HUT77151A - Catv tap - Google Patents

Description

BACKGROUND OF THE INVENTION The present invention relates to a distribution device for a community cable television network comprising an input port (3) receiving an input signal transmission line and an output signal connection port. In essence, it is provided with means for disconnecting a first part of the power from the input signal and applying a second part of the power to the connection opening, and a detachable power distribution module for receiving the first part of the power and having at least one power transfer output.

(Figure J4

DISCLOSURE

COPIES

P9702204

Distribution device for community cable TV network

BACKGROUND OF THE INVENTION The present invention relates to a distribution device for a community cable television network, which is provided with an inlet receiving a line for transmitting an input signal, and a connection port for transmitting an output signal and, if necessary, a power outlet. The proposed distribution device can be used not only in public telecommunication systems but also in general-purpose telecommunications systems.

Cable systems in broadcasting networks are implemented in a variety of configurations, usually including cable from a broadcast or distribution station, and the signal transmitted in the cable is distributed to the subscribers of the system. The distribution is done at multiple points along the cable line. As a result, an input signal must be received at the distribution connector, some of which will be cut off and the remainder transmitted to the next connector on the network. When referring to a connector that does not disconnect a separate signal to subscribers, the term connector rather than distributor is used. However, this does not mean that the following applies only to distributors.

In many cases, it is necessary for the operator of the closed network to provide power to the subscribers and it is expedient to transmit this power through the cable line connecting the connectors, utilizing the main cable. Therefore, the cable is preferably configured to transmit power, often a low frequency AC signal and a high frequency signal such as a radio frequency signal. In this case, the additional function of the connectors, which act as distribution devices, is to share the power, i.e. to drain some of the power from the incoming combined signal.

Distributed devices that have become known and are currently on the market may not always be able to meet the specific operational or network requirements outlined above. Therefore, depending on the number of subscribers on each distribution device, the amount of damping needed and the power to be disconnected

85463-4547 / NE-Ko • · · ·

Depending on the size of the device, devices of different configurations shall be used. Reducing the number of variants is expedient, and there is a need for a distribution device that is essentially modular in design.

Our goal is to meet this need.

Our task is to create a distribution device which, by modular design, is capable of transmitting combined signals and providing the conditions necessary for disconnection of power to reduce the number of types required to establish a network.

To solve this problem, we have developed a distribution device for use in a community cable television network having a power port for receiving a combination of power and a high frequency part, a connection port for transmitting power and a high frequency part, and a power outlet for transmitting power. means for isolating the first part of the power from the input signal and providing it to the output port and another part of the power to the connection port.

Another object of the present invention is to provide a distribution device for use in a community cable television network, which is provided with an inlet receiving a line for transmitting an input signal and a connection opening for transmitting an output signal. and a detachable power distribution module for receiving the first part of the power and having at least one power output output.

In general, it is desirable to provide an embodiment of the distribution device of the present invention, wherein the power disconnecting means is adapted to single disconnect power from a combined power and high frequency portion of the signal. The module is particularly preferably provided with a low-pass filter or at least one element providing overcurrent and / or overvoltage protection, optionally at least two power transfer outputs, and preferably each of the power transfer outputs is provided with an isolation contact.

During installation and use, it is expedient that each of the power transfer outlets in the distribution device of the present invention is sealed, for example, with a gel, against environmental influences.

·· · · · ·

Also preferred is a dispensing device according to the invention which is provided with a cable connector having a hole in the outer surface of its housing accessible via a sleeve surrounded by a sleeve, where the cable connector is adapted to clamp the sleeve to the edge of the hole. a sealed seal is formed along the edge of the hole between the cable contact and the outer surface of the housing.

In a further preferred embodiment, the distributing device of the present invention is provided with means for disconnecting a first portion of the high frequency portion of the input signal and further for transmitting another portion of the high frequency signal derived from the input signal to the connection slot.

In general, it is expedient to provide an embodiment of a distribution device according to the invention comprising a signal transmitting and output circuit, which separates a first portion of the high frequency signal from the input signal, transmits it to the output port and transmits the second portion of the input signal to the connector port. and, if necessary, means for direct electrical connection between the inlet and the connection opening.

The invention will now be further exemplified. with reference to the accompanying drawings. In the drawing it is

Figure 1 is a perspective view of the distribution device of the invention, a

2A. Fig. 3 is a front elevational view of the distribution device of the present invention and the internal switch associated therewith;

2B. Figure 4 is a plan view of the distribution device according to the invention and the internal switch associated therewith;

2C. Figure 25 is a side elevational view of the distribution device of the present invention and the associated internal switch, a

2D. Fig. 3A is a side elevational view of the distribution device of the present invention and its internal switch;

3A. Fig. 11A is a perspective view of a distribution device with a power isolation input, a

3B. Fig. 3A is a perspective view of a distribution device with a power isolation input,

Figure 4 is a perspective view of a variant of a distribution device of the present invention with a power transfer module,

Figure 5 is a perspective view of another version of the distribution device of the present invention with a power transfer module;

Figure 6 illustrates one embodiment of a cable gland for a distribution device according to the invention, a

Fig. 7 shows another embodiment of the distribution device according to the invention for sealed cable insertion, a

8A. FIG. 4A is a further embodiment of a cable gland for a distribution device according to the invention, FIG

8B. Figure 8A. Figure 8C is a cross-sectional view of the outlet shown in Figure 8C. Figure 8A. Fig. 4 is a perspective view of the cable entry used for the distribution device shown in Figs

Figure 9 illustrates one embodiment of a cable gland for a distribution device according to the invention, a

Fig. 10 is another embodiment of a distribution device according to the invention for sealing cables, a

Fig. 11 is a further embodiment of the distribution device according to the invention for sealing the cables, a

Figure 12 illustrates a method of sealing optional openings in the distribution device of the present invention,

Fig. 13 is one embodiment of a removable cover element for use with a dispenser according to the present invention;

Fig. 14 is another embodiment of a removable cover element used in the distribution device of the present invention.

In accordance with the present invention, first of all, a distribution device (branching element) for use in the creation of community cable television systems and a distribution function (branching element) is provided, the structure of which essentially follows Figure 1. Fig. 1 shows a distributor 1 having housing 2 formed with a plurality of different openings. The openings in the housing 2 are accessible from the surface, through which input and output cables and wires can be routed, while its internal electronic circuits and switches assist in performing the required functions, thus dividing the input signal and / or separating the high frequency component from the power source. provide the necessary damping.

The distribution device according to the invention, i.e. the distributor 1 shown in Fig. 1, is located at several designated points of the main cable in cable television networks, where the signal must be shared or handed over to a particular subscriber. Therefore, it is provided with a distribution input 1 (3 inputs, if it is part of a distribution network 1, or 4 connection ports, for handshaking) and receives a cable that signals or resembles a signal from a cable service center. · ·

-5 bucks. Its output (i.e., an inlet 5 when part of a distribution network 1, or a port 6 if it is used for sharing) is also capable of receiving a cable which returns the forward signal or the remainder of the signal to the social network, e.g. it is forwarded to a distributor 1 having a structure similar to that shown here. Distributor 1 disconnects a portion of the input signal and delivers it to an outlet 7 which forms, for example, a branch cable to the subscriber. The number of outlet openings 7 can be varied as required, so that the distributor 1 can be provided with more than one, for example up to eight such openings.

The hub 1 does not necessarily serve to connect the main power cable, whether it is working on a network line or involved in the distribution and distribution of the input signal. In this case, it is sufficient to create only the inlet 3 or 5 or only the connection port 4 or 6. Unused openings are covered, sealed or sealed as needed.

Televisions or other equipment powered by the signal transmitted by the distributor 1 are generally connected to an external power source, which is usually supplied with 60 V AC. However, the required power can very well be provided by the distributor 1, which receives and distributes it through the main cable inserted into the inlet 3 or the connection port 4. The main cable thus receives a power signal in combination with a high frequency signal (for example, a radio frequency signal, usually abbreviated as RF).

In the distribution device according to the invention, the power transmission cables, as in the prior art, are inserted into the outlet openings 7 from which they lead to the consumers and are also suitable for transmitting the high frequency signal power to the subscriber. This solution may be appropriate, but should be avoided if the subscriber does not operate the unit at 60V or around, so do not expect such a voltage on the splitter cable. In this case, the power supply should preferably be provided from a separate power line.

The distributor 1 is accordingly provided with a power outlet 8, and therefore a portion of the power received on the input cable line is cut off by the distributor 1, delivered to the outlet 8, while the remainder is transmitted through the inlet 5 or connection 6 and so it goes to the next 1 hub in the network. If necessary, the distributor 1 is provided with a low pass filter which separates the high frequency signals from the distributed power signal and prevents them from passing.

Alternatively, the distributor 1 is formed by a notch 9 or similar recesses, possibly with protrusions which, at the corresponding opening, are · ·

Separating from the surrounding environment, they facilitate the task of insulating the input cables and are suitable for catching sealing caps, where appropriate.

2A. Figs. 1 to 5 also show an arrangement similar to the distributor 1 according to the invention, shown in Fig. 1. 2A. Fig. 4a is a rear elevational view of the distributor 1 in a substantially planar section, substantially parallel to the level of the paper carrying it. 2B. 2A. Fig. 2C is a plan view along the arrows shown in Figs. and 2D. Figures 1 to 4 show the distributor 1 in a direction perpendicular to the preceding direction.

2A, 2B, 2C. and 2D. Figures 3 to 5 show the location of the housing 2, the inlet 3 and the connection opening 3, the inlet 5 and the connection opening 6, and the openings required for the distribution of the hand.

The openings listed here allow the connection of coaxial cables, but this obviously does not exclude the use of other types of cables. Preferably, recesses are provided in which cable distribution terminals built into the cable end can be inserted, or where appropriate, to accommodate stripped-end cables. The inner conductor of the coaxial cable is connected to pin 10, while the outer conductor can be connected to pin 11.

To implement the distribution device according to the invention, the arrangement shown here uses a switch 12 comprising movable contacts 12A and 12B, whereby the inlet 3 and the connection opening 4 can be electrically connected to the input opening and the connection opening 6. As a result, when the switch 12 is closed, the input signal directed from the inlet to the connection port passes through the distributor 1 according to the invention without any part being distributed.

Switch 12 should be opened when the circuits needed for the hand are inserted. The direct current path between the inlets and the connection openings is then interrupted, after which the distribution circuit provides the necessary electrical connection and the distribution of the divided portion to the conductor in the outlet 7. 2A, 2B, 2C. and 2D. 1 and 2, the switch 12 is shown closed. The circuit can also be mounted on a removable cover plate, thereby providing the circuit shown in FIG. 2A. 9A, when placed in place, increases the distance between the movable contacts 12A and 12B.

The lower surface of the housing 2 is defined by a metallic element, such as in Fig. 2B. The wall on the right can be used as a reference plane. The structure of the switch 12 is preferably such that its moving parts move in a plane parallel to this reference plane, since • · · ·

In this case, the high frequency characteristics of the distributor 1 do not change as the moving contacts 12A and 12B move.

The switch 12 is also useful for the distribution device of the present invention, even if the switching circuit is not used, its presence facilitating the operation of additional distributors 1 in the network. Removal of the hand circuit may be desirable, and may be replaced by other circuits as needed, such as multiple or less branching, hand circuits, modules carrying repair and modification units. It is recommended that the removal of the circuit does not cause any momentary malfunction of the circuit, so the physical removal process should ensure that:

1. maintaining an electrical connection between the inlet 3 and the connector 4;

2. electrical disconnection of the circuit between the input and the connector.

Subsequent switching of the circuit must have similar consequences, in which case a current path between the inlet and the connection opening is created through the circuit, the direct connection being made by actuating the switch 12.

When connecting between the inlet and the outlet through the switch 12 and the splitter connection circuit, the circuit must remain in place. Therefore, it is expedient for the circuit to move, during position change, to the position at which the connection is established, the disconnection has not yet taken place and the position is unstable.

It is highly desirable that a single movement (such as moving out of the door 2 along a straight line) provides the required connection or disconnection. It is also advantageous when the physical removal itself is the one that establishes the connection or provides an interruption, for example, instead of using a pop-in or opening a locking member.

Preferably, the switch 12 may be mechanically or optionally electronic, preferably activated mechanically by direct mechanical and physical movement of the circuit or cover member, which may be provided with an outwardly extending member for its grip.

2A, 2C. and 2D. FIG. 4A illustrates a variant of a distribution device according to the invention comprising a power transmission element 13. The power transfer element 13 may be a portion of the power transmitted from the inlet 3 or the terminal 4 to the inlet 5 or terminal 6 of the incoming cable line • · ··· ·

-8, that is, to provide power to a designated subscriber or subscriber group. Preferably, the power transmitting element 13 acts as a low pass filter or other low frequency power transmitting element, i.e., after being processed, the transmitted signal lacks the high frequency, radio frequency and the like signals that are essential for broadcasting. This is particularly advantageous if the power transfer element 13 is essentially utilized as a power disconnection device that provides power to subscribers. Alternatively, power may be deducted from the center point of a coil. An example of such a possibility is shown in Fig. 1, according to which the outlet 8 can be utilized for this purpose.

The power transmitting element 13 thus optionally performs a filter function in the distributor 1 or its body. Although its filtering function may be satisfactory, additional filtering may be required where appropriate. This additional filtering may be provided by the additional power distribution module described below.

In the distribution device according to the invention, the cover closing the outlet opening 8 is shown in Fig. 3A. 3B. can be removed as shown in FIG. Optionally, the lid may be removed by simple removal or unscrewing as shown in FIG. 3A. 3B, but when made as part of the housing 2 of the distributor 1, the cover integral or permanently attached to the material of the housing 2 must be cut off as shown in FIG. 3B. is shown.

According to Fig. 4, the distributor 1, together with the cover removed from the outlet 8, can be located on an outer surface of the housing 2. In this case, a sealing material 15, such as a gel or the like, is used to seal the interior of the outlet 8. A power distribution module 16 is connected to the distributor 1, for example, internal and external coaxial contacts 17 are provided in the current path, which are formed in the module 16, while matching outlets are provided in the outlet 8.

The module 16 may be clamped to the housing 2 by a snap or other connection with the damper 19A, but may optionally be provided with a pin or other element provided in the opening 19B.

Referring to Figure 5, the dispensing device of the present invention is preferably arranged and gripped on the surface of the housing 2. It is particularly preferred that the module 16, which is a removable unit, does not alone provide power distribution or separation of the high frequency signal from the input signal. Even more advantageous is the arrangement whereby the units for the initial distribution of power are placed in a protected position in the body 2 of the distributor housing.

-9Α 16 modules can perform one or more functions considered necessary. Module 16 may be capable of distributing power by distributing power received at outlet 8 in housing 2 of distributor 1 to at least two 20 outputs and / or at outlet 8 having two or more different types of outputs such as outputs, by means of which 21 distributors with twisted wire pairs can be realized. This type of power transfer outputs can be equipped with structural solutions to prevent insulation movement and to prevent wire slipping. Each of the outlets preferably has means for connecting two wires, so that both members of the twisted pair of wires 21 can be gripped simultaneously. Each of the outputs uses a gel or other material or structure that can perform the function of isolating it from the environment. The number of outputs is basically equal to the number of outlets, since in most cases each subscriber has a system that requires a dedicated power line.

A further or alternative function of the module 16 may be filtering. The distributor 1 is generally not provided with a filter by itself, so that high frequency signals cannot be removed from the input power unless a separate filter unit is constructed. Module 16, which performs the filtering function in low-pass or other range as needed, may help.

As an additional or alternative option, an electrical protection (security) arrangement for the proposed distribution device is also provided. Module 16 can be supplemented with overcurrent or surge protection, so that no current or high voltage is present in the arrangement that damages circuits or components for receiving and transmitting signals, or damage equipment to the subscriber station. The protection means are also suitable for protecting subscriber equipment against overcurrents or surges on the main line between the two distributors. These auxiliary units are preferably rebootable devices and, more particularly, are automatically started. Examples of overcurrent protection devices include conductive polymeric materials, such as those marketed by Raychem as Polyswitch.

Figures 6, 7 and 8 show examples of how the cables 22 are to be secured and sealed in the outlets 7. As shown in FIG. 6, the cables 22 terminate in distribution terminals 23 which are secured by screws or other suitable fasteners to the outlets 7. The 23 distribution connectors, the

The sections of the cables 22 adjacent to each other are protected from environmental influences by, for example, being pulled over 24 sleeves. Preferably, the sleeves 24 are provided with an elastic plastic material within their interior, optionally containing a sealing material 15, such as a jelly, and a snap-on member 26 which engages as a latch after being inserted into the notch 9 of the outlet. The surface of the sleeves 24 may be corrugated, which may facilitate their bending, extension, and compression. One of the sleeves 24 is shown before being pushed into the outlet 7, and is provided with a cover 25 capable of closing the cable passage and thereby closing the sleeve 24 to an empty opening. To illustrate the internal structure, the sleeve 24 is shown in partial excision.

Figure 7 shows an alternative way of sealing the sleeve 24. Shown here is a sealing sleeve 27 which is capable of encircling a particular through body and can therefore be placed around a cable 22 when inserted into the outlet 7. The sealing sleeve 27 is comprised of two parts, which are connected to one another along the joint 28 and, by means of their snap elements, keep the respective openings closed. The distributor connector 23 can be secured to the outlet 7 by means of a special tool 30, which is particularly useful if the distributor connector 23 is too short and does not protrude sufficiently from the surface of the outlet 7 as shown in the top right. The sealing sleeves 27 surrounding the sealed member can be secured in position by snaps 26 and a notch 9 to create a position where re-opening is not possible without damaging the elements and is advantageous because of the long-term protection of the distributor 1. unauthorized access, unauthorized removal of the signal.

The sleeves shown in Figures 6 and 7, and in particular the sleeve shown in Figure 6, can be used with different sizes of cables and openings.

8A, 8B. and 8C. FIG. 6A shows how a particular opening can be sealed with an outer sleeve following the structure shown in FIG. 6 or FIG. Here, an outlet opening 7 is shown which, in particular, has a threaded contact 7A which is accessible through an opening 32. The opening 32, defined by the protruding surface of the cylindrical wall surrounding the threaded contact 7A, is formed on the outer surface of the distributor 1. A sleeve 33 is provided around the threaded contact 7A, and when the distribution connector 23 is clamped to the threaded contact 7A by means of a thread or otherwise, the sleeve 33 is forced to contact the edges of the opening 32, which when properly applied to the distribution connector 23 between the outer surface and the seal means airtight sealing.

-11 ·· ··· «

Figures 9 and 10 show an arrangement of a wrap-around seal and / or sealing sleeve 27 for sealing the main cables 35 in the respective openings. The sealing sleeve 27 may comprise a gel or other sealing material. In structure, it resembles the sleeve shown in Figure 7, the difference being in size, the sleeve 27 being larger.

Figure 11 shows a bellows-type sleeve 24 surrounding the main cable 35, similar in structure to the sleeve shown in Figure 6.

Fig. 12 shows a sealing cover 36 containing a gel or other sealing material for closing the connection opening 4. The figure shows a sealing cover 36 in position.

The sealing cap 36, the sleeve 24 and the sleeve 27, and other means of isolating from the environment, may be provided, if necessary, with means for applying the gel or sealant therein or otherwise used therewith. tenable. It may be necessary to keep the sealant under pressure since it may be in contact with the surfaces to be sealed. Compression is also made possible by the resilience of the covers and sleeves and / or the housing 2 of the distributor 1. Alternatively, additional or alternatively snap-in sliding elements may be used.

Preferably, the sealant comprises a gel based on a polymeric, oil-grown plastic. Preferably, this composition has a ball pressing of 80 and 400, preferably 200 and 400 (10 ' ¹ mm) according to ASTM D-21768, having a tensile elongation of at least 100% (as measured by ASTM D-638-80), but preferably at least 200%. A further preferred limitation is that the tensile strength measured according to ASTM D-412 is at least 1 MPa, and its dynamic elastic modulus is at least 50 kPa at 100 ° C, preferably at 120 ° C. Materials having such properties, in particular gels, have the essential advantage that they are self-sealing. This means that the conditions for isolation from the environment are automatically recreated after the cable, wire, module or circuit board is removed.

13 and 14 show the distributors 1 with housing 2 and cover 37. As shown in Figure 13, the cover 37 is provided with a physically removable circuit having a disconnecting member 38. A portion of the disconnecting elements 38 serves to disconnect the first portion of the incoming signal at the inlet 3 and to transmit it to the outlet 7, while the other portion of the incoming signal is also provided to the corresponding terminal 6. 13 and 14, these openings are shown closed. By removing the cover 37, the housing 2 can be opened and the circuit can be removed. The circuit

-12 ·· ·· "·· • · · · · · · · · • • • · · · · · · ·· ···· highlight will be carried out expediently, that the elements involved in the teljesítményleosztásban change in the two-house situation not be forced.

As shown in Figure 13, the outlet openings 7 are mounted on the opposite surface 39 of the distributor 1 to the cover 37 at the distributor connector, thereby removing or replacing the cover 37 causes the current path between the electrical circuit and the corresponding opening to be interrupted or re-established. Within the distributor 1, a plurality of distribution connectors (not shown) may be provided for each of the outlets and inlets, which may form parts of the electrical circuit at particular points.

14, a removable cover member 39 'is provided for the outlets 7. The connection between the outlets 7 and the electrical circuit may be permanent, but the disadvantage is that when accessing the interior of the distributor 1, when replacing the covers and the circuit, the outlets 7 must be used and the elements therein touched. need.

Claims (19)

PATENT CLAIMS A distribution device for a community cable television network comprising an input port (3, 5) receiving an input signal transmission line and an output port (4, 6), characterized in that a first part of the power is isolated from the input signal and the other part is provided with a detachable power distribution module suitable for receiving a first part of the power and having at least one power transmitting output, in the connection opening (4, 6). Distribution device according to Claim 1, characterized in that the means for disconnecting power is adapted to single disconnect the power from a combined power and high frequency part signal. Distribution device according to claim 1 or 2, characterized in that the module is provided with a low-pass filter. 4. Distribution device according to one of Claims 1 to 3, characterized in that the module is provided with at least one element providing overcurrent or surge protection. 5. Distribution device according to any one of claims 1 to 3, characterized in that the module is provided with at least two power output outputs. Distribution device according to one of Claims 1 to 5, characterized in that a contact preventing the movement of insulation is provided in each of the power transmission outputs. 7. Distribution device according to any one of claims 1 to 3, characterized in that each of the power transmission outputs is sealed against environmental influences. Distribution device according to claim 7, characterized in that a sealing gel is provided in the power transfer outlets. 9. Distribution device according to any one of claims 1 to 4, characterized in that the module is arranged in a removable manner without removing the power disconnecting elements. Distribution device according to Claim 9, characterized in that it is provided with a power transfer output adapted to the module. Distribution device according to Claim 10, characterized in that the power transfer output is formed on the outer surface of the housing (2). Distribution device according to one of Claims 1 to 11, characterized in that it is arranged on the outer surface of the module housing (2). -14 ··· »* • · · · · · _Ζ ΛΛ •" · · · · · · * * * · ** 13. Distribution device according to any one of claims 1 to 4, characterized in that the cable connector is provided with an opening (32) accessible through a hole formed on the outer surface of its housing (2), the sleeve (33) being inserted when the cable connector is inserted into the opening (32). ) is adapted to clamp the hole to the edge of the hole so that a sealed seal is formed along the edge of the hole between the cable contact and the outer surface of the housing (2). 14. Distribution device according to any one of claims 1 to 3, characterized in that it comprises a power output output receiving a disconnected first part of the power and optionally adapted to the module. Distribution device according to one of Claims 1 to 14, characterized in that it is provided with means for separating a first part of the high frequency part of the input signal and in the connection opening (4, 6) of the other part of the high frequency signal obtained from the input signal. trained to transmit. Distribution device according to claim 15, characterized in that it has an outlet for receiving the first part of the high frequency signal. 17. A distribution cable for a network cable television network comprising a power receiving cable (3, 5) receiving a combined power and high frequency portion, a connecting port (4, 6) carrying a combined power and high frequency component, and a power outlet (4, 6). 7, 8) characterized in that it is provided with means for isolating only the first part of the power from the input signal and feeding it to the outlet (7, 8) and the other part to the connection (4, 6). . 18. Distribution device according to any one of claims 1 to 4, characterized in that the signal transmitting output port (7, 8) and separating the first part of the high frequency signal from the input signal, transmitting it to the output port (7, 8) and the second part of the high frequency signal. an input circuit (3, 5) to a connection opening (4, 6). Distribution device according to Claim 18, characterized in that it comprises a means for establishing a direct electrical connection between the inlet (3, 5) and the connection (4, 6). Our file number: 85463-4547 / NE-Ko Our administrator: Ernő Nagy r Touching the notifier instead Szabadak ii da Kft. ···· · · · · P9702204 PUBLISHING PAPER X Fig.2. ^3/9 Ρ97022Λ4 DISCLOSURE COPIES Fig.3. Fig.3B. ^: · PUBLISHED COPIES _4/5 P97Q2204 Ρ9702204 PUBLICATION LITERATURE Fig.7 Fig.ec