulsion on the periphery of the soundproof geared cable 10. As the silicon emulsion, low polymerization grade silicon emulsion and amino-modified silicon emulsion can be cited. [ 0012] The soundproof geared cable 40 shown in Figure 3 has the Warrington type W(19) structure so formed that 12 metal wires are 5 further twisted in parallel around the core 41 which is a core strand having the 1 X 7 structure composed of 7 metal wires. The other composition is same as that of Figure 1, wherein the gear teeth 12 are wound around this core and the resin coat 14 is formed. The use of this core 41 provides a soundproof geared cable having higher strength. 0 In the embodiments, two kinds of the composition are disclosed, but the structures in this invention are not limited to these, and they may be twisted wires composed of metal wires. [ 0013] In the soundproof geared cable 50 shown in Figure 4, the geared cable 51 is provided with the protection coat 52, wherein the resin coat 53 5 is formed around the periphery of the geared cable 51. The other composition is substantially same as that of the soundproof geared cable 10 of Figure 1. The protection coat 52 is closely contacted to the geared cable 51. The protection coat 52 and the resin coat 53 are welded at the convex part 20 55 of the resin coat and separated at the concave part 54. The depth of the concave part is 0.1 to 0.5 mm. Thereby, the space 56 is formed between the protection coat 52 and the resin coat 53. The material of such protection coat is not particularly limited, and employing the same material as the resin coat 53 can enhance the close contact by welding between the 25 protection coat 52 and the resin coat 53. [ 0014 1 Such soundproof geared cable 50 can be manufactured as described bellow. As the soundproof geared cable shown in Figure 1, a geared cable is formed by twisting metal wires together. The geared cable is preheated, and the protection coat 52 is formed by extrusion while 30 vacuuming. Thereby, the geared cable 51 having the closely contacted protection coat 52 is obtained. After that, the geared cable 51 having the protection coat is preheated up to near the melting point of the material of the protection coat, and the extrusion of the resin coat without vacuuming is carried out to obtain the soundproof geared cable 50. In 5 this soundproof geared cable obtained by this method, the protection coat 52 and the resin coat 53 are separated to form the space 56 at the concave part between the gear teeth. And the protection coat 52 and the resin coat 53 is welded, at the convex part 55 of the gear teeth 50. In the soundproof cable 50, the resin coat and the protection coat is 0 welded at the gear teeth portion, but it may only be closely contacted. In this case, by selecting the material of the protection coat and the resin coat respectively so as to increase the frictional force, the close contact of the protection coat and the resin coat can be enhanced. The above-described soundproof cables are used for window regulators, sunroof .5 closing mechanisms or the closing mechanisms of ceiling windows, sunshades of the side windows. Embodiments [00151 [Embodiment 11 Referencing Figure 1, a core 11 was so formed as to be 2.6 mm in 20 its outer diameter. The core 11 comprises the core wire 15 composed of a metal steel wire of outer diameter 0.73 mm, a first wire-wound layer 16 formed by winding spirally the four metal steel wires whose outer diameter was 0.36mm, and a second wire-wound layer 17 formed by winding spirally in the reverse direction six metal steel wires whose outer 25 diameter was 0.6 mm. Then, the gear teeth 12 were formed by winding spirally a metal steel wire whose outer diameter was 1.2 mm with 2.54 mm gaps, and the geared cable was so formed as to be 4.65 mm in its outer diameter. With this geared cable being preheated, the resin coat 12 of PA 12 elastomer synthetic resin whose flexural modulus was 340 MPa based 30 on ASTM D790 was formed on the periphery by extrusion so as to be 0.1 mm in its depth of the concave part 18. The soundproof geared cable of the embodiment 1 whose diameter was 5.0 mm was obtained. [Embodiment 21 The geared cable obtained in the embodiment 1 was preheated. 5 Then resin coat 14 of nylon 11 containing a plasticizer synthetic whose flexural modulus was 880 MPa, was formed around the periphery by extrusion so as to be 0.2 mm in its depth of the concave part 18. Then the silicon emulsion was coated to obtain the soundproof geared cable of the embodiment 2 whose diameter was 5.0 mm. 0 [Embodiment 31 The soundproof geared cable of the embodiment 3 whose diameter was 5.0 mm was obtained by the same method as the embodiment 1 excepting that the synthetic resin coat 14 was changed to TPEE whose flexural modulus was 494 MPa and the depth of the concave part 18 was 5 made to be 0.2 mm. [Embodiment 41 The soundproof geared cable of the embodiment 4 whose diameter was 5.0 mm was obtained by the same method as the embodiment 1 excepting that the synthetic resin coat 14 was changed to olefin elastomer 20 whose flexural modulus was 60Mpa and the depth of the concave part 18 was made to be 0.2 mm. [0016) [Comparative example 1] The soundproof geared cable was formed by the method same as the embodiment 1, and an adhesive agent was coated by dipping and hairs 25 were grafted by electrostatic hair grafting to obtain the soundproof geared cable of the comparative example 1. [Comparative example 2] The soundproof geared cable was formed by the method same as the embodiment 1, a nylon tube of the outer diameter 1.35 mm, inner diameter 30 1.05 mm composed of PA 12 whose flexural modulus was 1200 MPa was wound between the gear teeth to obtain the soundproof geared cable of the comparative example 2. [Comparative example 31 The soundproof geared cable of the comparative example 3 was 5 obtained by the method same as the embodiment 3 excepting that the preheating temperature applied to the geared cable was increased and that the depth of the concave part of the resin coat was made large to be 0.55 mm. [0017] The soundproof geared cables obtained in the embodiment 1, 2, 3, 0 4 and the comparative example 1, 2, 3 were installed as shown in Figure 5. The one end of the soundproof geared cable 61 is fixed to a roof lid 60. Then, another end was engaged with the pinion (not shown in the figure) of a motor 63. Between the roof lid 60 and the motor 63, the soundproof geared cable is supported by a pipe(guide pipe) 62. The inner diameter of 5 the pipe 62 is 5.3 mm. This soundproof geared cable 61 is moved right and left using the motor 63. Thereby, the roof lid 60 moves along the arrow head Y. A noise level meter 64 was placed at the position 300 mm just under the motor and 300 mm just under the L side corner, and the noise and the operating current accompanying the movement of the sunroof lid 20 60 were measured. Further, in this status, under the condition shown below, an endurance test was performed. The motor 63 is always cooled by air cooling. Additionally, the reference numeral 65 is a data recorder. The results are shown in Table 1. [0018] [Table 11 Depth of Flexural Operating Operating Results Concave Modulus Noise Current Durability Part Embodiment 1 0.1 mm 340MPa 54db 3.OA 0 Embodiment 2 0.2 mm 880MPa 58db 2.OA 0 Embodiment 3 0.2 mm 494MPa 59db 2.OA 0 Embodiment 4 0.2 mm 60MPa 60db 3.OA X Comparative - - 61db 2.5A 0 Example 1 Comparative - 120MPa 63db 3.5A A Example 2 Comparative 0.55 mm 494MPa 61db 3.OA 0 Example 3 O:Operating with nothing peculiar A :Operating with heavy performance degradation X:Operation stopped due to peeling of the coat [0019] As shown in Table 1, the embodiment 1 to 4 could suppress the 5 operating current less than 3.0 A and the operating noises lower than 60db.
1. A soundproof geared cable, comprising; a geared cable having a core composed of a plurality of metal wires and a gear teeth fabricated by winding a metal wire spirally with equal intervals around a periphery of the core; and a tubular resin coat, provided by an extrusion, having a concave part and a convex part around the periphery of the geared cable, wherein a space is provided between the concave part of the resin coat and the core, the convex part of the resin coat and the gear teeth is contacted, and a depth of the concave part positioned between the gear teeth is 0.1 to 0.5 mm.
2. A sound proof geared cable according to claim 1, wherein a flexural modulus of the resin coat based on ASTM D790 is 150 to 1300 MPa.
3. A sound proof geared cable, comprising; a geared cable having a core composed of a plurality of metal wires, a gear teeth fabricated by winding a metal wire spirally with equal intervals around a periphery of the core, and a protection coat formed around the gear teeth; and a tubular resin coat, provided by an extrusion, having a concave part and convex part around a periphery of the geared cable, wherein a space is provided between the concave part of the resin coat and the core, and the convex part of the resin coat and the protection coat is contacted.
4. A sound proof geared cable according to claim 1 or 3, wherein a silicon layer is provided around periphery of the resin coat.
5. A method for manufacturing a soundproof geared cable, comprising: forming a geared cable having a core composed of a plurality of metal wires and a gear teeth fabricated by winding a metal wire spirally with equal intervals around a periphery of the core, preheating the geared cable, providing a tubular resin coat having a concave part and convex part around a periphery of the geared cable by extrusion without vacuuming.
6. A method for manufacturing the sound geared cable according to claim 5, 1 wherein the depth of the concave part of the resin coat positioned between the gear teeth is formed so as to be 0.1 to 0.5 mm.
7. A method for manufacturing a sound proof geared cable, comprising: forming a geared cable having a core composed of a plurality of metal wires and a gear teeth fabricated by winding a metal wire spirally with equal intervals around a periphery of the core, preheating the geared cable, providing a protection coat having a concave part and convex part around a periphery of the geared cable by extrusion without vacuuming, providing a resin coat having a concave part and convex part around a periphery of the protection coat by extrusion without vacuuming.
8. A method for manufacturing the sound proof geared cable according to claim 5 or 7, further comprising, coating silicon around a periphery of the resin coat. 2
AU2005248211A 2004-05-26 2005-05-26 Noiseproof toothed cable Abandoned AU2005248211A1 (en)
JP2004-155537 2004-05-26
PCT/JP2005/009626 WO2005116463A1 (en) 2004-05-26 2005-05-26 Noiseproof toothed cable
AU2005248211A1 true AU2005248211A1 (en) 2005-12-08
AU2005248211A Abandoned AU2005248211A1 (en) 2004-05-26 2005-05-26 Noiseproof toothed cable
US (1) US7559189B2 (en)
EP (1) EP1757822A1 (en)
JP (1) JP5091475B2 (en)
KR (1) KR20070044400A (en)
CN (1) CN101044330A (en)
AU (1) AU2005248211A1 (en)
BR (1) BRPI0510644A (en)
CA (1) CA2567960A1 (en)
WO (1) WO2005116463A1 (en)
JP4805346B2 (en) * 2005-05-20 2011-11-02 テレフレックス・インコーポレーテッド Push-pull cable and method of manufacturing the same
JP5680542B2 (en) * 2009-09-25 2015-03-04 株式会社ハイレックスコーポレーション Toothed cable, cable device having toothed cable, and moving system of moving body
JP5624303B2 (en) * 2009-11-06 2014-11-12 株式会社ハイレックスコーポレーション Control cable for drain valve remote control device and drain valve remote control device using the same
JP5826512B2 (en) * 2011-04-28 2015-12-02 株式会社ハイレックスコーポレーション Toothed cable
CN106763116B (en) * 2016-12-27 2019-09-03 柳州市金岭汽车配件厂 Braking automobile line
JPS5614426Y2 (en) * 1978-04-10 1981-04-04
JPS55170519U (en) * 1979-05-25 1980-12-08
JPH0291211U (en) * 1988-12-29 1990-07-19
JPH10159832A (en) * 1996-10-03 1998-06-16 Nippon Cable Syst Inc Inner cable for push-pull control cable
JP3226893B2 (en) * 1999-03-23 2001-11-05 日本ケーブル・システム株式会社 Soundproof geared cable
JP3658309B2 (en) * 2000-11-14 2005-06-08 朝日インテック株式会社 Drain plug control cable
JP2002020984A (en) * 2001-05-14 2002-01-23 Nippon Cable Syst Inc Method for producing noiseproof cable having teeth
JP2004019732A (en) * 2002-06-13 2004-01-22 Nippon Cable Syst Inc Inner cable and control cable using the same
2005-05-26 BR BRPI0510644 patent/BRPI0510644A/en not_active IP Right Cessation
2005-05-26 WO PCT/JP2005/009626 patent/WO2005116463A1/en active Application Filing
2005-05-26 JP JP2006513928A patent/JP5091475B2/en active Active
2005-05-26 KR KR1020067024513A patent/KR20070044400A/en not_active Application Discontinuation
2005-05-26 EP EP20050743778 patent/EP1757822A1/en not_active Withdrawn
2005-05-26 CN CN 200580016904 patent/CN101044330A/en not_active Application Discontinuation
JPWO2005116463A1 (en) 2008-04-03
CN101044330A (en) 2007-09-26
JP5091475B2 (en) 2012-12-05
BRPI0510644A (en) 2007-11-20
EP1757822A1 (en) 2007-02-28
WO2005116463A1 (en) 2005-12-08
KR20070044400A (en) 2007-04-27
US5548898A (en) 1996-08-27 Method for providing a flexible covering for a portion of a tapered coil spring
EP1076792B1 (en) 2005-06-01 Corrugated polymeric filler neck tubing
JP2006507788A (en) 2006-03-02 Support member for assembly
2007-11-29 TC Change of applicant's name (sec. 104)
Free format text: FORMER NAME: NIPPON CABLE SYSTEM INC.