There are robotic cleaning vehicles for liquid filled containers that are connected to an electrical power source by a cable. These vehicles often follow tortuous paths of travel in accomplishing their cleaning missions and this results in torsional stress building up in the cables as they twist to accommodate the motion of the vehicles. This torsional stress can be somewhat relieved if segments of the cables rotate with respect to other segments of the same cables. This can be facilitated by inserting swivel joints into the cables. However, such joints need to ensure good electrical contact between the cable segments, isolate the electrical contacts from the liquid in which the vehicles are immersed when in operation and prevent the separation of the cable segments from each other when an axial force is applied to the cable segments. It would also be helpful if the segments of a cable could be readily disconnected from each other at a location between the power source and the vehicle when the vehicle is not in operation. One approach is to effect the electrical connection between the cable segments using a classical stereo jack and socket that has been modified by the placement of an O-ring to isolate the electrical contacts from the immersion liquid. For instance, the socket and the jack can be extended to provide for a groove to accommodate an O-ring in one of them that is distal from the tip of the jack when it is inserted in the socket. Such an arrangement is inadequate to resist the axial forces typically experienced by the cable segments when there is not some other structure to isolate the joint from these axial forces. One such structure is a rigid right angle elbow that encompasses a cable segment but it does not always operate to allow relief of the torsional stress from the movement of the vehicle as efficiently as is desired.
One embodiment involves a cable grasping assembly having an end cap with a bore with a decreasing diameter from one end to the other, a cable holding sleeve constructed of a readily compressible material and a housing with an interior bore for accommodating a cable. The end cap has a screw thread on the interior surface of its bore and a ledge that projects inward from the interior surface of the bore adjacent to the end with the smallest diameter. The cable holding sleeve has a generally circular bore which extends over its axial length, a series of ridges which extend radially from its outer surface and which extend axially over a significant portion of its axial length and a collar at one end beyond the axial terminus of the ridges which extends radially from the outer surface of the sleeve. The housing has a series of fingers which extend from one end of the housing with gaps between them to accommodate the ridges of the cable holding sleeve and which have an axial length such that their free ends terminate at the collar of cable holding sleeve and a screw thread on the exterior surface of the housing and spaced from the free end of the fingers.
Another embodiment also involves a waterproof lockable disengaging swiveling electrical cable connector housing structure having a first housing having a cable support structure located within its bore for receiving a first electrical cable segment, a second housing having a cable support structure located within its bore for receiving having a second electrical cable segment and a locking sleeve operatively slidingly secured to the second housing and movable from a first position to a second position to lock the first housing to the second housing, such that the first housing is rotatable relative to the second housing when the locking sleeve is in the locked position.
In other embodiments the structure includes a male housing partially inserted into the bore of a female housing. Each housing has a generally cylindrical body with a cable support structure located within its bore. It also has an interior cylindrical recess to accommodate a cable grasping sleeve, with this recess being located adjacent to the end of the housing distal from the end involved in the partial insertion. Each housing has additionally has an engagement structure for engaging a reciprocal engagement structure on the other housing in such a way that the two housings are free to rotate about the cylindrical surfaces of each other when locked together via their engagement structures and a locking sleeve. It further has a mechanism for affixing an end cap over the exterior surface of the housing which is located adjacent to the end of the housing carrying the recess for a cable sealing sleeve. The structure also includes a sealing structure carried by one of the housings which establishes a water tight seal between the housings when the male is partially inserted into the female and a cable grasping sleeves seated in their recess the housings and constructed of a compressible material. The structure further includes two end caps, each with a mechanism which interacts with the mechanism on one of the housings to affix the end cap to the housing in such a way that the interior diameter of the cable grasping sleeve seated in the housing is decreased and each end cap having an aperture which aligns with the cable support structure located within the bore of its housing. The structure additionally includes a locking sleeve which is manually moveable into and out of interaction with the engagement structures of the two housings such that as a result of the interaction they are locked into engagement and in this locked configuration do not allow axial movement between the two housings.
A further aspect of the embodiments also involves a method of connecting an electrical power cable to a robotic cleaning vehicle for a liquid filled container by providing one electrical cable segment attached to the vehicle and another attached to a power source, equipping the free end of one cable with a classic stereo jack and the free end of the other cable with a classic stereo socket and inserting these free ends into the axially opposed ends of a waterproof lockable disengaging swiveling electrical cable connector housing structure described above such that the jack becomes will become seated in the socket to create two circuit paths when the housing is assembled. The method further involves affixing the end caps of the housing structure on their respective housings such that that housing's cable grasping sleeve grasps the cable segment inserted through its end cap, inserting the male housing into the female housing such that the jack affixed to one cable segment becomes will become seated in the socket affixed to the other cable segment to create two circuit paths and moving the locking sleeve to interact with the engagement structures of the two housings such that the two cable segments are securely held together against any axial force but are free to rotate with respect to each other.
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One embodiment involves constructing the sleeve 100 out of a heat shrinkable material. In this embodiment the sleeve 100 may be secured to the cable segment 42 by the application of heat.
One embodiment involves a composite cable grasping sleeve in which a cylindrical sleeve inner component is initially heat shrunk onto a cable segment and then an outer sleeve component with radial ribs like that illustrated in
In one embodiment, one or more of the elements of the housing structure 50 are fabricated from a thermoplastic material. In one embodiment the thermoplastic material is injection molded to yield one or more of the elements. In one embodiment, the housings 60 and 70, the end caps 110 and 120 and the locking sleeve 130 are fabricated from thermoplastic materials. In one embodiment the cable grasping sleeves 90 and 100 are fabricated from an elastomeric material.
In one embodiment, the housing 50 facilitates connecting cable segments 42 and 44 which run from the robotic cleaning vehicle 20 and the electrical power source 30, respectively, such that the segments 42 and 44 may rotate with respect to each other, with a water tight connection that can be submerged in the liquid in which the vehicle 20 is submerged. In one embodiment, one cable segment is terminated with a classical stereo jack and the other is provided with a classical stereo socket such that when the jack is inserted in the socket two circuit paths two circuit paths are created. These two segments 42 and 44 are inserted through apertures in the end caps 110 and 120 into the cable support structure 62 and 72 of housings 60 and 70, respectively, such that when the inner bore ends 65 and 75 are brought into contact with each other the jack seats within the socket to create two circuit paths. The end caps 110 and 120 are screwed onto their respective housings 60 and 70 and their inclined surfaces 114 and 124, respectively, cause a decrease in the diameter of the cable grasping sleeves 90 and 100 causing them to grasp the cable segments 44 and 42. The male housing 60 is partially inserted into the female housing 70 until the ends 65 and 75 of the inner bores 64 and 75 touch and the protuberances 71 of the female housing 70 seat in the detents 61 of the male housing 60. The locking sleeve 130 is moved into locking position so that it covers the protuberances 71 of the female housing 70 and the protuberance which it carries seats in a detent 61 in the male housing 60 through a slot in the female housing 70. The two cable segments 42 and 44 are now securely held together against any axial separation force but are free to rotate with respect to each other. In one embodiment, the release tab of the locking sleeve 130 is used to disengage the protuberance of the locking sleeve from its detent 61 in the male housing 60 and the locking sleeve 130 is moved into an unlocked position so it no longer covers the protuberances 71. An axial separating force is applied which causes the protuberances 71 of the female housing 70 to be drawn out of the detents 61 of the male housing 60 by their sloped rear surfaces 73 and the male housing 60 is withdrawn from the female housing 70. In this way the two cable segments 42 and 44 are separated from each other and the stereo jack is withdrawn from the stereo socket.
While only certain features of the invention have been illustrated and described herein, many modifications and changes will occur to those skilled in the art. It is, therefore, to be understood that the appended claims are intended to cover all such modifications and changes as fall within the true spirit of the invention.
This application is a Non-Provisional application claiming priority to the U.S. Provisional Application No. 61/788,162, filed Mar. 15, 2013, entitled “SWIVEL CONNECTOR”, of which is incorporated herein by reference in its entirety.
Number | Date | Country | |
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61788162 | Mar 2013 | US |