The present invention relates to a coaxial cable connector to be attached to an end section of a coaxial cable and connect the coaxial cable with an object to be connected such as an F-type relay, an F-type antenna terminal and so on.
Conventionally, this type of coaxial cable connector is known to have a connector body 10 and a securing ring 20 as shown in
When attaching this type of coaxial cable connector to the coaxial cable 2, a tip end of the coaxial cable 2 is processed as follows. Firstly, a cover member 9 around the braided conductor 8 is removed by a predetermined length of La from the tip end of the coaxial cable 2. The braided conductor 8 is then folded back rearward along an edge of the cover member 9. Thereafter, the insulation member 6 inside the braided conductor 8 is cut off to protrude on the tip end side by a predetermined length of Lb. As a result, the core wire 4 is exposed by a predetermined length of Lc.
After the processing of the coaxial cable 2, the coaxial cable connector is fixed to the coaxial cable 2. That is, as shown in
Patent Literature 1: Unexamined Japanese Patent Publication No. H11-167963
The reason why the braided conductor 8 is folded back from the edge side of the cover member 9 as above when attaching the coaxial cable connector to the coaxial cable 2 is to facilitate insertion of the insertion section 12 of the connector body 10 to between the insulation member and the braided conductor 8 of the coaxial cable 2, and to ensure connection of the braided conductor 8 to the insertion section 12 (and to the connector body 10). However, when the braided conductor 8 is folded back as above, the braided conductor 8 has to be received inside the securing ring 20 as shown in
That is, the braided conductor 8 comes loose at the time of the fold-back operation. The tip end of the braided conductor 8 spreads out around the coaxial cable 2. Thus, it is difficult to put the braided conductor 8 inside the securing ring 20 at the time of the crimping operation. The crimping operation becomes tiresome.
The reason why the braided conductor 8 has to be received inside the securing ring 20 at the time of the crimping operation is that, if the braided conductor 8 is not received inside the securing ring 20, not only the appearance is unattractive but also defects may be caused as a result of a contact between the braided conductor 8 and other wiring or electric component.
Although cutting-off of a protruding stray part of the braided conductor 8 may be possible, the cutting operation is troublesome. That is, in order to inhibit the above problem (contact of the braided conductor 8 with other wiring and electric component), it is necessary to cut the protruding stray part at the base thereof. Attentiveness is required of the operator. Therefore, the cutting operation takes a long time.
The present invention has been made in view of the above problems. A coaxial cable connector is designed so that a coaxial cable is crimped and fixed to a connector body with a securing ring after the connector body is attached to a tip end of the coaxial cable. An object of the present invention is to make it easier to attach the coaxial cable connector to the coaxial cable.
The invention of a first aspect which was made in order to achieve the above object provides a coaxial cable connector having a connector body and a securing ring. The connector body includes a tubular insertion section, a flange section, and an annular fitting section. The insertion section is insertable to between an insulation member around a core wire of a coaxial cable and a braided conductor around the insulation member. The flange section is provided around the insertion section, and both the braided conductor of the coaxial cable and a cover member around the braided conductor abut against the flange section to position the insertion section with respect to the coaxial cable when the insertion section is inserted in the coaxial cable. The fitting section is provided at the insertion section on an opposite side of the coaxial cable, and an object to be connected can be fittingly inserted into the fitting section. The securing ring includes a pair of crimping projections provided on an outer periphery thereof. The securing ring is used to crimp and fix the coaxial cable to the insertion section from a periphery of the coaxial cable after the insertion section of the connector body is inserted in the coaxial cable. The coaxial cable connector is provided with a holder that includes a tubular fixation section and a holding section. The fixation section is fixable around the flange section. The holding section is provided in an extending manner from the fixation section to hold the securing ring from a periphery thereof while the crimping projections are protruded outward. The holder positions the securing ring at a position where the coaxial cable is crimped.
According to the invention of a second aspect, the holder is configured separately from the connector body, and the holder includes a fixing projection formed at ah open end of the fixation section on an opposite side of the holding section, in the coaxial cable connector of the first aspect. The fixing projection inhibits the holder from falling off of the flange section by engaging with a corner edge portion of the flange section on a side of the fitting section when the flange section is inserted in the fixation section.
According to the invention of a third aspect, the holder includes a wall section that has an opening, through which the insertion section is insertable, the wall section being formed at the open end of the fixation section on the opposite side of the holding section, in the coaxial cable connector of the first aspect. The holder is integrated with the connector body by positioning the wall section between the flange section and the fitting section around the insertion section.
According to the invention of a fourth aspect, the holding section is configured by a tubular member on which a notch is formed, and the pair of crimping projections are protruded outward from the notch so that the pair of the crimping projections can be crimped outside the holder, in the coaxial cable connector of one of the first through the third aspects.
According to the invention of a fifth aspect, the holding section includes a plurality of slits formed parallel to a central axis of the holding section, in the coaxial cable connector of the fourth aspect.
According to the invention of a sixth aspect, the holding section is configured by three or more rod-shaped members which are dispersedly arranged around the securing ring, in the coaxial cable connector of one of the first through the third aspects.
According to the invention of a seventh aspect, a holding projection is formed at an open end of the holding section on an opposite side of the fixation section to inhibit the securing ring from falling off by engaging with an end portion of the securing ring held inside the holding section, in the coaxial cable connector of one of the first through the sixth aspects.
According to the invention of an eighth aspect, the fixation section includes a slit formed continuously from the open end on the side of the holding section through an opposite open end, so that the fixation section can be radially deformed when attached to the flange section, in the coaxial cable connector of one of the first through the seventh aspects.
According to the invention of a ninth aspect, the holder is formed of synthetic resin, in the coaxial cable connector of one of the first through the eighth aspects.
The coaxial cable connector of the first aspect is provided with the holder which includes the tubular fixation section that is fixable around the flange section, and the holding section that is provided in the extending manner from the fixation section to hold the securing ring from the periphery thereof. The holder positions the securing ring at the position where the coaxial cable is crimped.
Accordingly, when attaching the coaxial cable connector of the first aspect to the tip end of the coaxial cable, after the tip end of the coaxial cable is processed in a conventional manner, the securing ring is positioned via the holder at the position where the coaxial cable is to be crimped. Then, the connector body is inserted from the tip end side of the coaxial cable such that the insulation member of the coaxial cable is inserted into the insertion section of the connector body. In this manner, the braided conductor that has been folded back rearward from the tip end side of the coaxial cable is automatically received into the securing ring.
Thus, according to the coaxial cable connector of the first aspect, it is not necessary to move the securing ring to receive the braided conductor inside the securing ring as in a case of a conventional connector, when the coaxial cable is crimped and fixed to the insertion section of the connector body using the securing ring. After attaching the connector body to the tip end of the coaxial cable, the securing ring fixed to the connector body can be simply crimped with a pair of pliers or the like. The coaxial cable connector can be smartly fixed to the tip end of the coaxial cable in this manner. Thus, according to the present invention, the crimping operation can be extremely easily carried out.
The coaxial cable connector of the first aspect can be achieved extremely easily because a conventional coaxial cable connector as shown in
In the coaxial cable connector of the second aspect, the holder is configured separately from the connector body. And the holder includes the fixing projection formed at the open end of the fixation section on the opposite side of the holding section for fixing the holder to the flange section. Thus, according to the coaxial cable connector of the second aspect, the holder can be retrofitted onto the connector body.
On the other hand, in the coaxial cable connector of the third aspect, the holder includes the wall section formed at the fixation section thereof, which enables the holder to be integrated with the connector body by positioning the wall section of the holder between the flange section and the fitting section when the fitting section and the flange section is attached to the insertion section to assemble the connector body. Thus, according to the coaxial cable connector of the third aspect, the securing ring can be firmly positioned at the crimping position via the holder integrated with the connector body.
Here, the holding section of the holder may hold the securing ring from the periphery of the securing ring while the pair of crimping projections is protruded outward from the holding section, so that the securing ring can be crimped outside the holder with a tool.
Thus, the holding section may be formed by the tubular member on which the notch is formed. The pair of crimping projections can be protruded outward from the notch as in the coaxial cable connector of the fourth aspect. Alternatively, the holding section may be configured by the three or more rod-shaped members which are dispersedly arranged around the securing ring as in the coaxial cable connector of the sixth aspect.
When the holding section is configured by the tubular member on which the notch is formed, it is more preferable to form the plurality of slits parallel to the central axis of the holding section. When the holding section is configured by the tubular member, it may be difficult to put the securing ring in the holding section while the holder is fixed to the flange section via the fixation section. If the slits are formed on the holding section, the securing ring can be received by expanding the holding section. Therefore, the securing ring can be held attachably/detachably in the holding section of the holder while the holder is fixed to the flange section.
In the holder, it is preferable to form the holding projection at the open end of the holding section on the opposite side of the fixation section. The holding projection inhibits the securing ring from falling off by engaging with the end portion of the securing ring held inside the holding section as in the coaxial cable connector of the seventh aspect.
In the holder, further, the fixation section may include a slit formed continuously from the open end on the side of the holding section through the opposite open end as in the coaxial cable connector of the eighth aspect. Thus, the fixation section can be radially expanded when the holder is attached to the flange section. Such a configuration facilitates attachment of the holder to the flange section.
The connector body and the securing ring are conventionally formed of conductive metal because mechanical strength and electrical conductivity are required for the connector body, and mechanical strength is required for the securing ring as well. On the other hand, the holder may be formed of synthetic resin as in the coaxial cable connector of the ninth aspect because a major function of the holder is to position the securing ring. By forming the holder of synthetic resin, elasticity thereof makes it easier to attach the holder to the flange section and to put the securing ring in the holder.
2 . . . coaxial cable, 4 . . . core wire, 6 . . . insulation member, 8 . . . braided conductor, 9 . . . cover member, 10 . . . connector body, 12 . . . insertion section, 14 . . . flange section, 16 . . . fitting section, 20 . . . securing ring, 22, 24 . . . crimping projection, 30 . . . holder, 32 . . . fixation section, 33 . . . fixing projection, 34 . . . holding section, 35 . . . holding projection, 36, 38 . . . slit.
Embodiments of the present invention will be explained hereinafter.
The connector of the present embodiment is used to connect the coaxial cable 2 with an object to be connected such as an F-type relay, an F-type antenna terminal and so on in the same manner as in a conventional connector shown in
In the same manner as in the connector shown in
The insertion section 12 is formed so that an outer diameter thereof is increased from one side toward an opposite side thereof. The one side is a side to be inserted to between the insulation member 6 and the braided conductor 8 of the coaxial cable 2. The insertion section 12, the fitting section 16, and the flange section 14 are integrated by inserting the insertion section 12 from a side with a smaller diameter through holes of the fitting section 16 and the flange section 14 in this order and press-fitting the insertion section 12 into the hole of the flange section 14. The fitting section 16 is provided rotatably with respect to the insertion section 12 around a central axis thereof by being positioned between the flange section 14 and an open end of the insertion section 12 with the largest outer diameter of the insertion section 12.
The securing ring 20 includes an annular ring and a pair of crimping projections 22, 24 provided thereon in a protruding manner, as in the conventional connector shown in
The connector body 10 and the securing ring 20 are formed of conductive metal to secure mechanical strength and electrical conductivity.
The holder 30 includes a tubular fixation section 32 and a holding section 34. The fixation section 32 is fixable around the flange section 14. The holding section 34 is provided in an extending manner from the fixation section 32 and can hold the securing ring 20 thereinside. As a whole, the holding section 34 is formed in a shape of a tube with the same diameter as the fixation section 32. The holding section 34 includes a notch formed thereon. The pair of crimping projections 22, 24 provided on the flange section 14 in the protruding manner can be protruded outward from the notch so that the crimping projections 22, 24 can be pinched and crimped with a tool even while the flange section 14 is held in the holding section 34.
At an open end of the holding section 34 on an opposite side of the fixation section 32, a holding projection 35 is formed to inhibit the securing ring 20 from falling off of the holding section 34 by engaging with an end portion of the securing ring 20 held inside the holding section 34.
At an open end of the fixation section 32 on an opposite side of the holding section 34, a fixing projection 33 is formed to inhibit the holder 30 from falling off of the flange section 14 by engaging with a corner edge portion of the flange section 14 on a side of the fitting section 16 when the flange section 14 is inserted inside the fixation section 32 to fix the holder 30 to the flange section 14.
The fixation section 32 and the holding section 34 of the holder 30 are integrally formed of synthetic resin (e.g., polypropylene).
When attaching the thus configured connector of the present embodiment to a tip end of the coaxial cable 2, the securing ring 20 is first attached to the connector body 10 via the holder 30 by putting the securing ring 20 inside the holding section 34 of the holder 30 and inserting the flange section 14 of the connector body 10 inside the fixation section 32 of the holder 30, as shown in
The tip end of the coaxial cable 2 is processed in a conventional manner as shown in
Then, while the securing ring 20 is fixed to the flange section 14, the connector body 10 is inserted from the tip end side of the coaxial cable 2 such that the insulation member 6 of the coaxial cable 2 is inserted into the insertion section 12 of the connector body 10.
As a result, the braided conductor 8, which has been folded back rearward from the tip end side of the coaxial cable 2, is automatically received inside the securing ring 20. Thereafter, when the crimping projections 22, 24 of the securing ring 20 are crimped with a pair of pliers or the like as in the case of the conventional connector, the connector can be smartly fixed to the tip end of the coaxial cable 2.
Thus, according to the connector of the present embodiment, the crimping operation, and the attaching operation of the connector to the coaxial cable 2, can be extremely easily carried out as compared to conventional operations.
As described hereinbefore, according to the connector of the present embodiment, the connector can be smartly and easily fixed to the tip end of the coaxial cable 2 because the security ring 20 can be positioned at the crimping position around the insertion section 12 of the connector body 10 via the holder 30.
In the present embodiment, the holder 30 is particularly formed of synthetic resin. Compared with a case where the holder 30 is formed of metal, it is more easily performed to attach the holder 30 to the flange section 14 and to put the securing ring 20 inside the holder 30.
The connector of the present embodiment can be achieved only by providing the holder 30 with the conventional coaxial cable connector shown in
In addition, the fixation projection is formed at the open end of the holder 30 on the side of the fixation section 32, and the holding projection is formed at the open end of the holder 30 on the side of the holding section 34. Such a configuration makes it possible to firmly fix the holder 30 to the flange section 14 and inhibit the securing ring 20 held in the holding section 34 from falling off. Thus, the connector body 10 and the securing ring 20, which conventionally have been randomly stored, can be carried integrally to simplify handling of such parts.
In the above, an embodiment of the present invention has been described. However, the present invention should not be limited to the above embodiment, but can be practiced in various manners within the scope not departing from the spirit of the present invention.
For instance, in the above embodiment, the holding section 34 of the holder 30 is tubular and provided with the notch from which the crimping projections 22, 24 can be projected outward. However, as shown in
When the holding section 34 is provided with the slits 36, it is easier to radially expand the open end of the holding section 34. Thus, workability of putting the securing ring 20 in the holding section 34 and removing the securing ring 20 from the holding section 34 can be improved.
It is not always necessary for the holding section 34 of the holder 30 to be formed tubularly. As shown in
When the holding section 34 is configured by the rod-shaped members provided in the protruding manner from the open end of the fixation section 32 as above, it is necessary to arrange at least three rod-shaped members radially around a central axis of the holder 30.
In the above embodiment, the fixation section 32 of the holder 30 is formed in a shape of a tube fittable with the flange section 14 of the connector body 10. However, as shown in
In the above embodiment, the holder 30 is configured separately from the connector body 10, and detachably attached to the flange section 14. However, the holder 30 may be integrally assembled with the connector body 10.
The coaxial cable connector in which the holder 30 is integrally assembled with the connector body 10 will now be described as a second embodiment of the present invention.
As shown in
Accordingly, a description concerning the same points as the first embodiment is omitted here, and different points from the first embodiment will now be described.
As shown in
The connector body 10 is formed by inserting the inserting section 12 from a side with a smaller diameter of the inserting section 12 through holes of the fitting section 16, the holder 30, and the flange section 14 in this order and press-fitting the insertion section 12 into the hole of the flange section 14. That is, the insertion section 12, the fitting section 16, the holder 30, and the flange section 14 are integrated to form the connector body 10 in the present embodiment. The holder 30 is formed of synthetic resin, while the other parts are formed of metal having electrical conductivity.
According to the thus configured connector of the present embodiment, it is possible to obtain similar effects to those in the first embodiment, and to more firmly position the securing ring 20 at a crimping position because the holder 30 is integrally assembled with the connector body 10.
In the present embodiment, it is preferable to make it easier to attach/detach the securing ring 20 to/from the holding section 34 of the holder 30 than in the first embodiment because the holder 30 is assembled with the connector body 10. Therefore, the slits 36 may be formed on the holding section 34, or the holding section 34 may be configured by three or more rod-shaped members as in the above-described variations 1 and 2.
In each of the above-described embodiments and variations, the fitting section 16 is formed in the shape of the hexagonal nut which can be screwed with the object to be connected such as the F-type relay, the F-type antenna terminal and so on. However, it is not always necessary to form the fitting section 16 into a shape of a nut having a screw thread thereinside. For example, an annularly deformed leaf spring may be provided on an inner wall surface of the fitting section 16 so that the fitting section 16 is connected to the object to be connected with a biasing force of the leaf spring.
Further, it is not always necessary for a periphery of the fitting section 16 to be formed hexagonally. The fitting section 16 may be cylindrically formed with a non-slip knurled surface provided on an outer peripheral surface thereof. Alternatively, the fitting section 16 may be covered with a non-slip annular member formed of elastic synthetic resin, rubber, or the like instead of being knurled.
It is explained above that the tip end of the coaxial cable 2 is processed in the conventional manner as shown in
Number | Date | Country | Kind |
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2007-079841 | Mar 2007 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/JP2008/050285 | 1/11/2008 | WO | 00 | 9/25/2009 |