This invention relates generally to devices used to terminate unused cable ports, terminals or the like. More particularly, the invention is useful for, although not limited to, terminating an unused coaxial cable outlet terminal of the type employed in the cable television industry.
Community antenna television (CATV) systems are conventionally organized so that a communication signal generated at a central antenna can be received by several individual subscribers who are connected to a single coaxial cable that carries the signal. The system functions by connecting devices, such as directional taps, along the cable, and servicing subscribers with a drop line that is connected to one of the devices. Such devices typically have a plurality of output ports so that service can efficiently be provided to many subscribers in the same geographical area. Each of the output ports is usually a female coaxial plug to which the drop line for an individual subscriber is connected.
In many instances, the number of output ports on one of the devices exceeds the actual number of subscribers that are serviced by that device. In such instances, it is desirable to terminate the unused output ports. Termination of the unused output ports serves two principal functions. First, by terminating such output ports with termination devices that have impedances selected to match the impedance of the coaxial cable, there is no impedance mismatch between the signal-carrying cable and the active subscriber cables that are connected. Second, the presence of termination devices on the unused output ports acts to prevent theft of the cable signal by non-subscribers who could otherwise simply attach a coaxial cable themselves to any vacant output port. Alternatively, a termination device may be positioned between a previously used output port and the corresponding drop line when the service to that particular subscriber is suspended without requiring that the full wiring to that subscriber be removed. Service can be restored simply by removing the interposed termination device. The theft of cable services has become a growing concern of late as more sophisticated thieves have circumvented the available tamper resistant features of existing termination devices.
It is readily apparent that the security of these functions can only be achieved if the termination device is designed so that it is resistant to attempts by unauthorized individuals to remove it after it has been installed. As a result, in the prior art there have been developed termination devices that require the use of a special tool that is not available to the general public in order to remove the termination device. An example of such a termination device is described in U.S. Pat. No. 6,491,546 (Perry), the disclosure of which is incorporated by reference herein. In these patents, the termination device is of the type that includes a connector body that is rotatably encapsulated within a shield. This shield contains two ports: one port receives a cable terminal and the other port is used to provide access to a socket in the connector body. This socket is especially adapted to receive a specialized tool that can be used to rotate the connector body within the shield and thereby fasten or unfasten the termination device to an output port. In such prior art devices, however, the designs for the interaction between the termination devices and the specialized tools often make the tools difficult to use. Additionally, with other such prior art devices, more sophisticated cable-service thieves can visually identify and circumvent the structure of tamper-resistant features by using stolen, counterfeit or jerry-rigged tools.
Consequently, there is a need for more effective tamper-resistant terminations to counter the rising theft of cable services and sophistication of cable service thieves. Moreover, the device should preferably have a sealing member that is configured and dimensioned to provide a secure seal of any components within the connector body. Additionally, it should be possible for the device to be installed and removed easily by an authorized individual and resistant to attempts at removal by an unauthorized person.
It is a primary object of the present invention to improve cable systems.
It is a further object of the present invention to prevent the theft of service of a cable system.
A still further object of the present invention is to provide a tamper-resistant termination for an unused port in which the means for removing the termination is not apparent from a visual inspection of the device.
The present invention is directed to a tamper-resistant device for terminating a connection. The device includes a housing with an inner wall defining an inner bore and at least one recess in the inner wall thereof. The device further includes a connector body sized and configured to fit within the inner bore and rotate independently of the housing. The connector body has interior threads at its first end for engaging the threads of an unused cable port. The connector body also has at least one recess in its outer surface that will align with the recess in the housing in a particular rotational position. A locking member sized and configured to fit within either the first recess in the connector body or the second recess in the inner wall of the housing. The locking member is selectively moveable between a first retracted position and a second extended position to rotationally engage and disengage the connector body with the housing. In the first retracted position, the locking member is contained substantially entirely within either the first recess in the housing or the second recess in the connector body. In the second extended position, the locking member is partially disposed within the first recess in the connector body and partially disposed within the second recess in the housing. When the locking member is in the first retracted position, the housing rotates independently of the connector body. However, when the recesses are aligned and the locking member is placed in the second extended position, the connector body rotates together with the housing allowing the internal threads on the first end of the connector body to engage and disengage the corresponding threads on a cable port.
The housing has a second end which may have an inner wall defining a third recess. The outer surface of the second end of the housing may have external threads for attaching the unused coaxial cable and connector. Cable services can be reinstated simply by removing the termination and reattaching the connector to the port.
The connector body may be retained within the housing through the use of a snap ring which is disposed between corresponding grooves in the outer surface of the connector body and the inner wall of the first end of the housing. Alternatively, the connector body may be retained by other well known means of snap engagement, such as a protruding ridge on the outer surface of the connector body which mates with a corresponding groove on the inner surface of the housing.
The device may also include a sealing member, such as an O-ring or washer, disposed between the housing and the connector body. The sealing member may be retained in position by a groove in the connector body, the housing, or both. The sealing member will tend to prevent the migration of water, dirt and other contaminants that could cause corrosion or otherwise impede the independent rotation of the housing and the connector body while the locking member is in the first retracted position. The device may also include a resistor case mounted within the connector body for housing a resistor to match the impedance of the coaxial cable.
The present invention is also directed to a tool for engaging the housing and selectively moving the locking member between the first retracted position and second extended position. The tool may engage the housing in several different ways. In the first embodiment, the tool has a protruding pin or key on its face, that engages a correspondingly shaped recess or keyway on the second end of the housing. When the key mates with the keyway, rotation of the tool causes rotation of the housing. The keyway may be offset from or coaxial with the longitudinal axis of the housing.
The tool also provides a means for selectively moving the locking member between the first retracted and second extended positions. The means for moving the locking member includes a locking member which is composed of ferrous metal or magnetized material and a tool that includes a magnet. In the first embodiment, the member is formed of ferrous metal, such as iron or steel, and the center core of the tool includes a magnet. Alternatively, the member is formed of magnetized material wherein the magnetic pole at the distal end of the member is opposite to the pole at the leading end of the tool. In this embodiment, in the first retracted position, the locking member is disposed substantially entirely within a recess in the second end of the connector body. The recess is substantially parallel to and offset from the central axis of the body and housing, although other arrangements including coaxial and radial orientations are contemplated as within the scope of the invention. The magnetic force supplied by the magnet acting upon the locking member must be sufficient to attract the member and cause the member to move toward the second end of the housing. As the housing is rotated such that the first recess is aligned with the second recess, the magnetic force supplied by the tool will cause the end of the locking member to move partially into the recess in the inner surface of the housing and engage the housing such that further rotation of the housing causes the connector body to rotate and engage or disengage the corresponding threads of the connector body and the port in order to install and remove, respectively, the termination device to the port.
Alternatively, a locking member of magnetized material may be disposed in a first retracted position substantially entirely within the second recess in the housing. In this embodiment, the magnetic pole of the distal end of the locking member of the tool would be the same as the pole at the leading edge of the tool. Such an alignment would cause the locking member to move away from the leading edge of the tool into a second extended position. As the housing is rotated such that the first recess is aligned with the second recess, the magnetic forces supplied by the tool and the locking member cause the proximal end of the locking member to move partially into the recess in the second end of the connector body and engage the body such that further rotation of the housing causes the connector body to rotate and engage or disengage the corresponding threads of the connector body and the port.
In alternative embodiments, the third recess may be used as the keyway. For example, the recess could be hexagonally shaped to receive and engage a magnetized Allen or hexagonal wrench. Furthermore, the face of the tool could include a recess or keyway that mates with a protruding pin or key on the second end of the housing.
For a further understanding of these and objects of the invention, reference will be made to the following detailed description of the invention which is to be read in connection with the accompanying drawing, where:
In the description which follows, any reference to either direction or orientation is intended primarily for purposes of illustration and is not intended in any way as a limitation on the scope of the present invention. Also, the particular embodiments described herein, although being preferred, are not to be considered as limiting of the present invention. Furthermore, like parts or elements in the various drawings hereto are identified by like numerals for ease of reference.
In
In instances where the number of ports exceeds the number of subscribers in a given geographical area, a termination device 20 may be installed on an unused port 11A to prevent an unauthorized connection and theft of cable services. In instances where a residence has been previously wired, but is no longer subscribing to services, rather than removing an entire drop line, a termination device may be interposed between the port 11B and the drop line to the non-subscribing residence 13B. External threads 25 may be added to the termination device to retain the unused drop line should the particular residence re-subscribe. Cable service may be reactivated simply by removing the locking termination device and reconnecting the connector of the drop line to the port.
In
The housing 21 has a first end 22 which includes a first inner wall 24 defining a first inner bore. The inner wall 24 of the housing is sized and configured to house the connector body 30. The inner wall 24 may include one or more grooves 28 for the seating of a sealing member 50, a snap-ring 60, or both. The inner wall of the housing also includes a second recess 26 located and sized to align with the first recess 36 in the connector body in a particular rotational position. In the first embodiment, the second end 29 of the housing includes a second cylindrical inner wall 27 defining a third recess. The second end 29 of the housing 21 may also include external or male threads 25 for the mating of a coaxial cable connector of a drop line. The second end 29 of the connector body may also include a keyway 23, shown in
In
There may also be disposed in the proximal end of the first recess 36 a biasing member 45 that tends to retain the locking member 40 in the first retracted position until an external force selectively moves the locking member into the second extended position. In the first embodiment, the biasing member 45 is a small magnet that is press fit or otherwise adhered to the inner wall of the first recess in the connector body 30. This magnet imparts sufficient magnetic attractive force upon the locking member to retain the locking member in the first retracted position in opposition to gravitational or other forces otherwise acting upon the locking member. Alternatively, the biasing member 45 may be a spring or the like tending to keep the locking member retracted within the first recess.
Upon the insertion of the magnet 75 of the tool into the third recess, as depicted in
In
The housing 121 of the alternative embodiment has a first end 122 having an inner wall 137 defining an inner bore. The inner wall is sized and configured to house the connector body 130 and may have one or more grooves for the seating of the sealing member 150, a snap-ring 160 or both. The inner wall has a second recess 136 into which is at least partially disposed the locking member 140. The second end 129 of the housing has an inner wall 127 defining a third recess. In this alternative embodiment, the inner portion 124 of the third recess of substantially cylindrical shape for receiving a complementary shaped magnet 175. The outer portion of the third recess 123 is substantially hexagon-shaped for receiving a hexagonal-shaped shank 179 of the magnet of the tool 170. The hexagonal-shaped shank 179 and outer portion of the third recess 182 act as the key and keyway for exerting rotational force upon the housing 130.
In the alternative embodiment, the locking member 140 and the biasing member are magnetized materials with like poles facing each other. The repulsive magnetic force between the like poles tends to retain the locking member 140 fully within the second recess 126 in the connector body in a first retracted position such that the housing and the connector body rotate independently. When a tool 170 is inserted into the third recess, the stronger repulsive magnetic force applied by the magnet 175 of the tool causes the locking member 140 to move into a second extended position, as shown in
A second alternative embodiment of a termination device 220 of the present invention is depicted in
The housing 221 has an inner wall 224 defining a cavity with a first opening 225 at the first end 222 and a second opening 227 at the second end 229. The inner wall 224 of the housing is sized and configured to house the connector body 230. The inner wall 224 may include one or more grooves 228 for the seating of first and second sealing members 250 and 251, a snap-ring 260, or any combination of the three. As the cavity has two openings, it is preferable to use two sealing members to prevent the ingress of moisture from either direction or opening. The inner wall of the housing also includes at least one recess 226 located and sized to align with the lateral recess or recesses 236 in the connector body in a particular rotational position. While the complementary recesses shown in
At least one locking member 240 is at least partially disposed within a lateral recess 236 of the connector body or the complementary recess 226 of the housing. The locking member 240 is selectively positioned between a first retracted position in which the locking member is substantially fully disposed within either the lateral recess 236 or the recess in the inner surface of the connector body 226, and a second extended position in which the locking member is disposed at least partially within the lateral recess of the connector body and the complementary recess of the housing. When the locking member is disposed in the first retracted position, the housing rotates independently of the connector body whereby rotational movement of the housing does not rotate the connector body or engage or disengage the corresponding threads of the connector body and the port. In the second alternative embodiment of
Upon the insertion of the magnet 275 of the tool into the coaxial recess, as depicted in
While the present invention has been particularly shown and described with reference to the preferred mode as illustrated in the drawing, it will be understood by one skilled in the art that various changes in detail may be effected therein without departing from the spirit and scope of the invention as defined by the claims.