JP6426021B2 - Impedance bond - Google Patents

Description

  The present invention relates to an impedance bond installed at the boundary of a track circuit of a railroad track.

  An example of a conventional impedance bond is described in Patent Document 1. The impedance bond described in Patent Document 1 includes an interior member including an iron core formed of an upper magnetic body block and a lower magnetic body block and a coil, and a metal case for housing the interior member. Then, a thermally conductive and insulating resin is filled in a gap formed by the outer surface of the interior member and the inner surface of the metal case.

Unexamined-Japanese-Patent No. 04-370911

  In the above-described conventional impedance bond, while the position of the interior member in the housing is maintained by the filled resin, heat generated by the interior member (the coil) is transmitted through the resin. It is transmitted to and released.

  However, for example, when the size of the iron core (i.e., the interior member) is increased, the position of the interior member is deteriorated when the impedance bond is subjected to vibration or impact due to insufficient holding of the interior member by the resin. Misalignment may occur. On the other hand, it is conceivable to increase the resin (increase the thickness of the resin), but this may reduce the heat radiation of the heat generated by the interior member (the coil).

  In addition, it can be said that suppressing the occurrence of positional deviation or the like of the interior member is commonly required for various impedance bonds of a configuration in which the interior member is accommodated in the case regardless of the presence or absence of the resin. .

  Then, an object of this invention is to provide the impedance bond which can hold | maintain the said interior member stably, even when it is a case where the said interior member becomes large.

According to one aspect of the present invention, the impedance bond includes an interior member including an iron core and a coil wound around the core, a case main body having an upper opening for accommodating the interior member, and a fixing provided in the case main body . And a holding member fixed to the upper part from above and holding the interior member accommodated in the case main body at a predetermined position.
Further, according to another aspect of the present invention, the impedance bond includes an inner member including an iron core and a coil wound around the iron core, a case main body of an upper opening for containing the inner member, and the case main body from above. A holding member for holding the interior member, which is fixed in place and housed in the case main body, at a predetermined position, and a lid closing the upper opening of the case main body, the interior member and the case main body A filling hole is formed in the lid for filling the filler with a gap between the two.

  The impedance bond has a holding member which is fixedly attached to the case main body from above and holds the interior member housed in the case main body at a predetermined position. For this reason, even when the interior member is enlarged, stable retention of the interior member is possible.

FIG. 1 is an external perspective view of an impedance bond according to an embodiment of the present invention. It is a perspective view which shows the inside of the said impedance bond. It is a disassembled perspective view of the said impedance bond. It is a figure which shows schematic structure of a holding member, (A) is a front view, (B) is a top view, (C) is a bottom view. It is a schematic block diagram of the track | orbit circuit to which the said impedance bond was applied.

  Hereinafter, embodiments of the present invention will be described with reference to the attached drawings. 1 to 3 show a schematic configuration of an impedance bond 1 according to an embodiment of the present invention. FIG. 1 is a perspective view showing the appearance of the impedance bond 1, FIG. 2 is a perspective view showing the inside of the impedance bond 1, and FIG. 3 is an exploded perspective view of the impedance bond 1. The impedance bond 1 is installed in the vicinity of the boundary of the track circuit of the railway line, and between the adjacent track circuits, DC electric train current (return current) flows, but AC signal current for detecting the train position etc. Perform the function of not flowing. As shown in FIGS. 1 to 3, the impedance bond 1 includes an interior member 2, a case main body 3, a terminal member 4, a holding member 5, and a lid 6.

  The interior member 2 includes an iron core 21 and a coil 22 wound around the iron core 21. The interior member 2 has a rectangular outer shape in plan view as viewed from above. The iron core 21 consists of an upper iron core 21a and a lower iron core 21b. In the present embodiment, the upper iron core 21a and the lower iron core 21b are each formed in an E-shape by combining two U-shaped cut cores, and are arranged such that the concave portions thereof face each other. The upper iron core 21 a and the lower iron core 21 b are integrally fixed by a fixing device 23 such as a belt.

  The coil 22 is formed in an annular shape, and is accommodated in a space formed by the recess of the upper core 21 a and the recess of the lower core 21 b. The coil 22 includes a primary coil 221 and a secondary coil 222. The primary coil 221 includes an upper coil 221a and a lower coil 221b, and the secondary coil 222 is disposed between the upper coil 221a and the lower coil 221b of the primary coil 221.

  The case body 3 is formed in a box-like shape with an upper opening, and accommodates the interior member 2 therein. The case body 3 is formed of a metal having high thermal conductivity, water resistance and corrosion resistance, such as stainless steel or aluminum alloy. This is in consideration of the need to efficiently release the heat generated by the interior member 2 (in particular, the coil 22) and the fact that the impedance bond 1 is installed outdoors. In the case body 3, a plurality of column portions 31 rising from the inner bottom surface of the case body 3 are provided. Although four columns 31 are provided in this embodiment, only two of them are shown in FIG. Each pillar portion 31 is arranged to be located in the vicinity of the outside of the corner of the interior member 3 when the interior member 2 is accommodated in the case body 3. The upper surface of each column 31 is located in the vicinity of the opening at the top of the case main body 3, and a screw hole 31 a is formed on the upper surface of each column 31.

  The terminal member 4 is provided mainly for drawing out the terminal of the primary coil 221 (upper coil 221a and lower coil 221b) to the outside of the case main body 3. The terminal member 4 includes a pair of both side terminals 41 (41a, 41b) and a neutral terminal 42 disposed between the pair of both side terminals 41 (41a, 41b). One end of one of both side terminals 41 a is connected to one end of the upper coil 221 a of the primary coil 221 in the case main body 3, and the other end of one of both side terminals 41 a protrudes to the side of the case main body 3. One end of the other side terminal 41 b is connected to one end of the lower coil 221 b of the primary coil 221 in the case body 3, and the other end of the other side terminal 31 b protrudes to the side of the case body 3. Further, one end of the neutral terminal 42 is connected to the other end of the upper coil 221 a and the other end of the lower coil 221 b in the case main body 3, and the other end of the neutral terminal 42 protrudes to the side of the case main body 5 ing. That is, the other ends of the one side terminals 41 a and 41 b are connected to each other via the neutral terminal 42.

  The holding member 5 holds the interior member 2 accommodated in the case body 3 at a predetermined position. The holding member 5 is configured to be attached to and fixed to the case body 3 from above after the interior member 2 is accommodated in the case body 3. The holding member 5 is formed of, for example, stainless steel, an aluminum alloy, or the like, as in the case main body 3.

  FIG. 4 shows a schematic configuration of the holding member 5. FIG. 4A is a front view of the holding member 5, FIG. 4B is a plan view of the holding member 5, and FIG. 4C is a bottom view of the holding member 5. As shown in FIG. As shown to FIG. 4 (A)-(C), in this embodiment, the holding member 5 is the surrounding wall part 51 formed so that the upper periphery of the interior member 2 (iron core 21) might be enclosed, and the interior member 2 It has a pair of contact parts 52 and 52 which abut on the upper surface of (iron core 21), and attachment parts 53 of the same number (here four) as the pillar parts 31 of the case main body 3.

  Similarly to the interior member 2 (iron core 21), the surrounding wall portion 51 has a rectangular outer shape in the plan view, and the inner surface is in contact with the upper portion of each side of the interior member 2 (iron core 21) or It is formed to surround the upper part of each side with a predetermined play. The pair of contact portions 52 are connected to the ends of the opposite side surfaces of the surrounding wall 51, and contact the vicinity of the facing edge portions of the upper surface of the interior member 2 (iron core 21). Further, an opening 54 for partially exposing the upper surface of the interior member 2 (iron core 21) is formed between the pair of contact portions 52, 52. Each mounting portion 53 is provided on the outer side surface of the surrounding wall portion 51, and rotatably holds a fastener 7 such as a screw or a bolt.

  The holding member 5 is disposed on the upper surface of the column 31 to which the attachment portions 53 correspond, and the fastener 7 is screwed into a screw hole 31 a formed on the upper surface of the column 31, thereby the case body It is attached and fixed to 3. Here, each fastener 7 is screwed into the corresponding screw hole 31 a by a rotation operation from above using a tool such as a driver or a wrench.

  When the holding member 5 is attached and fixed to the case main body 3, the interior member 2 is pressed downward by the pair of contact portions 52, 52, and its movement in the longitudinal and lateral directions is restricted by the surrounding wall portion 51. Ru. Thereby, the interior member 2 is held at the predetermined position in the case main body 3.

  The lid 6 closes the upper opening of the case body 5. The lid 6 is attached and fixed to the upper opening end of the case main body 5 by a plurality of fasteners 8 after the holding member 5 is attached and fixed to the case main body 3. The lid 6 is formed of stainless steel, an aluminum alloy, or the like, as in the case body 3. The lid 6 has two filling holes 61 for filling the inside of the case body 3, that is, the gap between (the outer surface of the interior member 2) and (the inner surface of) the case body 3. Each filling hole 61 is located above the opening 54 of the holding member 5 and is closed by the removable cap member 62. The filler is, for example, a resin that can efficiently transmit the heat generated by the interior member 2 (in particular, the coil 22) to the case main body 5. In the present embodiment, the filler (resin) is filled in the case body 3 from the filling hole 61 in a molten state, and is solidified in the case body 3. Therefore, the interior member 2 is also held at the predetermined position by the filler in the case main body 3. Further, heat generated in the interior member 2 (coil 22) is efficiently released by the filler.

  FIG. 5 is a view schematically showing a schematic configuration of the track circuit to which the impedance bond 1 having the above configuration is applied. As shown in FIG. 5, the pair of impedance bonds 1A and 1B are disposed in the vicinity of the boundary of the adjacent track circuits, and the other end of each other's neutral terminal 42 is connected via the neutral wire 11. Further, in each of the impedance bonds 1A and 1B, the other end of one side terminal 41a is connected to one rail R1 through the conducting wire 12, and the other end of the other side terminal 41b is the other via the conducting wire 13. Connected to rail R2.

The return currents I ₁ and I ₂ flow from the rails R 1 and R 2 to the neutral point of the primary coil 221 of the impedance bond 1 B through the conducting wires 12 and 13 and merge after passing through the neutral wire 11 after being merged. It flows to the neutral point. The return current (I ₁ + I ₂ ) that has flowed to the neutral point of the impedance bond 1A is then combined with the upper coil 221a (return current I ₁ ) and the lower coil 221b (return current I ₂ ) of the primary coil 221. It branches and flows, and it returns to rails R1 and R2. On the other hand, the signal current I _S flows from the rail R1 to the rail R2 through the conducting wire 12, the primary coil 221 of the impedance bond 1A and the conducting wire 13.

Here, the return currents I ₁ and I ₂ and the signal current I _S flow in the primary coil 221 of the impedance bond 1A, but the magnetic flux generated by the return current I ₁ flowing in the upper coil 221 a and the lower coil 221 b And the magnetic flux generated by the retrace current I ₂ flowing to each other cancel each other. Therefore, the secondary coil 222 of the impedance bond 1A, only the voltage (signal voltage) E _S corresponding to the magnetic flux produced by the signal current I _S is induced. Then, the connected track relays in the secondary coil 222 of the impedance bond 1A This induced signal voltage E _S (not shown) is activated. In this manner, the impedance bond 1 allows the return current I ₁ and I ₂ to flow between the adjacent track circuits, while preventing the signal current I _S from flowing.

  In the present embodiment, the impedance bond 1 has a holding member 5 which is attached and fixed from above to the case body 3 of the upper opening and holds the interior member 2 accommodated in the case body 3 at a predetermined position. For this reason, the stable holding of the interior member 2 (especially the iron core 21) in the case main body 3 becomes possible. Here, the holding member 5 has a surrounding wall 51 formed so as to surround the upper periphery of the interior member 2 and abutment portions 52 and 52 that abut on the top surface of the interior member 2. Therefore, the holding member 5 can hold the interior member 2 effectively by pressing the interior member 2 downward and restricting the movement of the interior member 2 in the front-rear and left-right directions.

  Further, in the present embodiment, the holding member 5 is attached and fixed to the case main body 3 by a plurality of fasteners 7 operated from above. For this reason, the attachment operation to the case main body 3 of the holding member 5 is easy. Furthermore, in the present embodiment, the case body 3 has a mounting portion to which the plurality of fasteners 7 are mounted, that is, a screw hole 31a in the vicinity of the upper opening. Therefore, the work of attaching the holding member 5 to the case main body 3 is further facilitated.

  Further, in the present embodiment, each mounting portion 53 of the holding member 5 rotatably holds the fastener 7, and the holding member 5 and the plurality of fasteners 7 are integrated. For this reason, it is prevented that the fastener 7 falls into the case main body 3 or loses at the time of attachment work to the case main body 3 of the holding member 5, and workability | operativity improves.

  Further, in the present embodiment, the interior member 2 has a rectangular outer shape in a plan view when the impedance bond 1 is viewed from above, and each fastener 7 has a corner portion of the interior member 2 in the plan view. Is located near the outside of the For this reason, it is suppressed that each fastener 7 affects the magnetic characteristic of the iron core 21, etc.

  Further, in the present embodiment, the filling hole 61 for filling the filling material in the case body 3, more specifically, in the gap between the interior member 2 and the case body 3 is formed in the lid 6. Therefore, after the lid 6 is attached to the case main body 3, the filler can be easily filled in the case main body 3. Here, the filler is filled in the case body 3 in a molten state and solidified in the case body 3. For this reason, the interior member 2 is held at a predetermined position by the filler in addition to the holding member 5.

  In the above-mentioned embodiment, although the above-mentioned filler is filled in the crevice between interior member 2 and case body 3, when maintenance of interior member 2 by holding member 5 is enough, the above-mentioned filler is used. It may be omitted. However, in order to efficiently release the heat generated in the interior member 2, it is preferable that a resin or the like having a high thermal conductivity be filled in the case main body 3 as the filler.

  Moreover, in the above-mentioned embodiment, although the holding member 5 and the some fastener 7 are integrated, the holding member 5 and the some fastener 7 may be comprised separately. The number of fasteners 7 may also be set arbitrarily. However, even when the number of fasteners 7 is increased, each fastener 7 is preferably disposed in the vicinity of the outside of the corner of the interior member 2 in the plan view. Furthermore, in the above-mentioned embodiment, although lid 6 has two filling holes 61, the number of filling holes 61 may be set arbitrarily.

  As mentioned above, although embodiment of this invention was described, this invention is not limited to the above-mentioned embodiment, Based on the technical idea of this invention, a various deformation | transformation and change are possible.

DESCRIPTION OF SYMBOLS 1 ... Impedance bond 2 ... Interior member 3 ... Case main body 4 ... Terminal member 5 ... Holding member 6 ... Lid 7 ... Fastener 21 ... Iron core 22 ... Coil 31 ... Column part 31 a ... Screw hole (attachment part)
41 ... both side terminals 42 ... neutral terminal 51 ... surrounding wall 52 ... contact part 53 ... mounting part 61 ... filling hole 221 ... primary coil 222 ... secondary coil

Claims (9)

An interior member including an iron core and a coil wound around the iron core;
An upper opening case main body accommodating the interior member;
A holding member which is fixed from above at a fixing portion provided in the case main body and holds the interior member accommodated in the case main body at a predetermined position;
Have an impedance bond. The holding member includes a surrounding wall portion which is formed so as to surround the upper periphery of the interior member, have a, a contact portion which comes into contact with the upper surface of the interior member is disposed within the case body, wherein The impedance bond according to Item 1. The impedance bond according to claim 1, wherein the holding member is attached and fixed to the fixing portion by a plurality of fasteners operated from above. The impedance bond according to claim 3, wherein the fixing portion is provided in the vicinity of the upper opening in the case main body . The interior member has a rectangular outer shape in plan view as viewed from above,
Said plurality of respective concluding tool, in the plan view, the are arranged near the outside corners of the interior member in the case body, the impedance bond according to claim 3 or 4. The holding member and the and the plurality of concluded tool are integrated, impedance bonds according to any one of claims 3-5. The iron core is composed of a pair of E-shaped cut cores in which the respective recesses are disposed opposite to each other,
The impedance bond according to any one of claims 1 to 6, wherein the coil includes a primary coil and a secondary coil, and is accommodated in a space formed by the concave portions of the pair of E-shaped cut cores. . A lid closing the upper opening of the case body;
The impedance bond according to any one of claims 1 to 7, wherein a filling hole for filling a filler in a gap between the interior member and the case body is formed in the lid. An interior member including an iron core and a coil wound around the iron core;
An upper opening case main body accommodating the interior member;
A holding member which is fixed to the case main body from above and holds the interior member accommodated in the case main body at a predetermined position;
A lid closing the upper opening of the case body;
Have
An impedance bond, wherein a filling hole for filling a filler in a gap between the interior member and the case body is formed in the lid.