JP2019199749A - Floor board - Google Patents

Abstract

To provide a floor board which makes it possible to easily carry out the track maintenance work or wiring work.SOLUTION: A floor board freely movably supports a tongue rail 4a. An accommodating portion 11i accommodates an elongated heating portion 12a for heating the floor board inside the floor board. For this reason, compared to the case where the elongated heating portion 12a is externally attached to both edges of the floor board, the width of the floor board does not expand, and it is possible to prevent the elongated heating portion 12a from hindering the work at the time of tempering the track. An insertion portion 11j inserts the elongated heating portion 12a into the accommodating portion 11i from a gauge outer side P. The elongated heating portion 12a is wired from the gauge outer side Pwhile being inserted into the insertion portion 11j. For this reason, the attachment/detachment work and the wiring work of the elongated heating portion 12a can be conducted from the gauge outer side Pwithout entering a gauge inner side P.SELECTED DRAWING: Figure 7

Description

  The present invention relates to a floor board that supports a rail in a movable manner.

  In a railway branching device, in order to prevent snow melting and freezing at a point portion, a heating device such as a heater for heating the floor plate is attached to a floor plate that supports the Tongrel reversibly. A conventional floor board (prior art 1) includes a heater holding frame that accommodates a heater for heating the floor board, and a joint that joins the heater holding frame to both side surfaces of the floor board (see, for example, Patent Document 1). . In this prior art 1, in a state where a heater is accommodated in a heater holding frame formed by welding a joint to both side surfaces of a floor plate and bending a metal plate material into a U shape, the heater holding frame is attached to the floor plate by the joint. It is attached. Moreover, the conventional floor board (prior art 2) is equipped with the frame board which supports a heater main body, the space part which accommodates this frame board inside a floor board, the insertion port etc. which insert a frame body in this space part. (For example, refer to Patent Document 2). In this prior art 2, the floor plate is heated by the heater body to melt snow on the sliding surface on which the Tongrel slides and to prevent the Tongrel from freezing on the sliding surface.

JP 2009-019499

JP 2001-131901 A

  Prior art 1 has a structure in which a heater holding frame needs to be attached in advance to both side surfaces of a floor board, and the floor board is heated by a heater from the outside of the floor board. For this reason, in the prior art 1, the work for welding the heater holding frame to the floor plate is required, and it takes time and labor to assemble, and the floor plate itself is difficult to warm. Moreover, since the heater holding frame is attached to the both sides of a floor board, the prior art 1 becomes wide in a floor board. For this reason, in the prior art 1, the heater holding frame protrudes from the sleeper on which the floor plate is mounted, and the heater holding frame becomes an obstacle when the worker performs a road-bed tamping operation during track maintenance. There is.

  Prior art 2 cannot form an insertion port at the end of the floor plate outside the gauge where the fastening holes are present, and cannot insert the frame plate into the floor plate from the end of the floor plate outside the gauge. For this reason, in the prior art 2, an insertion port is formed at the end of the floor plate on the inner side of the gauge where there is no fastening hole. Further, in the prior art 2, in order to connect a power supply wire to the heater body in the frame plate inserted into the insertion slot, the wire is wired from the outside of the gauge to the inside of the gauge, and the heater body from the inside of the gauge. It is necessary to connect an electric wire to. For this reason, in the prior art 2, it is necessary for the worker to perform the work of attaching and detaching the frame plate and the wiring work to the heater body inside the gauge, and the work time is limited while the train is not running. There is. Further, in the prior art 2, there is a problem that the wiring inside the gauge becomes a hindrance to the work when the roadbed tamping work is performed at the time of the track maintenance. . Furthermore, in the prior art 2, in order to draw the wiring from the inside of the gauge to the outside of the gauge, it is necessary to lay a sleeper for protecting the cable for storing the wiring, which takes time and increases the work cost. There is a problem.

  The subject of this invention is providing the floor board which can implement a track maintenance work and wiring work easily.

The present invention solves the above-mentioned problems by the solving means described below.
In addition, although the code | symbol corresponding to embodiment of this invention is attached | subjected and demonstrated, it is not limited to this embodiment.
As shown in FIGS. 5 to 8, the invention of claim 1 is a floor plate that movably supports the rails (4, 4b), and an elongated heating section (12a) for heating the floor plate is accommodated inside the floor plate. It is a floor board (11) characterized by including the accommodating part (11i) to do.

According to a second aspect of the present invention, in the floorboard according to the first aspect, as shown in FIGS. 4, 5 and 7, the elongated heating portion is inserted into the housing portion from the outside of the gauge (P ₂ ). It is a floor board provided with an insertion part (11j).

  According to a third aspect of the present invention, in the floorboard according to the first or second aspect, as shown in FIG. 9, the elongated heating portion is wired from the outside of the gauge while being inserted into the insertion portion. It is the floor board characterized by this.

  As for invention of Claim 4, in the floor board of any one of Claim 1 to Claim 3, as shown in FIG.6 and FIG.7, the said accommodating part has a floorboard through-hole (11c, 11e). The floor plate is characterized in that the elongated heating section is accommodated inside the floor plate.

According to a fifth aspect of the present invention, in the floorboard according to any one of the first to fourth aspects, as shown in FIGS. 4 to 6 and FIG. It is a floor board characterized in that the elongated heating part is accommodated in a groove part formed on the lower surface of the floor board toward P ₁ ).

  According to the present invention, the structure is simple and the track maintenance work and the wiring work can be easily performed.

It is a top view which shows roughly the branching device by which the floor board which concerns on embodiment of this invention is used as an example. It is a top view which shows roughly the use condition of the floor board which concerns on embodiment of this invention. It is a side view which shows roughly the use condition of the floor board which concerns on embodiment of this invention. It is the front view seen from the IV direction shown in FIG. It is sectional drawing which shows the state cut | disconnected by the VV line | wire of FIG. It is sectional drawing which shows the state cut | disconnected by the VI-VI line of FIG. It is a top view which shows roughly the floor board which concerns on embodiment of this invention. It is a longitudinal cross-sectional view of the accommodating part of the floor board which concerns on embodiment of this invention. It is a top view which shows typically the wiring of the elongate heating part accommodated in the floor board which concerns on embodiment of this invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
The conversion device 1 shown in FIG. 1 is a device that generates a conversion force for converting the branching device 2. The conversion device 1 is an electric switch that transmits the rotational force of the electric motor to the rolling bar 6 of the point unit 3 through a friction clutch, a reduction gear, and the like to convert the point unit 3. The conversion device 1 includes an operation canister 1a with a predetermined stroke, a switch adjuster 1b for connecting the operation canister 1a and the switch rod 6 of the branching device 2, and the like.

The branching device 2 is a device that divides one track into two or more tracks. The branching device 2 shown in FIG. 1 is a single-opening branching device in which the reference line is a straight line and the branch line (another line) is a curve. The branching device 2 includes a point unit 3 and the like. The point portion 3 is a portion that divides the trajectory among the portions constituting the branching device 2. The point portion 3 includes the Tongrel 4a and 4b, the basic rails 5a and 5b, the rolling rod 6 and the sleeper 7 shown in FIG. 1, the rail press 8 shown in FIGS. The fastening members 9 and 10 shown in FIG. 4 and the floor board 11 shown in FIGS. In the point portion 3, the tip 6 is connected to the operation rod 1a of the conversion device 1, and in conjunction with the conversion operation of the conversion device 1, the tongrels 4a and 4b perform the conversion operation in the A ₁ and A ₂ directions. . Point portion 3, when the tongue rail 4a, 4b was converted to A ₁ direction, tongue rail 4a comes into close contact with the base rail 5a, tongue rail 4b is separated from the base rail 5b. On the other hand, the point portion 3, when the tongue rail 4a, 4b was converted to A ₂ direction in the opposite direction to the A ₁ direction, tongue rails 4a is separated from the base rails 5a, tongue rails 4b comes into close contact with the base rail 5b . 1-3, gauge inner P ₁ shown in FIGS. 5 and 7, left and right base rail 5a, a region inside the 5b, gauge outer P ₂ shown in FIGS. 1-7 the right and left base rail 5a , 5b.

  The tongrels 4a and 4b shown in FIG. 1 are convertible movable rails with sharpened tips. The tong rails 4a and 4b have the same structure, and the following description will focus on one of the tongrails 4a shown in FIG. As shown in FIGS. 2, 3, 5, and 7, the tongue rail 4 a includes a rail bottom 4 c that is supported on the floor plate 11, and the rail bottom 4 c has a bottom lower surface 4 d that contacts the floor plate 11. I have.

The basic rails 5a and 5b are fixed rails in which the tips of the Tongrels 4a and 4b are in close contact with and separated from each other. As shown in FIGS. 1 to 6, the basic rails 5 a and 5 b are fastened to the sleeper 7 via the floor plate 11. The basic rails 5a and 5b shown in FIG. 1 have the same structure, and in the following, one basic rail 5a shown in FIG. 1 will be mainly described, and detailed description of the other basic rail 5b will be omitted. As shown in FIGS. 2 to 6, the basic rail 5a includes a rail head portion 5c that comes into contact with the wheels of the railway vehicle, a rail bottom portion (flange portion) 5d that is supported by the sleeper 7 via the floor plate 11, and a rail. A rail abdomen (web portion) 5e that connects the head 5c and the rail bottom 5d is provided. The rail head portion 5c includes a head top surface (head top surface) 5f that directly supports the wheels, a head side surface 5g that constitutes left and right side portions of the rail head portion 5c and is continuous with the head top surface 5f, and a rail head portion 5c. An upper neck portion 5h constituting a boundary surface portion between the rail abdomen 5e and the like is provided. The rail bottom 5d is detachably mounted on the floor plate 11 by a rail press 8. The rail bottom portion 5d includes a bottom top surface 5i pressed by the rail press 8, a bottom bottom surface 5j joined to the floor board 11, a bottom side surface 5k constituting left and right side portions of the rail bottom portion 5d, and the like. A rolling bar 6 shown in FIG. 1 is a member attached to the Tongrel 4a and 4b. The bar 6 is driven by the conversion force generated by the conversion device 1 and reciprocates in the directions A ₁ and A ₂ .

  A sleeper 7 shown in FIGS. 1 to 6 is a support (support) that supports the branching device 2. As shown in FIG. 1, the sleeper 7 fixes the basic rails 5a and 5b and accurately maintains the distance between the rails, and also widely distributes the train load transmitted from the tongrels 4a and 4b and the basic rails 5a and 5b to the roadbed. In order to achieve this, it is installed between the Tongrel 4a and 4b and the basic rails 5a and 5b and the roadbed. A sleeper 7 shown in FIGS. 1 to 6 is a wooden sleeper manufactured from a natural tree and subjected to an antiseptic treatment, and is a branched sleeper used in the branching device 2. As shown in FIG. 1, the sleepers 7 are arranged at predetermined intervals in the length direction of the Tongrels 4a and 4b and the basic rails 5a and 5b, and the Tongrels 4a and 4b and the basic rails 5a and 5b are arranged. Is supported discretely.

  The rail press 8 shown in FIGS. 2 to 6 is a member that prevents the basic rails 5a and 5b from overturning. As shown in FIGS. 3 and 5, the rail press 8 is in close contact with the upper neck 5h and the rail abdomen 5e of the basic rail 5a on the side opposite to the side in contact with the Tongrel 4a, and at the bottom upper surface 5i of the basic rail 5a. Is holding down. The rail press 8 includes an insertion hole 8a shown in FIGS. 2 and 6, a protrusion 8b shown in FIGS. 3 and 5, and the like. 2 and 6 is a portion into which the fastening bolt 9a of the fastening member 9 is inserted. The insertion hole 8 a is formed in a long hole so that the fastening bolt 9 a penetrates the rail press 8 in a state where the rail press 8 is slid with respect to the floor plate 11. The protruding portion 8 b is a portion that fits into the fitting groove 11 d of the floor plate 11. The protrusion 8b is a protrusion that is formed so as to protrude from the lower surface of the rail press 8, and is linearly formed with a predetermined length.

  The fastening member 9 shown in FIGS. 2 to 6 is a member that fastens the basic rail 5 a to the floor plate 11. The fastening member 9 includes a fastening bolt 9a, a fastening nut 9b, a washer 9c, and the like. The fastening bolt 9 a is a member that fastens the rail press 8. As shown in FIG. 6, the fastening bolt 9a is a T-bolt having a substantially T-shaped appearance. The fastening bolt 9a includes a bolt head portion 9d that is hooked on the retaining portion 11g of the floor plate 11, a rotation preventing portion 9e that prevents rotation of the fastening bolt 9a around the center line, and the like. A part of the cross section of the bolt head 9d under the neck is formed in a square shape so that the rotation preventing part 9e is fitted to the rotation preventing part 11h on the floor plate 11 side. The fastening nut 9b is a member having a female screw portion that meshes with the male screw portion of the fastening bolt 9a. The washer 9 c is a member that is sandwiched between the fastening nut 9 b and the rail press 8.

  The fastening member 10 shown in FIGS. 2 to 4 is a member that fastens the floor plate 11 to the sleeper 7. The fastening member 10 is a nail that fastens the floor plate 11 to the sleeper 7, for example. As shown in FIG. 2, the fastening member 10 has a circular head portion 10 a having a circular planar shape for pressing the upper surface of the floor plate 11, and a circular sectional shape when cut in a horizontal plane as shown in FIG. 7. A nail portion 10b that is inserted into the fastening hole 11c and driven into the sleeper 7 is provided.

  The floor board 11 shown in FIGS. 1-7 is a member which supports the Tongrel 4a, 4b so that a movement is possible. The floor board 11 is a member inserted between the tongue rails 4a, 4b and the basic rails 5a, 5b and the sleeper 7, and is a fastening member fastened to the sleeper 7 while being sandwiched between them. is there. The floor plate 11 slidably supports the bottom lower surfaces 4d of the tongrels 4a and 4b and supports the bottom lower surfaces 5j of the basic rails 5a and 5b. The floor plate 11 is formed into a predetermined shape by pressing or cutting a metal such as a general structural rolling material, and is a plate-like member having a rectangular planar shape as shown in FIGS. 2 and 7. . The floor board 11 shown in FIGS. 1-7 is a floor board for 50 kgN rails, or a floor board for 60 kg rails, for example. The floor plate 11 includes a seating surface 11a shown in FIGS. 3, 5 and 7, a sliding surface 11b shown in FIGS. 2, 3, 5 and 7, a fastening hole 11c shown in FIG. The fitting groove 11d shown in FIG. 3, FIG. 5 and FIG. 7, the fastening hole 11e shown in FIG. 6 and FIG. 7, the accommodating portion 11i shown in FIG. An insertion portion 11j, a joint portion 11k shown in FIGS. 6 and 8, and a closing portion 11m shown in FIGS. 4 to 6 and 8 are provided.

  The seating surface 11a shown in FIGS. 3, 5 and 7 is a portion on which the bottom lower surface 5j of the basic rails 5a and 5b is mounted. As shown in FIGS. 3 and 5, the seat surface 11a is formed to be a flat surface slightly lower than the sliding surface 11b. The seat surface 11a includes a step portion (shoulder portion) on which the bottom side surface 5k of the rail bottom portion 5d is caught so that the rail bottom portion 5d is positioned at a predetermined position on the floor plate 11.

The sliding surface 11b shown in FIGS. 2, 3, 5 and 7 is a portion on which the bottom lower surface 4d of the Tongrel 4a and 4b slides. As shown in FIG. 1, the sliding surface 11b is formed on a flat surface parallel to the seating surface 11a as shown in FIGS. 3 and 5 so that the Tongrels 4a and 4b can be changed in the A ₁ and A ₂ directions. Is formed. A fastening hole 11 c shown in FIG. 7 is a through hole that penetrates the floor plate 11. The fastening hole 11 c is a circular through hole formed in the floor plate 11 in order to insert the nail portion 10 b of the fastening member 10. The fastening holes 11c are formed at four corners at both ends of the floor plate 11 in the length direction. The fitting groove 11d shown in FIGS. 2, 3, 5, and 7 is a groove into which the protruding portion 8b of the rail press 8 is fitted. As shown in FIG. 7, the fitting groove 11 d is linearly formed at a predetermined depth on the upper surface of the floor plate 11 in a direction intersecting with the length direction of the rail 2, and from one edge of the floor plate 11. The other end is formed.

  The fastening holes 11e shown in FIGS. 6 and 7 are through holes that penetrate the floor plate 11. The fastening hole 11 e is formed in the floor plate 11 in order to insert the fastening bolt 9 a of the fastening member 9 from the upper surface side of the floor plate 11. As shown in FIG. 7, the fastening hole 11e is formed on the center line of the floor plate 11 near the end of the floor plate 11 on the side where the seating surface 11a is formed, and is formed inside the fastening hole 11c. Has been. The fastening hole 11 e is formed in a substantially T shape on the upper surface side of the floor plate 11. The fastening hole 11e includes an insertion port 11f shown in FIG. 7, a retaining portion 11g shown in FIG. 6, a rotation preventing portion 11h shown in FIGS.

  The insertion port 11f shown in FIG. 7 is a portion into which the bolt head 9d of the fastening bolt 9a of the fastening member 9 is inserted. The insertion port 11f is formed in a long hole shape so that the bolt head 9d can be inserted. The retaining portion 11g shown in FIG. 6 is a portion that prevents the fastening bolt 9a of the fastening member 9 from coming out of the fastening hole 11e. As shown in FIG. 7, the retaining portion 11g is a recess formed by partially notching the lower surface side of the floor plate 11 below the detent portion 11h. As shown in FIG. 7, the retaining portion 11g has a bolt head of the fastening bolt 9a when the fastening bolt 9a is inserted from the insertion port 11f and slid toward the locking portion 11h. 9d gets caught. 6 and 7 is a portion that prevents the fastening bolt 9a of the fastening member 9 from rotating. The anti-rotation portion 11h is fitted with the anti-rotation portion 9e on the fastening bolt 9a side to prevent the fastening bolt 9a from rotating around the center line when the fastening nut 9b is attached to the fastening bolt 9a. .

5-8 is a part which accommodates the elongate heating part 12a for a floor board heating in the inside of the floor board 11. As shown in FIG. As shown in FIGS. 5 and 7, the accommodating portion 11 i is configured such that water or dust entering the inside of the accommodating portion 11 i can be easily discharged from one end of the floor plate 11 to the other end. The part is formed in a straight line. As shown in FIG. 7, the accommodating portion 11 i accommodates the elongated heating portion 12 a inside the floor plate 11 while avoiding the fastening holes 11 c and 11 e so that the accommodating portion 11 i does not interfere with the fastening holes 11 c and 11 e. To do. Two accommodating portions 11i are formed in parallel to each other in the length direction of the floor plate 11 so as to pass between the fastening holes 11c and the fastening holes 11e. As shown in FIGS. 6 and 8, the accommodating portion 11i is a groove portion having a substantially U-shaped cross-section, and is machined or the like so that its inner diameter is slightly larger than the outer diameter of the elongated heating portion 12a. Is formed. Accommodating section 11i, as shown in FIGS. 5 and 7, to accommodate the elongated heating portion 12a into a groove formed on the lower surface of the floor plate 11 toward the gauge outside P ₂ in gauge inside P _1.

4, the insertion portion 11j shown in FIGS. 5 and 7, a part for inserting the gauge outside P ₂ in the housing portion 11i of the elongated heating section 12a. As shown in FIG. 4, the insertion portion 11 j is an opening formed at one end of the floor board 11, and is connected to the accommodation portion 11 i as shown in FIGS. 5 and 7. The insertion part 11j is formed in the edge part of the floor board 11 close | similar to the seat surface 11a of the floor board 11, as shown in FIG. The insertion portion 11j is located not on the gauge inner side P ₁ but on the gauge outer side P ₂ when the floor board 11 is mounted on the sleeper 7.

  The joint part 11k shown in FIG.6 and FIG.8 is a part which joins the block part 11m to the floor board 11. FIG. The joint part 11k is a step (notch part) formed at a corner where the accommodating part 11i and the lower surface of the floor plate 11 intersect. The joining part 11k is formed with substantially the same depth as the thickness of the closing part 11m so that when the closing part 11m is joined to the floor board 11, the lower surface of the floor board 11 and the lower surface of the closing part 11m have the same height. ing.

  The closed portion 11m shown in FIGS. 4 to 6 and 8 is a portion that closes the accommodating portion 11i. The closing portion 11m is a thin plate member having a rectangular planar shape, for example, formed by pressing or cutting a metal such as a general structural rolling material to have the same length and width as the accommodating portion 11i. The closing part 11m is welded or bonded to the joint part 11k.

  The heating device 12 shown in FIG. 9 is a device that heats the floor board 11. The heating device 12 melts the snow on the floor plate 11 by heating the floor plate 11 to prevent the movable part of the branching device 2 from freezing. The heating device 12 is an electric snow melting device that melts snow using an electric device, and has few failures and easy operation control, and can save labor for maintenance. The heating device 12 includes an elongated heating section 12a shown in FIGS. 4 to 9, a power supply section 12b shown in FIG. 9, a connector section 12c, a wiring section 12d, and the like.

4 to 9 are means for heating the floor board 11. The elongated heating unit 12a is a heating element that generates heat by converting electrical energy into thermal energy when a current flows. As shown in FIG. 4 to FIG. 6 and FIG. 8, the elongated heating section 12 a is a rod-shaped heater for heating a floor plate having an external appearance of a columnar shape or a cylindrical shape. The elongated heating part 12a heats the vicinity of the basic rails 5a and 5b and the movable range of the tongue rails 4a and 4b by heating the seating surface 11a and the sliding surface 11b of the floor plate 11 from the inside of the floor plate 11. . As shown in FIGS. 4 to 6 and 8, the elongated heating portion 12 a is formed to have an outer diameter that can pass through the gap between the accommodating portion 11 i of the floor plate 11 and the closing portion 11 m. As shown in FIGS. 5 and 7, the elongated heating portion 12 a is formed to be shorter than the entire length of the accommodating portion 11 i, and is a length that can reach the sliding surface 11 b from the seat surface 11 a of the floor plate 11. Is formed. Elongated heating portion 12a, as shown in FIG. 9, is wired from the gauge outside P ₂ while being inserted into the insertion portion 11j. As shown in FIG. 8, the elongate heating unit 12a covers a heating wire 12e whose main component is nickel whose resistance value changes according to temperature, and an outer peripheral surface of the heating wire 12e so that the heating wire can be electrically connected. Insulating material 12f such as magnesium oxide which is electrically insulated, and exterior material 12g such as stainless steel, aluminum or copper which covers the outer peripheral surface of this insulating material 12f to improve waterproofness, weather resistance and corrosion resistance. When the temperature of the floor board 11 decreases, the elongated heating section 12a increases the resistance value of the heating wire 12e and increases the amount of heat generation. When the temperature of the floor board 11 increases, the resistance value of the heating wire 12e decreases and the amount of heat generation increases. descend. The elongate heating part 12a has a heating wire 12e wired in a substantially U shape inside, and the heating wire 12e wired from the connector part 12c side to the tip of the elongate heating part 12a is folded back at this tip. To the connector portion 12c.

The power supply unit 12b shown in FIG. 9 is means for supplying electric power to the elongated heating unit 12a. The power supply unit 12b is, for example, a commercial power supply or a battery, and supplies power to the elongated heating unit 12a through the connector unit 12c and the wiring unit 12d. The connector part 12c is means for electrically connecting the elongated heating part 12a and the wiring part 12d. The connector portion 12c accommodates the conductive wire on the heating wire 12e side of the elongated heating portion 12a and the conductive wire on the wiring portion 12d side in a connected state and in an electrically insulated state. Connector unit 12c, to allow interconnection wiring portion 12d in any direction gauge outer P _2, between the connector portion 12c and the elongated heating portion 12a, and between the connector portion 12c and the wiring part 12d Are connected to bend. The connector part 12c incorporates a transformer that converts AC power supplied from the power supply part 12b into DC power as required, and supplies the converted DC power to the heating wire of the elongated heating part 12a. The wiring part 12d is means for transmitting power from the power supply part 12b to the connector part 12c. Wiring portion 12d is extended from the connector portion 12c to gauge the outside P _2, it is connected to the power supply unit 12b in gauge outside P _2. The wiring part 12d is, for example, a distribution cable for outdoor wiring that supplies power from the power supply part 12b to the connector part 12c.

Next, a floor board mounting method according to an embodiment of the present invention will be described.
The worker positions the floor board 11 on the sleeper 7 shown in FIGS. 2 to 4, and the operator inserts the nail portion 10b of the fastening member 10 into the fastening hole 11c of the floor board 11 shown in FIG. When an operator drives the nail portion 10b, the floor board 11 is attached to the sleeper 7 as shown in FIGS. Next, the basic rails 5a and 5b are mounted on the seating surface 11a of the floor plate 11 shown in FIGS. 3, 5 and 7, and the tongrels 4a and 4b are mounted on the sliding surface 11b of the floor plate 11. . In this state, an operator fits the protrusion 8b of the rail press 8 shown in FIGS. 3 and 5 into the fitting groove 11d of the floor plate 11, and the rails are attached to the upper neck 5h and the rail abdomen 5e of the basic rails 5a and 5b. An operator brings the press 8 into close contact. After an operator positions the rail press 8 on the floor plate 11 shown in FIGS. 3 and 5, the fastening bolt 9a is inserted into the insertion hole 8a of the rail press 8 shown in FIG. 2 and the fastening hole 11e of the floor plate 11 shown in FIG. An operator inserts the bolt head 9d. Next, when an operator inserts the locking portion 9e of the fastening bolt 9a shown in FIG. 7 into the locking portion 11h of the floor plate 11, the bolt head 9d of the fastening bolt 9a shown in FIG. 11g is caught. As shown in FIG. 6, when a worker attaches a washer 9c to the male thread portion of the fastening bolt 9a and the worker tightens a fastening nut 9b to the male thread portion of the fastening bolt 9a, the floor plate 11 is attached as shown in FIG. The basic rails 5a and 5b are fastened to the sleeper 7 through the intermediate sleeper.

Next, FIG. 4, insert worker ends of the elongated heating section 12a in the insertion portion 11j of the floor plate 11 shown in FIGS. 5 and 7 from the gauge outside P _2, the sliding surface from the seat surface 11a of the floor plate 11 When the worker inserts the elongated heating part 12a into the insertion part 11j until reaching 11b, the elongated heating part 12a is accommodated in the accommodating part 11i of the floor board 11. Next, as shown in FIG. 9, the wiring portion 12d laying worker to gauge the outside P _2, together with workers one end of the wire portion 12d to the power supply unit 12b is connected, the other wiring portion 12d When personnel working end to the connector portion 12c are connected, the wiring portion 12d is wired from the gauge outside P ₂ in elongated heating portion 12a. As for the other floor plate 11, the worker inserts the elongated heating part 12a into the accommodating part 11i, and the worker connects the power supply part 12b and the connector part 12c by the wiring part 12d. When replacing the old elongate heating part 12a with a new elongate heating part 12a, the worker removes the wiring part 12d from the connector part 12c, and the operator pulls out the old elongate heating part 12a from the insertion part 11j. The worker inserts the elongated heating section 12a into the insertion section 11j, and the worker connects the wiring section 12d to the connector section 12c.

Next, the operation of the floor board according to the embodiment of the present invention will be described.
When power is supplied from the power supply unit 12b shown in FIG. 9 to the connector unit 12c through the wiring unit 12d, a current flows through the heating wire 12e of the elongated heating unit 12a, and the elongated heating unit 12a generates heat. When snow or freezing occurs in the vicinity of the basic rails 5a, 5b or in the movable range of the tongrels 4a, 4b, the temperature of the floor plate 11 decreases and the resistance value of the heating wire 12e of the elongated heating section 12a increases. . For this reason, the calorific value of the heating wire 12e of the elongate heating part 12a rises, the temperature of the floor board 11 rises, the snow on the floor board 11 melt | dissolves, and freezing is prevented. When the snow accumulation in the vicinity of the basic rails 5a and 5b and the movable range of the tongrels 4a and 4b melts and freezing is eliminated, the temperature of the floor plate 11 rises and the resistance value of the heating wire 12e of the elongated heating section 12a decreases. For this reason, the calorific value of the elongate heating part 12a falls, the temperature of the floor board 11 falls, the raise of the heat_generation | fever of the heating wire 12e is suppressed, and useless power consumption is suppressed.

The floorboard according to the embodiment of the present invention has the following effects.
(1) In this embodiment, the accommodating part 11i accommodates the elongate heating part 12a for floor board heating in the inside of the floor board 11. FIG. For this reason, unlike the structure which attaches a heater holding frame like the prior art 1 to the both edges of the floor board 11, the elongate heating part 12a can be accommodated in the floor board 11. FIG. As a result, the floor plate 11 can be installed within the range of the width of the sleeper 7 without the width of the floor plate 11 being prevented, and the elongated heating unit 12a is prevented from hindering the work when the track is tamped. be able to. Moreover, since the floor board 11 can be directly heated from the inside by the elongate heating part 12a, the floor board 11 itself can be efficiently heated in a wide range in a short time, and the snow melting effect and the freeze prevention effect of the point part 3 can be achieved. Can be improved.

(2) In this embodiment, the insertion portion 11j for inserting the gauge outside P ₂ in the housing portion 11i of the elongated heating portion 12a floorboard 11 includes. Therefore, the gauge inside P ₁ as in the prior art 2 plate heater differs from the structure to be inserted into the interior of the floor plate 11, it is possible to insert the elongated heating portion 12a in the housing portion 11i from the gauge outside P ₂ . As a result, not intrude worker to gauge inside P _1, it is possible to implement the operation of attaching and detaching the elongated heating portion 12a from gauge outside P _2. Moreover, the operation | work which welds the heater holding frame like the prior art 2 to the side edge part of the floor board 11 becomes unnecessary, and an assembly operation does not require an effort and can reduce work cost.

(3) In this embodiment, the wiring to the elongated heating portion 12a in a state where elongated heating portion 12a is inserted into the insertion portion 11j from gauge outside P _2. For this reason, unlike the structure of wiring from the gauge inner side P ₁ to the plate heater as in the prior art 2, it is possible to wire from the gauge outer side P ₂ to the elongated heating portion 12a and from the gauge inner side P ₁ to the gauge outer side. it is possible to omit the work to pull out the wiring to P _2. As a result, it is possible to carry out the wiring work of elongated heating portion 12a not intrude worker to gauge inside P _1, is possible to reduce the cost by eliminating the need to lay sleepers for cable protection it can. Moreover, it is not necessary to draw out the wiring from the gauge inner side P ₁ to the gauge outer side P ₂ and the wiring is shortened, so that the installation cost can be reduced.

(4) In this embodiment, the accommodating portion 11i avoids the fastening holes 11c and 11e of the floor plate 11, and the accommodating portion 11i accommodates the elongated heating portion 12a inside the floor plate 11. Therefore, the elongated heating part 12a is inserted at an arbitrary length from one end of the floor board 11 to the other end so that the fastening holes 11c, 11e of the floor board 11 and the elongated heating part 12a do not interfere with each other. Can do. For example, when inserting the plate heater as in the prior art 2 in the interior of the floor plate 11, the insertion portion of the plate-shaped heater is restricted to the ends of the floorboards 11 gauge inner P _1. For this reason, in the prior art 2, the plate heater cannot be inserted to the vicinity of the basic rails 5a and 5b where the fastening holes 11e are present, and the vicinity of the basic rails 5a and 5b cannot be heated. In this embodiment, the elongated heating part 12a can be inserted into the gap between the fastening hole 11c and the fastening hole 11e of the floor board 11, and the vicinity of the basic rails 5a and 5b is sufficiently heated by the elongated heating part 12a. Thus, the effect of preventing snow accumulation and the effect of preventing freezing can be improved.

(5) In this embodiment, the elongated heating portion 12a housed in the lower surface to the formed groove floorboards 11 toward the rail gauge outside P ₂ gauge inner P ₁ from. For this reason, a slot part can be easily formed in the lower surface of the floor board 11 by machining etc., without changing the basic structure of the floor board 11 on a large scale, and the elongate heating part 12a can be accommodated.

The present invention is not limited to the embodiment described above, and various modifications or changes can be made as described below, and these are also within the scope of the present invention.
(1) In this embodiment, the case where the branching device 2 is a single-opening branching device has been described as an example, but the present invention is not limited to the single-opening branching device. For example, the present invention can also be applied to a double branching branch, an inner branching branch, an outer branching branch, a distribution branching branch, a three branch branching branch, a multiple branching branch, or a three-wire branching branch. In this embodiment, the floor plate 11 that supports the tongrels 4 a and 4 b of the point portion 3 has been described as an example. However, the embodiment is not limited to the floor plate 11 of the point portion 3. For example, the present invention can also be applied to a floor plate that supports a movable rail of a crossing portion such as a nose movable crossing, a wing movable crossing, a movable K-shaped crossing, or a blunt end movable crossing. Furthermore, in this embodiment, the floor plate 11 that supports the rail bottom portions 4c of the Tongrels 4a and 4b by the sliding surface 11b is described as an example. However, the present invention is not limited to such a support structure. For example, in order to reduce the frictional resistance acting on the Tongrels 4a and 4b when the Tongrels 4a and 4b perform a conversion operation, the rail bottom portions 4c of the Tongrels 4a and 4b can be moved by ball bearings (ball bearings). The present invention can also be applied to a floor plate having a supporting structure to be supported.

(2) In this embodiment, the case where the sleeper 7 is a wooden sleeper has been described as an example. However, the sleeper 7 is not limited to a wooden sleeper. For example, prestressed concrete sleepers (PC (Prestressed concrete sleepers) prestressed by steel materials used as tendons), synthetic resin synthetic sleepers, or steel or cast iron steel sleepers The present invention can also be applied to. Further, in this embodiment, the sleeper 7 is described as an example of the support body, but the present invention is not limited to such a support body. For example, a prestressed concrete structure that supports a rail slab, which is a kind of labor-saving track composed of a rectangular plate-shaped precast concrete plate (track slab), which integrates a roadbed and a sleeper, or a rail 2 ( The present invention can also be applied to a support body such as a ladder-shaped ladder sleeper in which longitudinal beams of a PRC structure) are connected by a steel pipe joint. Furthermore, in this embodiment, the case where the fastening member 10 is a nail is described as an example, but the present invention can also be applied to other fastening members such as a dog nail or a screw nail.

(3) In this embodiment, the case where the heating device 12 is an electric snow melting device that melts snow using an electric device has been described as an example, but the present invention also applies to a hot water snow melting device that melts snow using hot water. Can be applied. In this case, the floor board 11 can be heated by circulating hot water inside the elongated heating section 12a. Further, in this embodiment, the case where the outer appearance of the elongated heater 12a is a columnar or cylindrical rod heater has been described as an example. However, the rod heater whose outer appearance is a prismatic or rectangular tube, and the outer appearance is thin. The present invention can also be applied to a plate-like or long-plate-like linear heater or the like. Furthermore, in this embodiment, although the case where the length of the elongated heating part 12a is formed shorter than the entire length of the accommodating part 11i has been described as an example, the length of the elongated heating part 12a is the entire length of the accommodating part 11i. The present invention can also be applied to the case where the length is approximately the same.

(4) In this embodiment, the case where the two storage portions 11i are formed on the floor plate 11 has been described as an example. However, when one storage portion 11i is formed on the floor plate 11, three or more storage portions 11i are formed. The present invention can also be applied to the case of forming the floor plate 11. Moreover, in this embodiment, although the case where the two accommodating parts 11i were formed in the floor board 11 and the elongate heating part 12a was accommodated in each of the two accommodating parts 11i was described as an example, the elongate heating part 12a is divided into two. The present invention can also be applied to the case of accommodating in any one of the two accommodating portions 11i. Furthermore, in this embodiment, the case where the elongated heating part 12a is sandwiched and accommodated between the accommodating part 11i and the closing part 11m has been described as an example, but the present invention is not limited to such an accommodating structure. For example, the present invention can be applied to a case where a corrugated leaf spring is accommodated between the elongated heating portion 12a and the closing portion 11m so that the elongated heating portion 12a is in close contact with the accommodation portion 11i.

DESCRIPTION OF SYMBOLS 1 Conversion device 2 Branch device 3 Point part 4a, 4b Tongue rail 5a, 5b Basic rail 7 Sleeper 8 Rail press 8a Insertion hole 9,10 Fastening member 11 Floor board 11a Seat surface 11b Sliding surface 11c, 11e Fastening hole (through floor board) Hole)
11i accommodation part 11j insertion part 11k joint part 11m closing part 12 heating device 12a elongate heating part 12e power supply part 12f connector part 12g wiring part P ₁ gauge inside P ₂ gauge outside

Claims (5)

A floor board that supports the rail in a movable manner,
Including an accommodating portion for accommodating the elongated heating portion for heating the floor plate inside the floor plate,
Floor board characterized by. The floorboard according to claim 1,
Comprising an insertion part for inserting the elongated heating part into the housing part from outside the gauge,
Floor board characterized by. In the floor board according to claim 1 or 2,
The elongated heating part is wired from the outside of the gauge while being inserted into the insertion part,
Floor board characterized by. In the floor board of any one of Claim 1- Claim 3,
The accommodating portion accommodates the elongated heating portion inside the floor plate avoiding the floor plate through hole,
Floor board characterized by. In the floor board according to any one of claims 1 to 4,
The accommodating portion accommodates the elongated heating portion in a groove portion formed on the bottom surface of the floor plate from the outside of the gauge toward the inside of the gauge,
Floor board characterized by.

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