JP6937487B2 - Turnout and intercom system - Google Patents

Description

The present invention relates to a turnout and an intercom system, and more particularly to a turnout having a plurality of connection ends and an intercom system having a plurality of the turnouts.

As a conventional example, the intercom system for an apartment house described in Patent Document 1 will be illustrated. The intercom system for an apartment house described in Patent Document 1 includes a plurality of turnouts. Each turnout has a first main connection including first and second connection terminals (connection ends), a second main connection including first and second connection terminals (connection ends), and first and second switches. It is provided with a sub-connection unit including a sub-connection terminal (connection end). The dwelling unit terminals installed in each dwelling unit are connected to the dwelling unit line. The plurality of dwelling unit lines are branched from the sub-main line by a plurality of turnouts. An impedance matching terminator is connected to the end of the secondary trunk line.

International Publication No. 2012/081707

In the intercom system for an apartment house described in Patent Document 1, it may be required to improve the workability when terminating the turnout.

An object of the present invention is to provide a turnout and an intercom system capable of improving workability when terminating a turnout.

In order to solve the above problems, the turnout according to one aspect of the present invention includes a pair of input connection ends, a pair of output connection ends, a pair of branch connection ends, a pair of terminal connection ends, and a terminal circuit. And a display unit . The pair of output connection ends are electrically connected to the pair of input connection ends. The pair of branch connection ends are electrically connected to the pair of input connection ends. The termination circuit is electrically connected between the pair of termination connection ends. The display unit displays differently for each pair of the pair of input connection ends, the pair of output connection ends, the pair of branch connection ends, and the pair of terminal connection ends.
The turnout according to another aspect of the present invention includes a pair of input connection ends, a pair of output connection ends, a pair of branch connection ends, a pair of terminal connection ends, a terminal circuit, and eight lead wires. And. The pair of output connection ends are electrically connected to the pair of input connection ends. The pair of branch connection ends are electrically connected to the pair of input connection ends. The termination circuit is electrically connected between the pair of termination connection ends. The eight lead wires are connected to eight connection ends of the pair of input connection ends, the pair of output connection ends, the pair of branch connection ends, and the pair of terminal connection ends. Of the eight lead wires, each of the pair of lead wires connected to the pair of terminal connection ends has a part of the core wire different from the tip exposed.

The intercom system according to one aspect of the present invention includes a plurality of the turnouts. The intercom system further includes a plurality of dwelling unit terminals and a communication device. The plurality of dwelling unit terminals are electrically connected to the plurality of turnouts. The communication device is electrically connected to the plurality of dwelling unit terminals via the plurality of turnouts and communicates with the plurality of dwelling unit terminals.

The turnout and intercom system according to one aspect of the present invention can improve workability when terminating the turnout.

FIG. 1 is a perspective view of the turnout according to the embodiment as viewed from the front side. FIG. 2 is an exploded view of the same turnout. FIG. 3 is a perspective view seen from the rear side of the same turnout. FIG. 4 is a perspective view showing a state in which the mounting portion is separated from the main body portion in the same turnout. FIG. 5 is a cross-sectional perspective view of the same turnout. FIG. 6 is a cross-sectional view of the same turnout. FIG. 7 is a circuit diagram of the same turnout. FIG. 8 is a block diagram of an intercom system according to an embodiment.

Hereinafter, the turnout and intercom system according to the embodiment will be described with reference to the drawings. However, the embodiments described below are only part of the various embodiments of the present disclosure. The following embodiments can be variously modified according to the design and the like as long as the object of the present disclosure can be achieved.

The turnout described in the following embodiment is provided in an intercom system 1 (see FIG. 8) provided in an apartment house or the like. In the intercom system 1, a plurality of dwelling unit terminals 81 (see FIG. 8) and a communication device 82 (see FIG. 8) are electrically connected by bus wiring using a plurality of turnouts 2 (see FIG. 8). .. As a result, the communication device 82 can communicate with the plurality of dwelling unit terminals 81.

(1) Appearance of the turnout As shown in FIGS. 1 and 2, the turnout 2 has a housing 3, a pair of input lead wires L1 and L2, a pair of output lead wires L3 and L4, and a pair of branches. It includes lead wires L5 and L6. The turnout 2 further includes a pair of terminal lead wires L7 and L8. Hereinafter, the input lead wires L1 and L2, the output lead wires L3 and L4, and the branch lead wires L5 and L6 are collectively referred to as lead wires L1 to L6. Further, the input lead wires L1 and L2, the output lead wires L3 and L4, the branch lead wires L5 and L6, and the terminal lead wires L7 and L8 are collectively referred to as lead wires L1 to L8.

The housing 3 has a box-shaped main body portion 30 and a mounting portion 4. The main body 30 includes a body 3a and a cover 3b coupled to the body 3a. The body 3a is formed in a box shape (rectangular parallelepiped shape) in which an opening 30a is formed on one surface 306 (see FIG. 3). The cover 3b is coupled to the body 3a so as to close the opening 30a.

The body 3a includes a plate-shaped facing portion 35a facing the cover 3b, and first, second, third and fourth side walls 31a, 32a, 33a and 34a. The first, second, third and fourth side walls 31a, 32a, 33a and 34a project from the peripheral edge of the facing portion 35a along the thickness direction of the facing portion 35a. The first side wall 31a and the second side wall 32a face each other, and the third side wall 33a and the fourth side wall 34a face each other.

Hereinafter, unless otherwise specified, in FIG. 2, the direction in which the cover 3b and the facing portion 35a face each other is the front-rear direction, the cover 3b side is the rear, and the facing portion 35a side is the front. The direction in which the first side wall 31a and the second side wall 32a face each other is the vertical direction, the first side wall 31a side is the upper side, and the second side wall 32a side is the lower side. The direction in which the third side wall 33a and the fourth side wall 34a face each other is the left-right direction, the third side wall 33a side is the left side, and the fourth side wall 34a side is the right side.

In the rectangular parallelepiped body 3a in which the opening 30a is formed, recesses 300 are formed in each of the regions corresponding to the four vertices on the side opposite to the opening 30a side (front side). Through holes 301 are formed on the bottom surfaces of these four recesses 300. That is, four through holes 301 are formed in the body 3a.

The mounting portion 4 is connected to the main body portion 30. More specifically, the mounting portion 4 is integrally formed with the main body portion 30.

The mounting portion 4 projects upward from the rear end of the first side wall 31a. The mounting portion 4 is formed in a plate shape in which a mounting hole 40 penetrating the mounting portion 4 is formed. More specifically, the mounting portion 4 is formed in a U shape when viewed from the front-rear direction by forming the mounting holes 40 in a semicircular structure when viewed from the front-rear direction. The two ends of the U-shaped mounting portion 4 when viewed from the front-rear direction are connected to the first side wall 31a.

The housing 3 is attached to the attachment target, for example, by screwing the screw 46 passed through the attachment hole 40 of the attachment portion 4 into the attachment target (building wall or the like). The screw 46 is, for example, a wood screw.

As shown in FIG. 3, the rear surface 305 of the main body 30 includes one surface 306 on which the opening 30a of the body 3a is formed, and the rear surface 307 of the cover 3b inserted into the opening 30a. The rear surface 305 is formed flat. The mounting portion 4 projects from the main body portion 30 along the rear surface 305. More specifically, the rear surface 405 of the mounting portion 4 is flush with the rear surface 305 of the main body portion 30. The rear surface 305 is a surface facing the mounting target (building wall, etc.) of the housing 3.

As shown in FIGS. 1 and 2, the mounting hole 40 is a Daruma hole. The mounting hole 40 has a first hole 41 and a second hole 42 connected to the first hole 41. The second hole 42 is aligned with the first hole 41 in one direction (vertical direction). The second hole 42 is formed between the first hole 41 and the first side wall 31a. The first hole 41 and the second hole 42 are formed in an upwardly convex bell shape. The width D2 of the second hole 42 is larger than the width D1 of the first hole 41 in the direction (horizontal direction) orthogonal to the one direction (vertical direction) in which the first hole 41 and the second hole 42 are arranged side by side.

The mounting portion 4 has a separating portion 43. The mounting portion 4 can be separated from the main body portion 30 (body 3a) at the separating portion 43. The separation portion 43 includes two thin-walled portions 44. The two thin-walled portions 44 are formed at the boundary portion between the mounting portion 4 and the main body portion 30 (body 3a). That is, the two thin-walled portions 44 are formed one by one at the two ends of the mounting portion 4 connected to the first side wall 31a. The thickness of the two thin-walled portions 44 is smaller than that of the attachment portion 4 other than the two thin-walled portions 44. More specifically, the mounting portion 4 is recessed in the two thin-walled portions 44 in a triangular groove shape in a side view.

The mounting hole 40 extends to a part of the boundary portion between the mounting portion 4 and the main body portion 30 (body 3a). That is, a separation portion 43 and a part of the mounting hole 40 are formed at the boundary portion of the mounting portion 4 with the main body portion 30 (body 3a).

The two thin-walled portions 44 are broken by bending the mounting portion 4 with respect to the main body portion 30 (body 3a) around the two thin-walled portions 44. As a result, the mounting portion 4 is separated from the main body portion 30 (body 3a) at the separating portion 43 (two thin-walled portions 44) (see FIG. 4).

The body 3a further includes a boss portion 3c. The boss portion 3c is formed in a substantially bottomed cylindrical shape. The boss portion 3c has a screw hole 30c into which a screw 3d for connecting the cover 3b to the body 3a is screwed from the rear. The boss portion 3c protrudes from the outer surface (surface 330a) of the third side wall 33a. The axial direction of the boss portion 3c is along the front-rear direction and is substantially parallel to the outer surface (surface 330a) of the third side wall 33a.

FIG. 5 is a cross-sectional view of the turnout 2 cut on a plane orthogonal to the front-rear direction and a plane orthogonal to the vertical direction. FIG. 6 is a cross-sectional view of the turnout 2 cut at a plane orthogonal to the vertical direction. As shown in FIGS. 5 and 6, a plurality of (two in FIG. 5) insertion holes 341 are formed in the fourth side wall 34a of the body 3a. A plurality of claw portions 321 described later of the cover 3b are inserted into the plurality of insertion holes 341. Further, the body 3a further includes a holding claw 342 protruding from the fourth side wall 34a toward the inside of the main body 30, and a holding claw 332 protruding from the third side wall 33a toward the inside of the main body 30. include. The turnout 2 further includes a circuit mounting board 5. The circuit board 51, which will be described later, of the circuit board 5 is hooked on the holding claws 342 and 332, so that the circuit board 51 is held inside the main body 30.

As shown in FIGS. 1 and 2, the cover 3b includes a flat plate-shaped cover body 31b whose thickness direction is along the front-rear direction, a peripheral wall portion 32b, a first protruding wall 33b, a second protruding wall 34b, and a stepped portion. 35b and. The turnout 2 further includes a protruding portion 3e formed integrally with the cover 3b.

The cover body 31b is formed in a rectangular shape that closes the opening 30a of the body 3a. The peripheral wall portion 32b is formed in a region near the upper side, a region near the lower side, a right side, and a part of the left side of the peripheral edge of the cover main body 31b. The peripheral wall portion 32b projects forward from the cover main body 31b along the thickness direction of the cover main body 31b. The first protruding wall 33b is formed in a region near the upper side of the cover 3b. The first protruding wall 33b projects forward from the peripheral wall portion 32b along the thickness direction of the cover main body 31b. The second protruding wall 34b is formed in a region near the lower side of the cover 3b. The second protruding wall 34b projects forward from the peripheral wall portion 32b along the thickness direction of the cover main body 31b. The first and second protruding walls 33b and 34b are inserted into the body 3a through the opening 30a.

As shown in FIG. 5, the cover 3b further includes a plurality of (two in FIG. 5) claw portions 321 projecting outward from the peripheral wall portion 32b. The plurality of claw portions 321 are inserted into the plurality of insertion holes 341 of the body 3a.

As shown in FIGS. 1 and 2, the protruding portion 3e protrudes to the left from the peripheral edge of the cover main body 31b along the surface direction of the cover main body 31b. When the cover 3b is connected to the body 3a, the protruding portion 3e is located outside the main body portion 30 (see FIG. 1). The protruding portion 3e has a screw insertion hole 30e facing the screw hole 30c of the boss portion 3c of the body 3a. With the plurality of claws 321 inserted into the plurality of insertion holes 341 of the body 3a, the screw 3d passed through the screw insertion hole 30e is screwed into the screw hole 30c of the boss portion 3c, so that the cover 3b becomes the body. Combined with 3a.

The protruding portion 3e includes a first wall portion 31e, a second wall portion 32e, a third wall portion 33e, and a fourth wall portion 34e. The first wall portion 31e is formed in the shape of a rectangular plate whose thickness direction is along the front-rear direction. The second wall portion 32e projects forward from the upper side of the first wall portion 31e. The third wall portion 33e projects forward from the left side of the first wall portion 31e. The fourth wall portion 34e projects forward from the lower side of the first wall portion 31e. Further, the third wall portion 33e has a recessed portion 330e recessed from the front end to the rear. The third wall portion 33e has a chamfered portion 331e (see FIG. 6) having a chamfered shape at a corner portion of the right front end of the recessed portion 330e.

The step portion 35b is formed in the left region of the cover 3b. The step portion 35b projects forward from the cover main body 31b along the thickness direction of the cover main body 31b. The step portion 35b is shorter in the front-rear direction than the peripheral wall portion 32b. With the cover 3b coupled to the body 3a, a gap (through hole 302) is formed between the step portion 35b and the third side wall 33a of the body 3a (see FIGS. 1 and 5). That is, a through hole 302 is formed in the main body 30. The width of the through hole 302 in the front-rear direction is slightly larger than the diameter of the lead wires L1 to L8. The opening surface of the through hole 302 on the outer surface (surface 330a) of the third side wall 33a of the main body 30 faces the third wall 33e. That is, the third wall portion 33e is arranged at a position facing the opening surface of the through hole 302 outside the main body portion 30.

Of the main body 30, the surface 310a (outer surface of the first side wall 31a) connected to the mounting portion 4 is different from the surface 330a (outer surface of the third side wall) on which the through hole 302 is formed.

The circuit board 5 includes a circuit board 51 and a plurality of electronic components (for example, the transformer 67 of FIG. 7, the capacitors 61 to 64 and the resistors 65 and 66). The circuit board 51 is held inside the main body 30. Lead wires L1 to L8 are connected to the circuit board 51. The lead wires L1 to L8 connected to the circuit board 51 are pulled out of the main body 30 through the through holes 302.

The lead wires L1 to L6 have the same configuration as each other. The terminal lead wires L7 and L8 have the same configuration as each other. In FIG. 2, only the input lead wire L1 is shown on behalf of the lead wires L1 to L6, and only the terminal lead wire L7 is shown on behalf of the terminal lead wires L7 and L8.

At both ends of the lead wires L1 to L6 (first end 101 and second end 102), the coating 103 is peeled off to expose the core wire 104 inside the coating 103. In the lead wires L1 to L6, the core wire 104 in a region having a length of, for example, about 2 mm is exposed from both ends. The first end 101 of the lead wires L1 to L6 is connected to the circuit board 51. More specifically, the first end 101 of the lead wires L1 to L6 is connected to the circuit board 51 via the board-in connector 52 (see FIG. 6).

At one end (first end 111) of the terminal lead wires L7 and L8, the coating 113 is peeled off to expose the core wire 114 inside the coating 113. In the terminal lead wires L7 and L8, the core wire 114 in a region having a length of, for example, about 2 mm is exposed from the first end 111. One end (first end 111) of the terminal lead wires L7 and L8 is connected to the circuit board 51. More specifically, the first ends 111 of the terminal lead wires L7 and L8 are connected to the circuit board 51 via the board-in connector 52 (see FIG. 6).

In the terminal lead wires L7 and L8, the core wire 114 of a part (exposed portion 1150) of the intermediate portion 115 between one end (first end 111) and the other end (second end 112) is exposed. That is, in the terminal lead wires L7 and L8, the core wire 114 of a part (exposed portion 1150) different from the tip (first end 111 and second end 112) is exposed. More specifically, in the terminal lead wires L7 and L8, the coating 113 is stripped at the first end 111, the exposed portion 1150, and the region from the second end 112 to the exposed portion 1150. Further, in the terminal lead wires L7 and L8, the tape 116 is wound around the portion other than the first end 111 and the exposed portion 1150 in the portion where the coating 113 is peeled off. The tape 116 has electrical insulation. The tape 116 bundles a large number of thin wires constituting the core wire 114 inside the coating 113.

Therefore, the core wires 114 of the terminal lead wires L7 and L8 are exposed only at the first end 111 and the exposed portion 1150. When connecting the terminal lead wires L7 and L8 to the output lead wires L3 and L4, the operator removes the tape 116 to expose the core wire 114 inside the tape 116.

(2) Arrangement of Lead Wires Next, the arrangement of the lead wires L1 to L8 in the turnout 2 will be described with reference to FIGS. 5 and 6. In FIGS. 5 and 6, only the input lead wire L1 of the lead wires L1 to L8 is shown for simplification of the drawing. In the following description, only the arrangement of the input lead wires L1 will be described, but the lead wires L1 to L8 are arranged in the same manner.

The input lead wire L1 to which the first end 101 (see FIG. 2) is connected to the circuit board 51 extends from the circuit board 51 and is passed through the through hole 302. Therefore, the first end 101 of the input lead wire L1 is located inside the main body 30, and the second end 102 is located outside the main body 30. The first portion 107, which is a part of the intermediate portion 105 between the first end 101 and the second end 102 of the input lead wire L1, is formed in the first through hole 302, which is the space inside the first through hole 302. Passed through. Further, the second portion 108, which is a part of the intermediate portion 105 of the input lead wire L1 and is different from the first portion 107, is passed through the second wire portion S2 outside the main body portion 30. The second line portion S2 is surrounded by the first wall portion 31e, the second wall portion 32e, the third wall portion 33e and the fourth wall portion 34e (see FIG. 1), and the third side wall 33a of the main body portion 30. It is a space that is. That is, the third wall portion 33e forms the second line portion S2 between the third wall portion 33e and the third side wall portion 33a of the main body portion 30. The first line section S1 and the second line section S2 are connected to each other.

The main body 30 penetrates through the through hole 302 in the left-right direction. That is, the first line portion S1 inside the through hole 302 is a space along the left-right direction (first direction). The first portion 107 of the input lead wire L1 is passed through the first wire portion S1 along the left-right direction (first direction). That is, the first portion 107 of the input lead wire L1 is guided by the third side wall 33a and the step portion 35b around the through hole 302 inside the through hole 302, so that the first lead wire L1 is the first lead wire along the left-right direction. It is passed through the part S1.

When the cover 3b is connected to the body 3a, the second wire passage portion S2 is covered from the left side by the third wall portion 33e, and the second main body portion 30 except for the region where the through hole 302 is formed. It is covered from the right side by the stepped portion 35b of the three side walls 33a and the cover 3b. That is, the second line portion S2 is a space along the front-rear direction (second direction) that intersects the left-right direction (first direction). Further, the second line portion S2 is covered from the rear side by the first wall portion 31e, and is covered from above and below by the second wall portion 32e and the fourth wall portion 34e (see FIG. 1).

Therefore, in the input lead wire L1, the second portion 108 of the intermediate portion 105 is passed through the second connecting portion S2 along the front-rear direction (second direction). That is, since the second wall portion 32e, the third wall portion 33e, and the fourth wall portion 34e of the protruding portion 3e and the third side wall portion 33a of the body 3a are formed along the front-rear direction, the intermediate portion 105 The second portion 108 is guided by at least one of the second wall portion 32e, the third wall portion 33e, the fourth wall portion 34e, and the third side wall portion 33a, so that the second line portion S2 is guided along the front-rear direction. Is passed through. The second end 102 of the input lead wire L1 is pulled out from the second lead wire portion S2, for example, forward.

When the input lead wire L1 is pulled out from the inside of the main body portion 30, the first portion 107 is passed through the first wire portion S1 along the left-right direction. The portion of the intermediate portion 105 between the first portion 107 and the second portion 108 is in contact with, for example, the third wall portion 33e, and bends so as to change from a direction along the left and right to a direction along the front and back. Further, when the input lead wire L1 is pulled in from the outside of the main body portion 30, the second portion 108 is passed through, for example, the second passage portion S2 along the front-rear direction, and the first portion 107 is passed along the left-right direction. It is passed through the first line section S1. Therefore, the portion of the intermediate portion 105 between the first portion 107 and the second portion 108 bends so as to change from the front-back direction to the left-right direction.

In this way, the intermediate portion 105 of the input lead wire L1 bends between the first portion 107 and the second portion 108 outside the main body portion 30. That is, since the first line portion S1 and the second line portion S2 intersect outside the main body portion 30, the intermediate portion 105 of the input lead wire L1 is the first line portion S1 and the second line portion S1. By being passed through the wire portion S2, it bends outside the main body portion 30.

As described above, the first portion 107 of the input lead wire L1 is passed through the first passage portion S1 along the left-right direction (first direction), and the second portion 108 is passed along the front-rear direction (second direction). It is passed through the two-line section S2. Therefore, when the input lead wire L1 is pulled, the pulling force is likely to be dispersed in the left-right direction and the front-rear direction, so that the possibility that the input lead wire L1 is detached from the circuit board 51 can be reduced. Further, when the input lead wire L1 is pulled, the second wall portion 32e, the third wall portion 33e, and the fourth wall portion 34e forming the first wire portion S1 and the second wire portion S2 (FIG. 1). When the lead wire L1 is caught on at least one of the third side wall 33a and the third side wall 33a, the force applied to the lead wire L1 near the circuit board 51 is reduced. This also reduces the possibility that the input lead wire L1 will come off the circuit board 51.

The distance between the through hole 302 and the cover body 31b is smaller than the distance between the through hole 302 and the circuit board 51. Therefore, in the input lead wire L1, the first end 101 connected to the circuit board 51 is compared with the case where the distance between the through hole 302 and the cover body 31b is larger than the distance between the through hole 302 and the circuit board 51. The bending radius in the vicinity of (see FIG. 2) can be made smaller than the bending radius in the vicinity of the through hole 302. Thereby, the stress of the input lead wire L1 due to the bending of the input lead wire L1 near the first end 101 can be reduced. The input lead wire L1 of the present embodiment is connected to the circuit board 51 via the board-in connector 52. That is, the input lead wire L1 is disconnected from the board-in connector 52 due to the bending of the input lead wire L1 near the first end 101, or the input lead wire L1 is fatigue-broken near the first end 101 connected to the board-in connector 52. The possibility of doing so can be reduced. The distance between the third side wall 33a located around the through hole 302 in the main body 30 and the board-in connector 52 is between the fourth side wall 34a on the opposite side of the through hole 302 and the board-in connector 52. Greater than the distance.

Further, the lead wires L1 to L8 are arranged side by side in the vertical direction in the first line portion S1 and the second line portion S2 (see FIG. 1).

An example of the procedure for assembling the turnout 2 will be described. First, the circuit board 51 to which the lead wires L1 to L8 are connected is held by the body 3a. Next, the lead wires L1 to L8 are pulled out of the body 3a via the region where the through hole 302 is formed. In this state, the cover 3b is connected to the body 3a. As a result, the lead wires L1 to L8 are pulled out from the inside of the main body 30 to the outside through the through holes 302.

Next, the procedure for attaching the housing 3 to the attachment target will be described with reference to FIGS. 1 and 3. Here, the mounting target is the wall of the pipe shaft. The operator screwes the screw 46 into a plate material (wood board or the like) attached to the wall of the pipe shaft, and then passes the screw 46 through the second hole 42 of the attachment hole 40. Further, the housing 3 is moved so that the screw shaft of the screw 46 is passed through the first hole 41. As a result, the housing 3 is attached to the surface of the wall of the pipe shaft via the plate material. The operator does not have to screw the screw 46 into the wall of the pipe shaft. The rear surface 305 of the main body 30 of the housing 3 faces the surface of the wall of the pipe shaft with the plate material interposed therebetween.

(3) Circuit configuration of turnout As shown in FIG. 7, the circuit mounting board 5 includes a pair of input connection ends E1 and E2, a pair of output connection ends E3 and E4, and a pair of branch connection ends E5 and E6. , A pair of termination connection ends E7, E8, and a termination circuit 7 are further included. Hereinafter, the input connection ends E1 and E2, the output connection ends E3 and E4, the branch connection ends E5 and E6, and the terminal connection ends E7 and E8 are collectively referred to as connection ends E1 to E8.

The connection ends E1 to E8 are provided on the circuit board 51 (see FIG. 2) of the circuit mounting board 5. One end (first end 101: see FIG. 2) of the pair of input lead wires L1 and L2 is connected to the pair of input connection ends E1 and E2. One end (first end 101) of the pair of output lead wires L3 and L4 is connected to the pair of output connection ends E3 and E4. One end (first end 101) of the pair of branch lead wires L5 and L6 is connected to the pair of branch connection ends E5 and E6. One end (first end 111: see FIG. 2) of the pair of terminal lead wires L7 and L8 is connected to the pair of terminal connection ends E7 and E8. In this way, one end of each of the lead wires L1 to L8 is connected to the circuit board 51. Each connection end E1 to E8 is composed of, for example, a board-in connector 52 (see FIG. 6). That is, the lead wires L1 to L8 are connected to the circuit board 51 by the board-in connector 52.

Wiring W1 to W4 are formed on the circuit board 51 (see FIG. 2). The wirings W1 to W4 are formed of conductors printed on the circuit board 51. The wiring W1 electrically connects the input connection end E1 to the output connection end E3. The wiring W2 electrically connects the input connection end E2 to the output connection end E4. The wiring W3 is branched from the wiring W1 and electrically connects the input connection end E1 to the branch connection end E5 via a signal branch circuit 6 described later. The wiring W4 is branched from the wiring W2, and the input connection end E2 is electrically connected to the branch connection end E6 via the signal branch circuit 6. Therefore, one end of the input lead wires L1 and L2 (first end 101: see FIG. 2) is inside the main body 30 (see FIG. 1) via the wirings W1 to W4 of the circuit board 51, and the output lead wires L3. It is electrically connected to L4 and the branch lead wires L5 and L6.

The termination circuit 7 performs impedance matching of the circuit formed by the turnout 2. The termination circuit 7 includes a resistor 71 and a capacitor 72. The termination circuit 7 is a series circuit of the resistor 71 and the capacitor 72. The terminal circuit 7 is electrically connected between the terminal connection ends E7 and E8. The termination circuit 7 is non-polar. The capacitor 72 is, for example, a non-polar electrolytic capacitor.

The terminal circuit 7 is electrically insulated from the wirings W1 and W2 that form a part of the trunk line TL1 (see FIG. 8) of the intercom system 1 (see FIG. 8). By connecting the output lead wires L3 and L4 to the terminal lead wires L7 and L8, the terminal circuit 7 can be electrically connected to the wirings W1 and W2.

The circuit mounting board 5 further includes a signal branching circuit 6. The signal branch circuit 6 includes four capacitors 61 to 64, two resistors 65 and 66, a transformer 67, two surge absorbers 68 and 69, trunk terminals Ta1 and Ta2, and branch terminals Tb1 and Tb2. And, including. The signal branch circuit 6 is electrically connected to the wirings W3 and W4 via the trunk terminals Ta1 and Ta2, and is electrically connected to the branch connection ends E5 and E6 via the branch terminals Tb1 and Tb2.

The transformer 67 has a primary winding on the main line terminals Ta1 and Ta2 sides, and has a secondary winding on the branch terminals Tb1 and Tb2 sides. Capacitors 61 and 62 are inserted between both ends of the primary winding of the transformer 67 and the main line terminals Ta1 and Ta2, and capacitors 63 are inserted between both ends of the secondary winding of the transformer 67 and the branch terminals Tb1 and Tb2. 64 is inserted. The resistors 65 and 66 are inserted between both ends of the primary winding of the transformer 67 and the capacitors 61 and 62.

The coatings 103 and 113 (see FIG. 2) of the lead wires L1 to L8 are color-coded for each pair of connection ends E1 to E8 corresponding to the lead wires L1 to L8. Specifically, the pair of input lead wires L1 and L2 connected to the pair of input connection ends E1 and E2 have a blue coating. The pair of output lead wires L3 and L4 connected to the pair of output connection ends E3 and E4 have a white coating. The pair of branch lead wires L5 and L6 connected to the pair of branch connection ends E5 and E6 have a yellow coating. The pair of termination lead wires L7 and L8 connected to the pair of termination connection ends E7 and E8 have a black coating. In this way, the coatings 103 and 113 are pair-by-pair with a pair of input connection ends E1, E2, a pair of output connection ends E3, E4, a pair of branch connection ends E5, E6, and a pair of terminal connection ends E7, E8. This is a display unit that displays different colors. As a result, the operator can identify the pair of input connection ends E1, E2, the pair of output connection ends E3, E4, the pair of branch connection ends E5, E6, and the pair of terminal connection ends E7, E8 for each pair. be.

(4) Configuration of Intercom System As shown in FIG. 8, the intercom system 1 includes a plurality of (three in FIG. 8) turnouts 2, a plurality of (three in FIG. 8) dwelling unit terminals 81, and a communication device 82. And have. Further, the intercom system 1 further includes a shared terminal 83.

The plurality of dwelling unit terminals 81 are, for example, a plurality of intercom master units installed in the rooms of the plurality of dwelling units. The shared terminal 83 is, for example, a lobby intercom slave unit installed at a common entrance (lobby) of an apartment house. The communication device 82 relays the communication between the plurality of dwelling unit terminals 81 and the shared terminal 83. The communication device 82 is installed, for example, in the management room of an apartment house.

Hereinafter, the plurality of turnouts 2 may be referred to as a first turnout 2, a second turnout 2, .... Of the plurality of turnouts 2, the input lead wires L1 and L2 of the first turnout 2 (the lowest turnout 2 in FIG. 8) are connected to the communication device 82. The output lead wires L3 and L4 of the first turnout 2 are connected to the input lead wires L1 and L2 of the second turnout 2 (the central turnout 2 in FIG. 8). The output lead wires L3 and L4 of the second turnout 2 are connected to the input lead wires L1 and L2 of the third turnout 2. Similarly, in the fourth and subsequent turnouts 2, a plurality of turnouts 2 are sequentially connected by input lead wires L1 and L2 and output lead wires L3 and L4. Between the input lead wires L1 and the communication device 82 connected to each other, between the input lead wires L2 and the communication device 82 connected to each other, between the input lead wires L1 and the output lead wires L3 connected to each other, and , Wiring Wt1 is connected between the input lead wire L2 and the output lead wire L4 connected to each other. That is, the intercom system 1 further includes a plurality of wirings Wt1.

As described above, the input lead wires L1, L2, the output lead wires L3, L4 and the wirings W1 and W2 (see FIG. 7) of the plurality of turnouts 2 and the plurality of wirings Wt1 form the trunk line TL1. There is. A plurality of turnouts 2 are electrically connected to the communication device 82 by the trunk line TL1.

The input lead wires L1 and L2 and the output lead wires L3 and L4 and the plurality of wirings Wt1 are directly connected by caulking using, for example, a crimp terminal. The input lead wires L1 and L2 and the output lead wires L3 and L4 may be connected to the plurality of wirings Wt1 via a terminal block or the like.

Of the plurality of turnouts 2, in the turnout 2 (hereinafter referred to as the turnout 2) that is electrically farthest from the first turnout 2, the output lead wires L3 and L4 of the turnout 2 are the turnouts. It is connected to the terminal lead wires L7 and L8 of 2. That is, the output connection ends E3 and E4 of the terminal turnout 2 are electrically connected to the terminal circuit 7 (see FIG. 7) via the terminal connection ends E7 and E8 of the terminal turnout 2. As a result, the trunk line TL1 is terminated in the termination circuit 7 of the termination turnout 2. In the turnout 2 of FIG. 7, the output lead wires L3 and L4 are connected to the terminal lead wires L7 and L8. The output lead wires L3 and L4 and the terminal lead wires L7 and L8 are directly connected by caulking, for example, using a crimp terminal. The output lead wires L3 and L4 and the terminal lead wires L7 and L8 may be connected via a terminal block or the like.

Since the termination circuit 7 is non-polar, the output connection end E3 may be electrically connected to the termination connection end E7, the output connection end E4 may be electrically connected to the termination connection end E8, or the output connection end E3 may be terminated. It may be electrically connected to the connection end E8 and the output connection end E4 may be electrically connected to the terminal connection end E7.

The plurality of turnouts 2 correspond to a plurality of dwelling unit terminals 81 on a one-to-one basis. The branch lead wires L5 and L6 of each turnout 2 are connected to the corresponding dwelling unit terminal 81. The communication device 82 is electrically connected to a plurality of dwelling unit terminals 81 via a plurality of turnouts 2. Further, the communication device 82 is electrically connected to the shared terminal 83. As a result, the plurality of turnouts 2 can transmit communication signals between each dwelling unit terminal 81 and the communication device 82.

Wiring Wt2 is connected between the branch lead wire L5 connected to each other and the dwelling unit terminal 81, and between the branch lead wire L6 connected to each other and the dwelling unit terminal 81, respectively. That is, the intercom system 1 further includes a plurality of wirings Wt2. The branch lead wires L5 and L6 and the plurality of wirings Wt2 are directly connected by caulking, for example, using a crimp terminal. The branch lead wires L5 and L6 and the plurality of wirings Wt2 may be connected via a terminal block or the like.

The shared terminal 83 accepts a calling operation by designating a room number of a specific dwelling unit among a plurality of dwelling units. The communication device 82 stores a room number corresponding to a plurality of dwelling unit terminals 81 on a one-to-one basis. When the shared terminal 83 is called, the communication device 82 identifies the dwelling unit terminal 81 corresponding to the room number specified in the calling operation from among the plurality of dwelling unit terminals 81. The communication device 82 transmits a predetermined signal to the dwelling unit terminal 81 corresponding to the room number via one or a plurality of turnouts 2. When the dwelling unit terminal 81 receives a predetermined signal, it emits a ringing tone for calling a resident. Further, when the resident performs a predetermined operation on the dwelling unit terminal 81, the dwelling unit terminal 81 and the shared terminal 83 can communicate with each other via one or a plurality of turnouts 2 and a communication device 82. Mutual communication between the dwelling unit terminal 81 and the shared terminal 83 is performed by, for example, communication signals such as audio signals and video signals. Further, as the communication signal, for example, a digital signal is used.

(5) Modified Examples of Embodiments The modified examples of embodiments are listed below. The following modifications may be realized in appropriate combinations.

The termination circuit 7 may include at least one of a resistor 71 and a capacitor 72.

Further, the lead wires L1 to L8 are not limited to being connected to the circuit board 51 by the board-in connector 52. For example, the lead wires L1 to L8 may be connected to the circuit board 51 by a connector having a different shape, or may be directly connected to the circuit board 51 by soldering or the like without using the connector.

That is, the configuration of each connection end E1 to E8 is not limited to the board-in connector 52. The configuration of each connection end E1 to E8 may be, for example, a connector having a different shape, or a land formed on the circuit board 51 so that the lead wires L1 to L8 can be connected via a through hole or the like. You may.

Further, in the terminal lead wires L7 and L8 of the embodiment, the coating 113 is peeled off at the first end 111, the exposed portion 1150, and the region from the second end 112 to the exposed portion 1150. Further, in the terminal lead wires L7 and L8, the tape 116 is wound around the portion other than the first end 111 and the exposed portion 1150 in the portion where the coating 113 is peeled off. On the other hand, in the terminal lead wires L7 and L8, only the coating 113 of the first end 111 and the coating 113 of the exposed portion 1150 are peeled off, leaving the coating 113 on the second end 112 side. You may. That is, the terminal lead wires L7 and L8 may be in a so-called semi-striped state.

Further, in each of the lead wires L1 to L6, similarly to the terminal lead wires L7 and L8, the core wire 104 of the first end 101 and the core wire of a part (exposed portion) different from the first end 101 and the second end 102. 104 and may be exposed. In this case, each of the lead wires L1 to L6 may be in a semi-striped state, or similarly to the terminal lead wires L7 and L8 of the embodiment, on the second end 102 side of each of the lead wires L1 to L6. The tape may be wrapped.

The turnout 2 of the embodiment is for a two-wire signal line including a pair of input connection ends E1, E2, a pair of output connection ends E3, E4, a pair of branch connection ends E5, E6, and a pair of terminal connection ends E7, E8. However, the turnout is not limited to this, and a turnout for a 3-wire signal line may be used. That is, the turnout 2 may include another connection end in addition to the connection ends E1 to E8. Further, the turnout 2 may include another lead wire in addition to the lead wires L1 to L8.

Further, instead of connecting the connection ends E1 to E8 to each other using the lead wires L1 to L8, for example, the connection ends E1 to E8 may be connected to each other as follows. That is, the connection ends E1 to E8 may be connected to each other by using a conductor plate such as a copper plate instead of the lead wires L1 to L8. Further, each turnout 2 may be provided with a plurality of connectors electrically connected to the connection ends E1 to E8. Then, a connector electrically connected to the output connection ends E3 and E4 of one turnout 2 can be connected to a connector electrically connected to the terminal connection ends E7 and E8 of the turnout 2, or another connector can be connected. It may be connected to a connector electrically connected to the input connection ends E1 and E2 of the turnout 2. Similarly, the connection between the turnout 2 and the communication device 82 and the connection between the turnout 2 and the dwelling unit terminal 81 and the communication device 82 do not use the lead wires L1 to L8, for example. , Conductor plate or connector may be used.

Further, the main body portion 30 does not have to have the step portion 35b. In this case, the width of the through hole 302 in the front-rear direction can be increased as compared with the case where the main body portion 30 has the step portion 35b.

Further, a display unit that displays different colors for each pair on the pair of input connection ends E1 and E2, the pair of output connection ends E3 and E4, the pair of branch connection ends E5 and E6, and the pair of terminal connection ends E7 and E8. , The coating is not limited to the lead wires L1 to L8. For example, the connection ends E1 to E8 may be configured by terminals provided on the terminal block, and the terminal block may be used as a display unit. That is, the terminal block displays different colors for each pair on the pair of input connection ends E1, E2, the pair of output connection ends E3, E4, the pair of branch connection ends E5, E6, and the pair of terminal connection ends E7, E8. do it. Specifically, the input connection ends E1 and E2 are provided on the blue terminal block, the output connection ends E3 and E4 are provided on the white terminal block, and the branch connection ends E5 and E6 are provided on the yellow terminal block. The terminal connection ends E7 and E8 may be provided on the black terminal block. Alternatively, instead of color-coding the terminal block, the terminal block cover may be color-coded. That is, the cover of the terminal block may be used as the display unit. Further, not limited to the terminal block and the cover of the terminal block, the members provided in the vicinity of the connection ends E1 to E8 are provided with a pair of input connection ends E1, E2, a pair of output connection ends E3, E4, and a pair of branches. The connection ends E5 and E6 and the pair of terminal connection ends E7 and E8 may be color-coded and used as a display unit.

Further, instead of displaying different colors for each pair on the pair of input connection ends E1 and E2, the pair of output connection ends E3 and E4, the pair of branch connection ends E5 and E6, and the pair of terminal connection ends E7 and E8. Each pair may display a different pattern, character, figure or symbol. For example, a pattern, a character, a figure, or a symbol is formed on a member provided in the vicinity of each of the connection ends E1 to E8, such as a coating of lead wires L1 to L8, a terminal block provided with connection ends E1 to E8, or a cover of the terminal block. May be attached.

In short, the display unit displays differently for each pair on the pair of input connection ends E1, E2, the pair of output connection ends E3, E4, the pair of branch connection ends E5, E6, and the pair of terminal connection ends E7, E8. Just do it. The display that differs from pair to pair is, for example, a color, pattern, character, graphic or symbol that differs from pair to pair, or a combination thereof.

Further, the screw 46 is not limited to the wood screw, and may be another type of screw. For example, the screw 46 may be a tapping screw.

Further, the shape of each configuration of the turnout 2 is not limited to the shape shown in the embodiment. For example, the structure formed in a rectangular shape in the embodiment may be formed in a square shape. Further, in the embodiment, the structure formed in the shape of a rectangular parallelepiped may be formed in the shape of a cube.

(6) Summary As described above, the turnout 2 according to the first aspect includes a pair of input connection ends E1 and E2, a pair of output connection ends E3 and E4, and a pair of branch connection ends E5 and E6. , A pair of termination connection ends E7, E8, and a termination circuit 7. The pair of output connection ends E3 and E4 are electrically connected to the pair of input connection ends E1 and E2. The pair of branch connection ends E5 and E6 are electrically connected to the pair of input connection ends E1 and E2. The termination circuit 7 is electrically connected between the pair of termination connection ends E7 and E8.

According to the above configuration, the turnout 2 is terminated by the termination circuit 7 by electrically connecting the pair of termination connection ends E7 and E8 and the pair of output connection ends E3 and E4 using a lead wire or the like. can do. Here, since the termination circuit 7 is provided in the turnout 2, it is not necessary to prepare the termination circuit 7 separately from the turnout 2. Therefore, the workability when terminating the turnout 2 is improved. Further, as compared with the case where the terminal circuit 7 is prepared separately from the turnout 2, the possibility of losing the terminal circuit 7 can be reduced.

Further, the turnout 2 according to the second aspect further includes a display unit (for example, coatings 103 and 113) in the first aspect. The display unit displays differently for each pair on the pair of input connection ends E1, E2, the pair of output connection ends E3, E4, the pair of branch connection ends E5, E6, and the pair of terminal connection ends E7, E8 (for example, colors). , Patterns, letters, figures or symbols).

According to the above configuration, the operator displays a pair of input connection ends E1, E2, a pair of output connection ends E3, E4, a pair of branch connection ends E5, E6, and a pair of terminal connection ends E7, E8. (For example, coatings 103 and 113) can be identified. Therefore, the workability of the wiring work for electrically connecting the connection ends E1 to E8 to different configurations (for example, the terminal connection ends E7 and E8 to the output connection ends E3 and E4) is improved.

Further, in the turnout 2 according to the third aspect, the termination circuit 7 is non-polar in the first or second aspect.

According to the above configuration, since the termination circuit 7 is non-polar, the output connection end E3 may be electrically connected to the termination connection end E7 and the output connection end E4 may be electrically connected to the termination connection end E8. , The output connection end E3 may be electrically connected to the terminal connection end E8, and the output connection end E4 may be electrically connected to the terminal connection end E7. Therefore, the workability of the turnout 2 is further improved.

Further, in the turnout 2 according to the fourth aspect, in any one of the first to third aspects, the termination circuit 7 includes at least one of the resistor 71 and the capacitor 72.

According to the above configuration, the termination circuit 7 can be easily formed as compared with the case where the termination circuit 7 does not include either the resistor 71 or the capacitor 72.

Further, the turnout 2 according to the fifth aspect further includes eight lead wires L1 to L8 in any one of the first to fourth aspects. The eight lead wires L1 to L8 are eight connection ends of a pair of input connection ends E1 and E2, a pair of output connection ends E3 and E4, a pair of branch connection ends E5 and E6, and a pair of terminal connection ends E7 and E8. It is connected to the.

According to the above configuration, the eight lead wires L1 to L8 provide a pair of input connection ends E1, E2, a pair of output connection ends E3, E4, a pair of branch connection ends E5, E6, and a pair of terminal connection ends E7. , E8 can be electrically connected to another configuration (eg, termination connection ends E7, E8 to output connection ends E3, E4).

Further, in the turnout 2 according to the sixth aspect, in the fifth aspect, a pair of lead wires (termination lead wires) connected to the pair of termination connection ends E7 and E8 among the eight lead wires L1 to L8. In each of L7 and L8), a part of the core wire 114 (exposed portion 1150) different from the tip is exposed.

The pair of lead wires (pair of terminal lead wires L7, L8) connected to the pair of terminal connection ends E7 and E8 is a pair of lead wires (pair of output lead wires) connected to the pair of output connection ends E3 and E4. When not connected to L3, L4), it is preferable to insulate the core wire 114. According to the above configuration, in the pair of terminal lead wires L7 and L8, the core wire 114 of a part (exposed portion 1150) different from the tip is exposed. Therefore, when the pair of output lead wires L3 and L4 are not connected to the pair of terminal lead wires L7 and L8, the exposed portion 1150 may be insulated. That is, it is easier to insulate the core wire 114 as compared with the case where the core wire 114 is exposed in the exposed portion 1150 and the portion around the exposed portion 1150. Further, since the core wire 114 is exposed in the exposed portion 1150, an electrode or the like can be connected to the core wire 114 to easily perform an energization inspection of the turnout 2.

Further, the intercom system 1 according to the seventh aspect includes a plurality of turnouts 2 according to any one of the first to sixth aspects. The intercom system 1 further includes a plurality of dwelling unit terminals 81 and a communication device 82. The plurality of dwelling unit terminals 81 are electrically connected to the plurality of turnouts 2. The communication device 82 is electrically connected to the plurality of dwelling unit terminals 81 via the plurality of turnouts 2 and communicates with the plurality of dwelling unit terminals 81.

According to the above configuration, since the termination circuit 7 is provided in the turnout 2, it is not necessary to prepare the termination circuit 7 separately from the turnout 2. Therefore, the workability when terminating the turnout 2 is improved. Further, as compared with the case where the terminal circuit 7 is prepared separately from the turnout 2, the possibility of losing the terminal circuit 7 can be reduced.

The configuration according to the second to sixth aspects is not an essential configuration for the turnout 2, and can be omitted as appropriate.

1 Intercom system 2 Turnout 7 Termination circuit 71 Resistance 72 Capacitor 81 Dwelling unit terminal 82 Communication device 103, 113 Cover (display)
1150 Exposed part (part)
114 Core wire E1, E2 Input connection end E3, E4 Output connection end E5, E6 Branch connection end E7, E8 Terminal connection end L1 to L8 Lead wire

Claims (7)

A pair of input connection ends and
A pair of output connection ends electrically connected to the pair of input connection ends,
A pair of branch connection ends electrically connected to the pair of input connection ends,
A pair of termination connections and
A terminal circuit electrically connected between the pair of terminal connection ends and
A turnout including the pair of input connection ends, the pair of output connection ends, the pair of branch connection ends, and a display unit that displays differently for each pair of the pair of terminal connection ends . The termination circuit is non-polar
The turnout according to claim 1. The termination circuit includes at least one of a resistor and a capacitor.
The turnout according to claim 1 or 2. Eight lead wires connected to eight connection ends of the pair of input connection ends, the pair of output connection ends, the pair of branch connection ends, and the pair of terminal connection ends are further provided.
The turnout according to any one of claims 1 to 3. Of the eight lead wires, each of the pair of lead wires connected to the pair of terminal connection ends has a part of the core wire different from the tip exposed.
The turnout according to claim 4. A pair of input connection ends and
A pair of output connection ends electrically connected to the pair of input connection ends,
A pair of branch connection ends electrically connected to the pair of input connection ends,
A pair of termination connections and
A terminal circuit electrically connected between the pair of terminal connection ends and
Eight lead wires connected to eight connection ends of the pair of input connection ends, the pair of output connection ends, the pair of branch connection ends, and the pair of terminal connection ends.
Of the eight lead wires, each of the pair of lead wires connected to the pair of terminal connection ends has a part of the core wire different from the tip exposed.
Turnout. A plurality of turnouts according to any one of claims 1 to 6 are provided.
A plurality of dwelling unit terminals electrically connected to the plurality of turnouts,
An intercom system further comprising a communication device that is electrically connected to the plurality of dwelling unit terminals via the plurality of turnouts and communicates with the plurality of dwelling unit terminals.

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