JP3703887B2 - Turnout - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to a branching device, particularly to a branching device suitable for CATV.
[0002]
[Prior art]
The CATV transmission cable is drawn into the home of each subscriber via a branching device, and the station also sends out current for operating amplifiers of the trunk amplifier along with high-frequency signals such as television signals and control signals. .
Therefore, products that do not consider the passage of current in the branching device and products that support current passage by incorporating a current-passing circuit in the high-frequency transmission path from the cable connection part to the branching terminal via the branching circuit and the distribution circuit Is also set.
[0003]
[Problems to be solved by the invention]
When a current passing circuit is incorporated in a high-frequency transmission path to obtain a current passing specification, if the passing current value increases, the branch circuit and the distribution circuit need to have a capacity that can cope with the high current value, resulting in an increase in size.
Further, if a high current flows in the branch circuit or the distribution circuit, the whole or a part of the circuit may be damaged due to overheating, or the characteristics may be changed due to the influence of heat to deteriorate the performance even if it is not broken.
Furthermore, when the cable connection portion is provided with a terminal for making an electrical connection between the installed lid body and the main body provided with the branching (demultiplexing) terminal, when the positioning is performed while shifting the lid and the main body, The terminal tends to bend without following the relative movement between the lid and the main body, and the electrical connection tends to be incomplete.
[0004]
[Means for Solving the Problems]
The present invention includes a current passing circuit that allows current to pass between input / output terminals that are electrically connected to the cable connection portion, a high-frequency passing circuit that allows input / output of a high-frequency signal input from the input terminal, and a lid motherboard and a branching unit for a high-frequency communications signals to branch output is assembled outputted, the body whether we made the tap plate is assembled with a branch output terminals, in the middle of the transmission cable In the branching device to be inserted and connected, the current passing circuit connecting the cable connecting portion and the branching terminal is configured to be separated from the high-frequency transmission path, and the configuration is provided on the lid body of the motherboard. While providing a current passing contact electrically connected to the input terminal, a current passing contact is also provided on the main body corresponding to the current passing contact. A current passing circuit can be formed between the input terminal of the motherboard and each branch terminal by the connection, and a switch that allows high-frequency signals to pass between the input and output terminals by removing the branch unit is provided on the motherboard. is there.
The current passing contact is a pin type urged in the protruding tip direction by a spring force, or two or more cable connection portions are set in the branching device, and three or more cable connection portions are set in the branching device. Can be selected from among the cable connections of the three or more lines, or the current passing contact can be electrically connected to the cable connecting portion at the shortest distance, or the current passing contact can be inserted through a pin. It is desirable to cover with a plate having a hole, or to provide a fitting portion having different left and right shapes between the lid and the main body.
[0005]
【Example】
An embodiment of a branching device according to the present invention will be described based on the drawings with respect to a model in which cable connection portions are set for three lines, and aerial type and pedestal type can be selectively used and the number of branch terminals can be changed. To do.
1, 2, and 3, reference numeral 1 denotes an aluminum die-cast lid that is open on one side. The lid 1 is one of the case components, and the lid 1 has a lid on one side. The cable connection part 2 for one line is provided with cable connection parts 3 and 4 for two lines on the other side, and these cable connection parts 2, 3, and 4 are all located at the corners, Connector screw holes 2a, 3a, 4a for cable insertion are provided on the end face in the longitudinal direction, and screw tightening operation holes are provided on the surface along the longitudinal direction, respectively, and these screw tightening operation holes are blind bolts 2b. , 3b, 4b.
In addition, the circuit housing portion 5 corresponding to the center in the lid 1 has two locations on the upper left and right sides of the center point P of the lid 1 and one location that is vertically related to the right of the two locations. The trunk connection terminals 5a, 5b, 5c are provided at a total of three locations, and these trunk connection terminals 5a, 5b, 5c are connected to the cable connection parts 2, 3, 4 with the trunk connection terminal 5a and the cable connection part. 2. The main line connection terminal 5b and the cable connection part 3, and the main line connection terminal 5c and the cable connection part 4 are connected by transmission lines 6, 6 and 6, respectively.
[0006]
As shown in FIGS. 4a and 4b, the transmission line 6 has a semicircular cross section integrally formed on the inner surface of the lid 1, and has a central conductor in a groove 6a in which shield walls are erected on both sides. The conductive rod 6b made of brass or copper has a coaxial structure in a non-contact state with the inner wall of the groove 6a.
In addition, a dielectric block 7 having a cross-sectional outer shape equal to the concave groove 6a and penetrating the rod insertion hole is interposed in the concave groove 6a so as to be partially movable in the groove direction. Yes.
The transmission line 6 having such a structure is incorporated in the inner wall surface of the case, and can have a degree of freedom in the thickness of the conductive rod 6b as the central conductor, and shows an end surface of the AA line in FIG. As described above, since the air layer S is secured between the inner wall of the concave groove 6a as the outer conductor and the conductive rod 6b, not only can the transmission loss be reduced and a high current value can be accommodated, but also the dielectric block 7 The high-frequency characteristics can be changed by moving in the groove direction, and can be adjusted to appropriate high-frequency characteristics.
The dielectric block 7 is preferably formed of Duracon (trade name: manufactured by Polyplastics Co., Ltd.). The dielectric block 7 may be formed of another synthetic resin having the same electrical characteristics as the Duracon, or may be previously positioned at the design stage. When it is determined, as illustrated in FIG. 6, a plurality ( two in the embodiment ) may be provided in the groove 6 a or fixed.
In that case, it split the respective dielectric blocks 7 and 7 as shown in the upper and lower two, two upper half connected by arms 7a, if so to screw the arms 7a to the lid 1, It can be incorporated efficiently.
In addition, a slit cylinder 8 with a slit is integrally fixed to the conductive rod 6b on an extension of one end thereof, and the split cylinder 8 is sandwiched by the clamping block 9 at the cable connecting portion 3 (2, 4). It is supported in a state of being sandwiched by.
The holding block 9 has a hinge structure on one side, and a holding groove 9a for holding a split cylinder is formed on the dividing surface. The holding block 9 is located at the cable connection position on the inner surface of the lid 1 and the concave groove Positioned in a block housing portion 9b formed continuously with 6a, the split cylinder 8 is sandwiched between the holding groove 9a, and a screw 9c is used from the side as shown in FIG. It has come to be fastened.
Therefore, if the connector 10 attached to the end of the transmission cable is screwed into the connector screwing hole 3a (2b, 4c) of the lid 1, the pin 10a of the connector 10 is inserted into the split cylinder 8, and the screw 9c is fastened. The pin 10a of the connector 10 and the split cylinder 8 are firmly and securely fastened and joined by the holding block 8.
The clamping block 8 is provided with a metal abutting plate 8a on the contact surface with the screw so that the clamping block 8 can be prevented from cracking and deforming and the fastening pressure acts on the entire surface. The fastening operation of the screw 9c can be performed from the outside through the screw fastening operation hole by removing the blind bolt 3b (2b, 4b).
[0007]
Reference numeral 11 denotes a mother board. On the back side, power transmission terminals 12 and 12 as input / output terminals are provided at intervals corresponding to the distance of the main line connection terminals 5a and 5b (5b and 5c), and on the front side, relay terminals 13 and 13 are provided. The relay terminal 13 and the power transmission terminal 12 are connected by a high-frequency passage circuit 14 that allows a high-frequency signal to pass through a capacitor 14a, and the power transmission terminals 12 and 12 are further connected to a coil 15a. Are connected by a current passing circuit 15 interposing.
The current passing circuit 15 is covered with a cover.
The motherboard 11 is provided with guide holes 17, 17,... Corresponding to the guide pins 16, 16,... Projecting from the lid body 1, and the main line connection terminals 5a, 5b, 5c are visible when mounted. Without inserting the guide pins 16 into the guide holes 17, for example, the power transmission terminals 12 and 12 can be easily positioned so as to be connected to the main line connection terminals 5 a and 5 b, respectively. Is fixed to the lid 1.
The motherboard 11 is also provided with screws at the positions of the power transmission terminals 12 and 12, and the power transmission terminal 12 and the main line connection terminals 5b (5a and 5c) are connected in a pressure contact state.
That is, each main line connection terminal 5a, 5b, 5c is provided with a resin base 19 at the dead end portion (see FIG. 4) of the concave groove 6a, and a screw hole 20 is formed on the base 19. The end of the conductive rod 6b is positioned. On the other hand, the mother board 11 is provided with a first land portion 22 around the screw hole 21 as shown in FIG. 8, and is made of metal such as brass or iron. The screw 22a formed of the above-described material is screwed into the screw hole 20 of the main line connection terminal 5b, so that the head of the screw 22a is brought into close contact with the first land portion 22, and the first land portion 22 is electrically conductive. The rod 6b is electrically connected.
The main line connection terminal 5b (5a, 5c) has a pedestal when the conductive rod 6b is securely supported in the concave groove 6a by the two dielectric blocks 7, 7 as shown in FIG. It can be omitted.
A ring-shaped second land portion 23 that is insulated from the first land portion 22 and is partially cut out is formed on a concentric circle outside the first land portion 22. The land portion 23 is electrically connected to the lid 1 through a contact piece 23a projecting from the back surface, and the main line connection terminals 5b (5a, 5c) are connected coaxially to the power transmission terminal 12 (see FIG. 9).
Further, the mother board 11 is formed with slit-like locking holes 24 and 24 at positions outside the power transmission terminals 12 and 12, respectively.
[0008]
Reference numeral 25 denotes a box-shaped branch unit. One side of the branch unit 25 is provided with connection terminals 26 and 26 'corresponding to the relay terminals 13 and 13 of the mother board 11, and the other side is provided with a branch terminal 27. The connection terminals 26 and 26 'and the branch terminal 27 are connected to a built-in branch circuit.
Further, the branch unit 25 has one connection terminal 26 set as an input side and the other connection terminal 26 ′ set as an output side, and has directivity with respect to a high frequency signal. Locking claws 28 and 28 are projected toward the surface side where the connection terminals 26 and 26 'are provided.
When the branch unit 25 is locked to the mother board 11 by inserting the locking claws 28, 28 into the locking holes 24, 24, the relay terminals 13, 13 and the connection terminals 26, 26 'are connected. And are attached in a connected state.
Note that the branch unit mounting means for the mother board may be changed as appropriate, such as locking the guide piece in the locking hole or fixing it using a screw or clip.
The motherboard 11 is provided with a push-type switch 29. When the branch unit 25 is mounted, the motherboard 11 is turned off by being pressed on the outer surface of the branch unit 25, and the pressure is released by removing the branch unit 25. When it is released, the relay terminal 13 is turned ON to short-circuit between the relay terminals 13 and 13, and the high-frequency signal is allowed to pass between the power transmission terminals 12 and 12.
Since the mother board 11 includes the current passing circuit 15, regardless of whether or not the branch unit 25 is mounted, the power transmission terminals 12 and 12 have a function of passing a current and a high frequency signal. .
[0009]
Reference numeral 30 denotes a tap plate . The tap plate 30 is assembled on the inner surface of the main body 31 which is another member constituting the case, and functions as a distribution circuit and four branch output terminals exposed on the main body surface. Are provided with input terminals 33 corresponding to the branch terminals 27 of the branch unit 25, and the cable connection portion 3 a of the lid 1 and the distribution circuit of the main body 31. Are provided between the current passing contacts 34 and 35 and the distribution terminals 32, 32,... As branch output terminals. current passage for lines 36 connecting the individually be incorporated to the tap plate 30, the main body 31, by attaching to cover the opening surface of the lid 1, an input terminal 33 to the branch terminal 27 With the connection, the contact 34 and 35 to each other for current passage becomes the connected state, apart from the high-frequency passing path, independent current passing path is formed.
As shown in FIG. 10, the current passing contact 35 is erected and fixed to the printed circuit board of the tap plate 30 by soldering the base end, and is urged toward the protruding tip by a coil spring 35a. In the case where the position is shifted with respect to the insertion type current passing contact 34, the tip of the current passing contact 35 comes into contact with, for example, a protection plate 41 described later. When the coil spring 35a is compressed and retracted and a) in FIG. 11 is moved relative to the main body 31, the lid 1 moves smoothly according to the amount of deviation, and the two contacts coincide. Further, the current passing contact 35 protrudes, and the current passing contact 35 is electrically and mechanically connected by the compression force of the coil spring (b in FIG. 11). There. Further, a positive temperature coefficient thermistor (trade name: Polyswitch RXE065, manufactured by Raychem Co., Ltd.) 37 is interposed in the current passing line 36, and the positive temperature coefficient thermistor 37 is individually provided for each distribution output terminal. The connector 38 is connected to a current passing line (trade name: VH series connector, manufactured by Nippon Crimp Terminal Co., Ltd.) 38, and is provided in a state where it can be attached and detached with one touch. The lid body 1 and the main body 31 have different shapes in the left and right fitting parts and have directionality when assembled, and a tongue piece 39 projecting from the lid body 1 is formed in the main body 31. It can be assembled only by being inserted into the guide groove 40, and cannot be assembled when the left and right sides are reversed. When assembled, the current passing contacts 34 and 35 are always connected. Further, the current passing contact 34 is directly connected to the split tube located in the cable connecting portion 3 by the current passing cable 34a, and usually the upper surface thereof is covered with a protective plate 41 having a terminal insertion hole 41a, There is no transmission loss between the cable connecting portion 3 and the current passing contact 34, and it is protected from an electric shock accident in which a fingertip or the like is accidentally brought into contact with the current passing contact 34 during work. The protective plate 41 is made of a slippery material such as ABS resin so that it has excellent insulating properties and can be smoothly displaced while the tip of the current passing contact 35 is kept in contact therewith.
[0010]
When the branching device thus formed is mounted so that the connection terminal 26 of the branch unit 25 is connected to the cable connection portion 2 side and the connection terminal 26 'is connected to the cable connection portion 3 side, respectively, as shown in FIG. As shown in FIG. 2, the cable connection portion 2 functions as an aerial type with the input terminal and the cable connection portion 3 as an output terminal. Here, if the input terminal and the output terminal are to be reversed, the branch unit 25 is temporarily removed, rotated 180 degrees horizontally, and the connection terminals 26 and 26 ′ are connected in reverse to the relay terminals 13 and 13. Can be easily changed (b in FIG. 12). Also, in order to be compatible with the pedestal type, once the motherboard 11 is removed and rotated 90 degrees clockwise as shown in FIG. 12c, the connection terminals 26, 26 'are connected via the power transmission terminals 12, 12. The cable connection part 3 can be changed to an input terminal and the cable connection part 4 can be changed to an output terminal. If you want to reverse the input terminal and the output terminal, not shown, but as with the aerial type, simply remove the branch unit 25, rotate it 180 degrees horizontally and replace it so that it is connected in reverse Can be changed. Further, when it is desired to change the number of branches, the main body 31 assembled with the tap plate 30 and the branch unit 25 mounted on the mother board 11 are combined with another main body assembled with a distributor corresponding to the desired number of branches. This can be done by replacing the branch unit. At the time of this replacement, the branch unit 25 can be removed simply by releasing the engagement between the engagement claw 28 and the engagement hole 24. When the branch unit 25 is removed, the switch 29 is turned on and the power transmission terminal is turned on. Since 12 and 12 are short-circuited and the passage of the high-frequency signal is allowed, the transmission of the high-frequency signal between the cable connection portions is not interrupted.
[0011]
In this way, the branching device of the embodiment is excellent in operability because the position of the cable connection part and the number of branches can be changed by simply rotating the motherboard 90 degrees or replacing the branching unit and the main body. It can handle multiple types, and even if the branch unit or main body is removed, the current and high-frequency signal from the input side to the output side are not blocked, and the check function is maintained.
Even when the transmission cable is used as a telephone line at this time, since the telephone uses the low frequency region, the telephone call is not interrupted by the use of the current passing circuit and the line.
On the other hand, since a positive temperature coefficient thermistor is interposed in the current passing line, if there is a short circuit accident on the branch terminal side, the resistance value of the positive temperature coefficient thermistor is 0. Increases from several Ω to several KΩ or more, prevents the passage of current between the cable connection to the transmission cable and the branch output terminal, protects the circuit in the branching unit, and connects to the equipment connected to the transmission cable. Even a large current passing type that prevents adverse effects and energizes 15 amps can be used with confidence.
At that time, the high-frequency signal transmission circuit (branch circuit) is independent of the current passage line, and the positive temperature coefficient thermistor is individually provided for each branch output terminal, thus preventing the passage of current. In this case, the television signal is not interrupted, and the power passing function only to the shorted branch output terminal is prevented.
In addition, since the positive temperature coefficient thermistor is detachably provided individually for each branch terminal, only a specific terminal connected to the home of the telephone line subscriber is a current passing type, and the non-subscriber For the terminals connected to the home, it is easy to remove the positive temperature coefficient thermistor from the connector and set it so that no current is supplied, and it is easy to confirm at first glance.
Such an effect can also be achieved by providing a switch on the current passing line and controlling it by ON / OFF operation of the switch, although not shown, without making the positive thermistor detachable from the connector. is there.
[0012]
Each terminal connection section may have only two lines, or the number of branches may be decreased as well as increased, and the number of branches in the main body is not limited.
Further, in the embodiment, the main line connection terminals are arranged at three places in total, that is, two places on the upper left and right sides of the center of the lid, and one place that is vertically related to one of the two places. The main line connection terminals that are connected to the power transmission terminal of the motherboard are selected, but the main line connection terminals that are selected as a pair are arranged so that the distance between them is the same, and the motherboard is shifted or moved. By changing the assembly position, it can be connected to the main connection terminal to be connected, and it is also applicable to models that do not require different use of such cable connection parts or change of the number of branch terminals Is done.
The current passing contact provided on the main body side can use not only the pin type urged in the protruding tip direction by the coil spring, but also a strong coil spring wound in a conical shape, such a coil spring. As shown in FIG. 13a, even if there is a type of current passing contact, the position is shifted with respect to the insertion type current passing contact 34. When relatively displaced, they can be moved smoothly in a contracted state (left side of the drawing), and when both contacts are matched, the current passing contacts 34 and 35 'are connected (right side of the drawing).
Further, as illustrated in FIG. 14a, the spring force used in the current passing contact is formed by bending the upper end portion having a plurality of slits 42 so as to be flexible, and reinforcing plates on both sides of the lower end portion. Even if it is in the leaf spring type current passing contact 35 ″, the displacement may be applied by the provided leaf spring. As shown in FIG. 4B, the upper end portion is greatly curved to facilitate the correction of misalignment (the left side of the drawing), and when both the contacts coincide, the current passing contacts 34, 35 ″ are securely connected to each other (the drawing). Right).
For the coil spring type and leaf spring type current passing contacts, stainless steel for springs (wires) is preferably used, and when using a general spring steel (wires), to prevent the occurrence of rust, It is desirable to perform nickel plating.
[0013]
【The invention's effect】
According to the present invention, the current passing circuit connecting the cable connecting portion and the branching terminal is configured independently of the branch circuit and the branching circuit that form the high frequency transmission path. The current does not pass through, it is not necessary to increase the capacity of each circuit, and the branch circuit and the branch circuit are not affected by heat generation. If the current passing contact is a pin type biased toward the protruding tip by a spring force, if there is a misalignment with respect to the pair of current passing contacts, the misalignment is corrected and reliably Easy to connect. In addition, if a cable connection part of three or more lines is set in the branching unit and two cable connection parts to be connected to the motherboard can be selected from the cable connection parts of the three or more lines, the cable connection The position of the part can be changed according to the application, and if the current passing contact is electrically connected to the cable connecting part at the shortest distance, transmission between the cable connecting part and the current passing contact Loss can be kept within a negligible range. Further, by covering the current passing contact point with a plate having a pin insertion hole, an electric shock accident in which the fingertip or the like touches the current passing contact point is prevented. If the fitting part from which shape differs is provided, a cover body and a main body will not be assembled | attached right and left reversely.
[Brief description of the drawings]
FIG. 1 is an exploded explanatory view showing an embodiment of a branching device according to the present invention.
FIG. 2 is a plan view of each member.
FIG. 3 is an explanatory diagram showing a circuit of each member.
FIG. 4 is an explanatory diagram of a transmission line.
FIG. 5 is an end view taken along line AA in FIG. 4;
FIG. 6 is an explanatory diagram showing a modification example of a transmission line.
7 is an end view taken along the line BB in FIG. 4. FIG.
FIG. 8 is an explanatory diagram of a main line connection terminal.
9 is an explanatory view showing a connection portion between the trunk connection terminal and the motherboard.
FIG. 10 is an explanatory diagram of a current passing contact.
FIG. 11 is an operation explanatory diagram of a current passing contact;
FIG. 12 is an explanatory view showing a modification example of the cable connecting portion.
FIG. 13 is an explanatory view showing a modification example of a current passing contact;
FIG. 14 is an explanatory diagram showing a modification example of a current passing contact;
[Explanation of symbols]
1 .. Lid, 2, 3, 4 .. Cable connection part, 2a, 3a, 4a .. Connector screw hole, 2b, 3b, 4b .. Blind bolt, 5 .. Circuit housing part, 5a, 5b, 5c ..Main line connection terminal, 6 ..Transmission line, 6a ..Concave groove, 6b ..Conductive rod, 7 ..Dielectric block, 7a ..Arm, 8 .. Split tube, 8a. ··· Holding block, 9a · · Holding groove, 9b · · Block housing portion, 9c · · Screw, 10 · · Connector, 10a · · Pin, 11 · · Motherboard, 12 · · Power transmission terminal, · · · Relay terminal, 14 .. High frequency passing circuit, 14 a .. Capacitor, 15 .. Current passing circuit, 15 a .. Coil, 16 .. Guide pin, 17 .. Guide hole, 18 .. Screw, 19 .. Pedestal, 20. Hole, 21 .. screw insertion hole, 22 .. first land portion, 22a · Screw, 23 ··· Second land portion, 23a · · Contact piece, 24 · · Locking hole, 25 · · Branch unit 26 · · Connection terminal (input side) 26 '· · Connection terminal (output side) , 27 .. Branch terminal, 28 .. Locking claw, 29 .. Switch, 30 .. Tap plate , 31 .. Main body, 32 .. Distribution terminal (branch output terminal), 33 .. Input terminal, 34, 35 , 35 ', 35 "... current passing contact, 34a ... current passing cable, 35a ... coil spring, 36 ... current passing line, 37 ... positive temperature coefficient thermistor, 38 ... connector, 39 ... Tongue piece, 40..Guide groove, 41..Protective plate, 41a..Terminal insertion hole, 42..Slit, P..Center point, S..Air layer.

Claims (6)

A current passing circuit that allows current to pass between input and output terminals that are electrically connected to the cable connection part, a high-frequency passing circuit that allows input and output of a high-frequency signal input from the input terminal , and an output high frequency This is a branching device that consists of a lid with a motherboard with a branching unit that branches and outputs signals, and a main body with a tap plate with branching output terminals, and is inserted and connected in the middle of the transmission cable. The lid is provided with a current passing contact electrically connected to the input terminal of the mother board, while the body corresponding to the current passing contact is also provided with a current passing contact. to allow a current passing circuit between the input terminal and each branch terminal of the mother board by a connection between, on the mother board, input by removing the branch unit Turnout having a switch that allows the passage of high frequency signals between the power terminals. The branching device according to claim 1, wherein the current passing contact is a pin type biased in a protruding tip direction by a spring force. 3 or more cable connection parts are set in the branching device, and two cable connection parts to be connected to the motherboard can be selected from the cable connection parts of three or more lines. The branching device described in 1. The branching device according to any one of claims 1 to 3, wherein the current passing contact is electrically connected to the cable connection portion at a shortest distance. The branching device according to any one of claims 1 to 4, wherein the current passing contact is covered with a plate having a pin insertion hole. The branching device according to any one of claims 1 to 5, wherein fitting portions having different left and right shapes are provided between the lid and the main body.

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