JP7108520B2 - Tread cleaning device - Google Patents

Description

The present invention relates to a tread cleaning device.

In general, in a railroad vehicle running on a track, dirt, gravel, and the like adhere to the treads of the wheels during running. If such dust or the like is interposed between the tread surface of the wheel and the track, the track or wheel may be damaged or abnormal noise may be generated.

Patent Literature 1 discloses a tread cleaning device that removes dust and the like adhering to the tread of a wheel by pressing an abrasive against the tread of the wheel while the railroad vehicle is running. The tread cleaning device disclosed in Patent Document 1 is provided with a boot that seals between the cylinder and the torque receiving rod.

JP-A-2002-331933

In a tread cleaning device provided with a boot, it is necessary to guide air into the boot or discharge air from the boot in accordance with the sliding movement of the rod in order to prevent damage to the boot. However, if foreign matter enters the interior of the boot when introducing air into the boot, the sliding surfaces of the cylinder and the rod may be damaged.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to prevent damage to the sliding surfaces of a cylinder and a rod caused by foreign matter entering the interior of the boot.

A first invention comprises a cylinder, a rod slidably inserted into the cylinder, a grinder provided at the tip of the rod, a tubular boot covering the rod projecting from the cylinder, and provided on the rod, A supply/discharge path for introducing air into the boot and discharging air from the inside of the boot as the rod moves relative to the cylinder; The rod has a fixed part to which one end of the boot is fixed at the end projecting from the cylinder, the fixed part has a housing part for housing the filter, and the filter is and a boot that prevents the tread cleaning device from escaping radially outward from the accommodating portion .

In the first invention, the filter traps foreign matter mixed in the air guided from the outside to the inside of the boot. As a result, it is possible to prevent damage to the sliding surfaces of the cylinder and the rod caused by foreign matter entering the interior of the boot. In addition, it is possible to effectively prevent the filter accommodated in the accommodation portion from coming off.

In a second invention, the fixing portion is provided with an annular groove into which one end of the boot is fitted, the accommodating portion is a recess provided in the bottom surface of the annular groove, and the filter is It is characterized in that it is prevented from coming out radially outward from the accommodating portion.

In the second invention, the end face of the one end of the boot fitted into the annular groove can restrict the radially outward movement of the filter, so that the filter can be prevented from falling out of the recess with a simple configuration.

A third aspect of the invention is characterized in that each of the pair of side walls defining the annular groove is provided with a groove extending radially from the outer peripheral surface to the accommodating portion.

In the third aspect of the invention, since the processing efficiency can be improved by simultaneously processing the groove and the accommodating portion, the manufacturing cost of the tread surface cleaning device can be reduced.

A fourth aspect of the present invention is characterized in that a guide portion is formed at the bottom of the housing portion for guiding air, which is guided to the housing portion through the grooves in one of the pair of side walls, toward the other groove in the pair of side walls. do.

In the fourth invention, since the flow of air is turned back by the guide portion, the flow of air can be made smooth.

According to the present invention, it is possible to prevent damage to the sliding surfaces of the cylinder and the rod caused by foreign matter entering the interior of the boot.

1 is a schematic diagram of a railcar equipped with a tread cleaning device according to a first embodiment of the present invention; FIG. 1 is a front view of a tread cleaning device according to a first embodiment of the present invention; FIG. 3 is a partial cross-sectional view taken along line III-III of FIG. 2; FIG. 1 is a partial cross-sectional view showing a boot and a boot fixing portion for fixing the boot in the tread surface cleaning device according to the first embodiment of the present invention; FIG. FIG. 5 is an enlarged view of the V portion of FIG. 4, showing a supply/discharge path that communicates the inside and outside of the boot; FIG. 5 is a cross-sectional view of the torque receiving rod taken along line VI-VI of FIG. 4; FIG. 5 is an enlarged partial cross-sectional view showing the boot and the boot fixing portion for fixing the boot in the tread surface cleaning device according to the second embodiment of the present invention, showing a supply/discharge path that communicates the inside and outside of the boot; FIG. 8 is a cross-sectional view of a torque receiving rod in the tread surface cleaning device according to the second embodiment of the present invention; FIG. 8 is a partial plan view of the torque receiving rod viewed from the IX direction of FIG. 7; FIG. 11 is an enlarged partial cross-sectional view showing the boot and the boot fixing portion for fixing the boot in the tread surface cleaning device according to the third embodiment of the present invention, showing a supply/discharge path that communicates the inside and outside of the boot; FIG. 12 is an enlarged partial cross-sectional view showing the boot and the boot fixing portion for fixing the boot in the tread surface cleaning device according to the fourth embodiment of the present invention, showing a supply/discharge path that communicates the inside and outside of the boot; FIG. 12 is an enlarged partial cross-sectional view showing the boot and the boot fixing portion for fixing the boot in the tread surface cleaning device according to the fifth embodiment of the present invention, showing a supply/discharge path that communicates the inside and outside of the boot; FIG. 13 is a cross-sectional view along line XIII-XIII of FIG. 12;

<First Embodiment>
A tread surface cleaning device 10 according to a first embodiment of the present invention will be described below with reference to FIGS. 1 to 6. FIG.

FIG. 1 is a schematic diagram of a railroad vehicle (vehicle) 90 provided with a tread cleaning device 10. As shown in FIG. As shown in FIG. 1 , the tread cleaning device 10 is attached to a bogie 91 or the like of a railway vehicle 90 via a bracket 36 provided on the cylinder 1 . The tread surface cleaning device 10 polishes the tread surface 92a of the wheel 92 by bringing the polishing unit 3 into sliding contact with the tread surface 92a, and removes dust, gravel, etc. adhering to the tread surface 92a for cleaning. The tread cleaning device 10 is set so as to be substantially parallel to the track 93 .

2 is a front view of the tread cleaning device 10, and FIG. 3 is a partial cross-sectional view taken along line III--III in FIG. As shown in FIGS. 2 and 3, the tread cleaning device 10 includes a cylinder 1 attached to a railway vehicle 90 and a rod slidably inserted into the cylinder 1 and movable by fluid pressure guided into the cylinder 1. , a grinding portion 3 attached to the tip of the torque receiving rod 2 , and a cylindrical boot 18 covering the torque receiving rod 2 protruding from the cylinder 1 . In this specification, the direction in which the torque receiving rod 2 moves relative to the cylinder 1, that is, the direction along the central axis of the cylinder 1 and the torque receiving rod 2 is referred to as the axial direction.

As shown in FIG. 3, the cylinder 1 includes a cylindrical cylinder portion 1a on which the torque receiving rod 2 slides, a rod-side cap member 1b that closes an opening on one end side of the cylinder portion 1a, and an opening on the other end side. and a piston-side cap member 1c for closing. A boot fixing portion 1d to which the boot 18 is fixed is provided at the end of the rod-side cap member 1b. The piston-side cap member 1c is coupled to the rear end portion of the cylinder 1 via an O-ring or the like. The piston-side cap member 1c is formed in a hollow shape, and a connector 6 for supplying air pressure as fluid pressure is attached to the hollow portion. Hydraulic pressure can also be used as the fluid pressure.

The torque receiving rod 2 has an annular piston portion 2a provided with a seal 16 for sealing between the inner peripheral surface of the cylinder 1 and a rod-side cap member 1b formed integrally with the piston portion 2a so as to pass through the piston portion 2a. a cylindrical rod portion 2b extending to the outside, a lid portion 2c for closing the opening of the rod portion 2b on the side opposite to the piston portion 2a, and a boot fixing portion 2d attached to the tip of the rod portion 2b so as to cover the lid portion 2c. And prepare. An annular seat 12 is provided on the inner periphery of the piston portion 2a.

The boot 18 is provided to prevent dust from entering the sliding surfaces of the cylinder 1 and the torque receiving rod 2 . One end of the boot 18 is fixed to a boot fixing portion 2d provided on the end of the torque receiving rod 2 projecting from the cylinder 1, and the other end is fixed to a boot fixing portion 1d provided on the rod-side cap member 1b of the cylinder 1. fixed to That is, the boot fixing portion 2d is a fixing portion provided on the torque receiving rod 2 for fixing one end of the boot 18, and the boot fixing portion 1d is for fixing the other end of the boot 18 to the cylinder 1. It is a fixed part provided in the Thus, the boot 18 is provided over the cylinder 1 and the torque receiving rod 2 and expands and contracts as the cylinder 1 and the torque receiving rod 2 move relative to each other.

The grinding portion 3 includes a grinder receiver 40 detachably connected to a bracket 2e protruding from the boot fixing portion 2d of the torque receiving rod 2 by a bolt 9, and a connecting mechanism 80 detachably attached to the end of the grinder receiver 40. and an abrasive element 50 connected thereto.

A support rod 5 is supported by the piston-side cap member 1c of the cylinder 1 so as to be positioned inside the hollow portions of the piston portion 2a and the rod portion 2b of the torque receiving rod 2 . A return spring 4 is provided between the seat 17 provided at the end of the support rod 5 and the seat 12 . The return spring 4 biases the torque receiving rod 2 in the direction in which the grinder 50 moves away from the tread surface 92a of the wheel 92, that is, in the direction in which the torque receiving rod 2 is drawn into the cylinder 1 (the direction in which the tread surface cleaning device 10 contracts). .

When air is supplied from the connector 6 through the piston-side cap member 1c into the cylinder portion 1a, a predetermined air pressure acts on the end surface of the piston portion 2a and the end surface of the lid portion 2c of the torque receiving rod 2. As a result, the torque receiving rod 2 is pushed out toward the outside of the cylinder 1 (in the wheel direction) while compressing the return spring 4, and the tread cleaning device 10 extends. When the torque receiving rod 2 is pushed out, the grinding section 3 also moves toward the wheel 92 . The curved surface 53 of the grinder 50 is pressed against the tread surface 92a of the rotating wheel 92 of the railcar 90 during running, and is in sliding contact with the tread surface 92a. As a result, foreign matter such as dust and gravel adhering to the tread surface 92a of the wheel 92 is removed. When the grinder 50 slides on the wheel 92, a tangential force of the wheel 92 acts on the grinding portion 3. This tangential force is carried by the cylinder 1 via the torque receiving rod 2. .

When the removal of foreign substances such as dust and gravel by the polishing section 3 is completed, the air supplied from the connector 6 is discharged. As a result, the torque receiving rod 2 is retracted by the restoring force of the return spring 4 and returns to its original position (the position before air was supplied). As a result, the curved surface 53 of the grinder 50 is separated from the tread surface 92a of the wheel 92 .

The tread cleaning device 10 further includes a guide mechanism 11 that restricts and guides the movement of the torque receiving rod 2 in the axial direction. The guide mechanism 11 prevents rotation of the torque receiving rod 2 and the grinding portion 3 about the axial direction of the cylinder 1 . The guide mechanism 11 includes an axial groove 37 formed in the outer peripheral surface of the torque receiving rod 2 and extending in the axial direction, and a pin 15 attached to the cylinder 1 and fitted into the axial groove 37 .

In this embodiment, the pin 15 is cylindrical. Pin 15 is attached to cylinder 1 via bearing 13 , and bearing 13 supports pin 15 rotatably with respect to cylinder 1 .

The torque receiving rod 2 has an outer peripheral groove 38 extending in the axial direction on its outer peripheral surface. A latch receiver 8 having a large number of serrated grooves on its outer periphery is inserted into the outer peripheral groove 38 so as to be axially movable. The serrated groove of the latch receiver 8 engages with the tip of the latch 7, which will be described later.

A guide tube 39 is formed in the cylinder 1 in the radial direction, and a rod-shaped latch 7 is movably inserted into the guide tube 39 . The latch 7 is normally biased by a spring 19 and its tip engages with the latch receiver 8 . The latch 7 has an outer end extending outside the cylinder 1. When the outer end is pulled out against the spring 19, the engagement with the latch receiver 8 is released and the latch receiver 8 is released. can move.

The latch receiver 8 regulates the retraction stroke of the torque receiving rod 2 . For example, when the grinder 50 wears, the torque receiving rod 2 and the latch receiver 8 are pushed out by the distance corresponding to the worn thickness. The latch receiver 8 regulates the position of the torque receiving rod 2 according to the amount of pushing out so that the torque receiving rod 2 does not retreat beyond a certain distance. As a result, even if the grinder 50 wears, the distance between the grinder 50 and the tread surface 92a of the wheel 92 can always be kept within a certain range.

FIG. 4 is a partial cross-sectional view showing the boot 18 and the boot fixing portion 2d for fixing the boot 18 in the tread cleaning device 10. As shown in FIG. As shown in FIGS. 3 and 4, the boot 18 is made of elastic material such as rubber. One end of the boot 18 in the axial direction serves as a rod side attachment portion 181 attached to the boot fixing portion 2 d of the torque receiving rod 2 . The other end in the axial direction of the boot 18 is a cylinder-side attachment portion 182 attached to the boot fixing portion 1d of the rod-side cap member 1b of the cylinder 1 . A bellows-like bellows portion 180 that expands and contracts along with the relative movement of the torque receiving rod 2 with respect to the cylinder 1 is provided in the axial central portion of the boot 18 , that is, between the rod side mounting portion 181 and the cylinder side mounting portion 182 . .

The rod-side mounting portion 181 has an annular shape and extends radially inward of the torque receiving rod 2 , that is, in a direction toward the central axis of the torque receiving rod 2 from the end portion of the bellows portion 180 . The thickness of the rod-side attachment portion 181 is thicker than the thickness of the bellows portion 180 .

FIG. 5 is an enlarged view of the V portion of FIG. As shown in FIG. 5, the boot fixing portion 2d has an inner flange portion 21 and an outer flange portion which protrude outward in the radial direction of the torque receiving rod 2, i.e., in a direction away from the central axis of the torque receiving rod 2, from the outer periphery thereof. A section 22 is provided. The inner collar portion 21 and the outer collar portion 22 are each formed in an annular shape. The outer collar portion 22 is arranged closer to the grinder 50 than the inner collar portion 21 is. The outer diameter of the outer collar portion 22 is larger than the outer diameter of the inner collar portion 21 .

The inner brim portion 21 and the outer brim portion 22 form an annular groove 20 into which the rod side mounting portion 181 is fitted in the boot fixing portion 2d. That is, the inner collar portion 21 and the outer collar portion 22 form a pair of side walls that partition the annular groove 20 . The annular groove 20 is a concave portion that is recessed radially inward of the torque receiving rod 2 and is formed along the entire circumference of the boot fixing portion 2d.

The width of the annular groove 20 (the axial length between the pair of flanges 21 and 22) is shorter than the thickness (axial length) of the rod-side mounting portion 181 of the boot 18. As shown in FIG. Therefore, the rod-side mounting portion 181 is fitted into the annular groove 20 in a compressed state and fixed to the torque receiving rod 2 . Similarly, the cylinder-side mounting portion 182 shown in FIG. 3 is fitted into the annular groove 29 provided in the rod-side cap member 1b of the cylinder 1 in a compressed state and fixed to the cylinder 1. As shown in FIG.

As shown in FIG. 5, the torque receiving rod 2 has an air supply/discharge path for introducing air into the boot 18 and discharging air from the boot 18 as the torque receiving rod 2 moves relative to the cylinder 1. 28 are provided. Since air is supplied to the inside and outside of the boot 18 through the supply/discharge passage 28 according to the movement of the torque receiving rod 2, damage to the boot 18 caused by the movement of the torque receiving rod 2 is prevented. Here, if foreign matter enters the interior of the boot 18 through the supply/discharge passage 28 when air is introduced into the interior of the boot 18, the sliding surfaces of the cylinder 1 and the torque receiving rod 2 may be damaged. Therefore, in this embodiment, a filter 30 is provided in the supply/discharge path 28 to prevent foreign matter from entering the interior of the boot 18 from the outside.

5 and 6, the supply/discharge path 28 communicating the inside and outside of the boot 18 and the filter 30 provided in the supply/discharge path 28 will be described in detail. FIG. 6 is a cross-sectional view of the torque receiving rod 2 taken along line VI-VI of FIG.

As shown in FIG. 5, the rod-side mounting portion 181 of the boot 18 is fixed in close contact with the bottom surface 20a and the pair of side surfaces of the concave annular groove 20. As shown in FIG.

As shown in FIGS. 5 and 6, a drilled portion 23 is formed in the boot fixing portion 2d by axially drilling from left to right in FIG.

An arcuate groove 24 forming a part of the drilled portion 23 is formed in the inner collar portion 21 . A circular concave portion 26 forming a part of the drilled portion 23 is formed in the outer collar portion 22 . The circular recess 26 is formed such that its central axis is parallel to the central axis of the torque receiving rod 2 . A columnar filter 30 is fitted in the circular recess 26 in a compressed state. The filter 30 is formed in a cylindrical shape, for example, from a material such as porous polymer material, metal mesh, woven fabric, or non-woven fabric. Filter 30 is received and positioned within circular recess 26 in a radially compressed state.

A portion of the circular recess 26 penetrates the outer collar portion 22 , and air is guided from the outside of the boot 18 to the inside through an opening 22 a formed in the bottom surface 26 a of the circular recess 26 . Air is expelled from the A predetermined area is required for the opening 22a in order to reduce passage resistance.

One end face of the filter 30 contacts the bottom surface 26 a of the circular recess 26 , and the other end face contacts the rod-side mounting portion 181 of the boot 18 . That is, the filter 30 is held in a state of being axially sandwiched between the boot 18 and the boot fixing portion 2d. Since the axial movement of the filter 30 within the circular recess 26 is restricted by the boot 18 , it is possible to prevent the filter 30 from falling out of the circular recess 26 .

According to the embodiment described above, the following effects are obtained.

The torque receiving rod 2 is provided with a supply/discharge path 28 for introducing air into the boot 18 and discharging air from the boot 18 as the torque receiving rod 2 moves relative to the cylinder 1. is provided with a filter 30 for preventing foreign matter from entering the inside of the boot 18 from the outside. As a result, the filter 30 catches foreign matter mixed in the air that is guided from the outside to the inside of the boot 18, so that the friction between the cylinder 1 and the torque receiving rod 2 caused by the mixture of foreign matter from the supply/discharge passage 28 is prevented. Damage to the moving surface can be prevented.

<Second embodiment>
A tread cleaning device 100 according to a second embodiment of the present invention will be described with reference to FIGS. 7 to 9. FIG. In the following, the points different from the first embodiment will be mainly described, and in the drawings, the same reference numerals will be given to the same or corresponding configurations as those described in the first embodiment, and the description will be omitted. .

FIG. 7 is an enlarged partial sectional view showing the boot 18 and the boot fixing portion 102d for fixing the boot 18 in the tread surface cleaning device 100 according to the second embodiment of the present invention. indicates FIG. 8 is a sectional view of the torque receiving rod 2 in the tread cleaning device 100 according to the second embodiment of the invention. FIG. 9 is a partial plan view of the torque receiving rod 2 viewed from direction IX in FIG.

In the second embodiment, instead of the drilling portion 23 described in the first embodiment, a drilling portion 123 is provided, and the filter 130 is housed in the drilling portion 123 . A detailed description will be given below.

As shown in FIGS. 7 and 8, a drilled portion 123 is formed in the boot fixing portion 102d by drilling radially inward from the outside.

The drilled portion 123 includes an arc-shaped groove 124 radially extending from the outer peripheral surface of the inner collar portion 21 to the bottom surface 20a of the annular groove 20, and an arc-shaped groove 124 extending radially from the outer peripheral surface of the outer collar portion 22 to the bottom surface 20a of the annular groove 20. and a circular recess 126 recessed radially inward from the bottom surface 20 a of the annular groove 20 . The groove 124 of the inner collar portion 21 and the inner peripheral surface of the circular recess 126 are provided continuously, and the groove 125 of the outer collar portion 22 and the inner peripheral surface of the circular recess 126 are provided continuously. That is, the grooves 124 and 125 and the circular recess 126 are formed concentrically and diametrically.

As described above, in this embodiment, grooves 124 and 125 extending radially from the outer peripheral surface to the circular recess 126 are formed in each of the pair of side walls (the inner flange portion 21 and the outer flange portion 22) that partition the annular groove 20. was set up. Therefore, the grooves 124 and 125 and the circular recess 126 can be formed at the same time by performing linear processing from the radially outer side of the boot fixing portion 102d toward the radially inner side with a drill. By processing the grooves 124 and 125 and the circular recess 126 at the same time, the processing efficiency can be improved, so the manufacturing cost of the tread surface cleaning device 100 can be reduced.

As shown in FIG. 7, when the rod-side mounting portion 181 of the boot 18 is fitted into the annular groove 20, the inner flow path 111 defined by the boot 18 and the groove 124 of the inner collar portion 21 and the boot 18 and the groove 125 of the outer collar portion 22, and the intermediate flow path 113 provided continuously with the inner flow path 111 and the outer flow path 112 form a supply/discharge flow path 128. . The intermediate flow path 113 is formed by the bottom surface 126a of the circular recess 126 and the inner peripheral surface.

Therefore, when the tread cleaning device 100 extends, the air introduced from the groove 125 is guided to the circular recess 126 as indicated by the dashed arrow B in the figure, is folded back at the circular recess 126, and passes through the groove 124. It is led inside the boot 18 . On the other hand, when the tread cleaning device 100 contracts, the air inside the boot 18 flows through the groove 124, the circular recess 126, and the groove 125 in this order, as indicated by the dashed arrow A in the figure, and then flows outside the boot 18. discharged to

The circular recess 126 accommodates a filter 130 that traps foreign matter in the outside air.

The axial and circumferential positions of the filter 130 on the torque receiving rod 2 are defined by the contact of the outer peripheral surface of the filter 130 with the inner peripheral surface of the circular recess 126 . One end face (upper end face in the figure) of the filter 130 is in contact with the end face of the rod-side mounting portion 181 of the boot 18, and the outer edge of the other end face (lower end face in the figure) of the filter 130 is in contact with the bottom surface 126a of the circular recess 126. . That is, the radial position of the filter 130 in the torque receiving rod 2 is defined by being sandwiched between the end surface of the rod-side mounting portion 181 of the boot 18 and the bottom surface 126 a of the circular recess 126 .

In the second embodiment, a circular recess 126 for accommodating the filter 130 is provided in the bottom surface 20a of the annular groove 20 to which the boot 18 is fixed. As a result, the positions of the circular recess 126, which is the accommodation portion for the filter 130, and the annular groove 20 for fixing the boot 18 can be concentrated, so that the configuration of the boot fixing portion 102d can be simplified.

A bottom surface 126a of the circular concave portion 126 is formed into a conical shape by a drill, and functions as a guide portion that guides the air flow of the supply/discharge passage 128 from the inlet side to the outlet side. When the tread cleaning device 100 contracts, the air that is guided to the circular recess 126 through the groove 124 of the inner collar 21 is guided toward the groove 125 of the outer collar 22 (see arrow A indicated by the dashed line). When the tread cleaning device 100 extends, the air that is guided to the circular recess 126 through the groove 125 of the outer collar 22 is guided toward the groove 124 of the inner collar 21 (see arrow B indicated by the dashed line).

In this way, since the air flow is folded back by the bottom surface 126a of the circular recess 126, the air flow can be made smooth.

Although the position of the supply/discharge path 128 can be set arbitrarily, the central axes of the grooves 124 and 125 and the circular concave portion 126 are perpendicular to the track 93, and the entrance/exit of the supply/discharge path 128 is aligned with the track 93. It is preferable to set the position of the supply/discharge path 128 so as to face each other, that is, to face vertically downward. In this case, the filter 130 is arranged vertically above the inlet/outlet of the supply/discharge path 128 . By setting the position of the supply/discharge path 128 in this manner, entry of rainwater or the like into the supply/discharge path 128 is suppressed.

According to such a second embodiment, in addition to the same effects as those of the first embodiment, the following effects are obtained.

A boot fixing portion 102d to which one end of the boot 18 is fixed is provided at the end of the torque receiving rod 2 projecting from the cylinder 1, and a circular recess 126 for accommodating the filter 130 is provided in the boot fixing portion 102d. The filter 130 accommodated in the circular recess 126 is in contact with the end face of one end of the boot 18 and is restricted from moving radially outward within the circular recess 126 . That is, the end face of the one end of the boot 18 prevents the filter 130 from slipping out of the circular recess 126 radially outward.

As a result, the filter 130 may fall off due to the wind blowing against the filter 130 while the railroad car 90 is running, or the filter 130 may fall off due to washing water hitting the filter 130 while the railroad car 90 is being cleaned. It is possible to effectively prevent sagging. Since the loss of the filter 130 can be prevented, foreign matter can be prevented from entering the interior of the boot 18 over a long period of time. In addition, since the radially outward movement of the filter 130 can be restricted by the end surface of one end of the boot 18 that fits into the annular groove 20, the filter 130 can be prevented from falling out of the circular recess 126 with a simple structure. can.

<Third Embodiment>
A tread cleaning device 200 according to a third embodiment of the present invention will be described with reference to FIG. In the following, the points different from the second embodiment will be mainly described, and in the drawings, the same reference numerals will be given to the same or corresponding configurations as those described in the second embodiment, and the description will be omitted. .

FIG. 10 is an enlarged partial cross-sectional view showing the boot 218 and the boot fixing portion 202d for fixing the boot 218 in the tread cleaning device 200, and shows the supply/discharge path 228 communicating the inside and outside of the boot 218. FIG.

In the above-described second embodiment, an example in which the grooves 124 and 125 are provided from the outer peripheral surfaces of the inner flange portion 21 and the outer flange portion 22 to the circular concave portion 126 has been described (see FIG. 7). In contrast, in the third embodiment, instead of the grooves 124 and 125, grooves 224 and 225 extending in the radial direction are formed in the rod-side mounting portion 281 of the boot 218. As shown in FIG.

The groove 224 is provided so as to open in the end surface of the rod side mounting portion 281 and the surface that contacts the inner collar portion 21 . The groove 225 is provided so as to open in the end surface of the rod side attachment portion 281 and the surface that abuts on the outer collar portion 22 . The cross-sectional shape of the radially extending grooves 224 and 225 can be set arbitrarily. The cross-sectional shape of the grooves 224 and 225 is, for example, rectangular or arcuate.

The supply/discharge path 228 according to the third embodiment includes a flow path defined by the groove 224 and the inner flange 21, a flow path defined by the groove 225 and the outer flange 22, and a filter 230. and a flow path formed by a circular recess 226 formed by

As the tread cleaning device 200 extends, air introduced from the grooves 225 is directed to the circular recesses 226 . The air guided to circular recess 226 is turned back and guided into boot 218 through groove 224 . At this time, foreign matter contained in the outside air is captured by the filter 230 . On the other hand, when the tread cleaning device 200 contracts, the air inside the boot 218 flows through the groove 224 , the circular recess 226 and the groove 225 in this order, and is discharged to the outside of the boot 218 .

According to such a third embodiment, the same effects as those of the second embodiment are obtained.

<Fourth Embodiment>
A tread surface cleaning device 300 according to a fourth embodiment of the present invention will be described with reference to FIG. In the following, the points different from the second embodiment will be mainly described, and in the drawings, the same reference numerals will be given to the same or corresponding configurations as those described in the second embodiment, and the description will be omitted. .

FIG. 11 is an enlarged partial sectional view showing the boot 18 and the boot fixing portion 302d for fixing the boot 18 in the tread cleaning device 300, and shows the supply/discharge path 328 communicating the inside and outside of the boot 18. As shown in FIG. In the above-described second embodiment, an example in which the circular recess 126 is formed in the bottom surface 20a of the annular groove 20 and the filter 130 is accommodated in the circular recess 126 has been described (see FIG. 7).

In contrast, in the fourth embodiment, the circular recess 126 is not provided, and the filter 330 is housed in the bottom of the annular groove 20 . That is, in the fourth embodiment, the bottom of the annular groove 20 serves as the accommodation portion 326 that accommodates the filter 330 . Filter 330 is formed in an annular shape. The ring-shaped filter 330 is cut at one point so that it can be mounted in the housing portion 326 of the ring-shaped groove 20 from the outside in the radial direction.

In the fourth embodiment, instead of the groove 124 (see FIG. 7) of the inner collar portion 21 described in the second embodiment, a circular inner through-hole 324 that axially penetrates the inner collar portion 21 is provided. The inner through-hole 324 communicates the inside of the boot 18 with the housing portion 326 .

Further, in the fourth embodiment, an outer through-hole 325 is provided instead of the groove 125 (see FIG. 7) of the outer collar portion 22 described in the second embodiment. The outer through hole 325 includes a first hole 325a having a circular cross section extending in the axial direction, and a second hole 325b having a circular cross section extending from the end of the first hole 325a to the base of the outer flange 22. and have The first hole 325 a is formed concentrically and with the same diameter as the inner through hole 324 . The outer through-holes 325 have a first hole 325 a opening to the housing portion 326 and a second hole 325 b opening at the base of the outer collar portion 22 . That is, the outer through hole 325 communicates the outside of the tread surface cleaning device 300 and the housing portion 326 .

A supply/discharge path 328 according to the fourth embodiment is formed by an inner through hole 324 , a housing portion 326 and an outer through hole 325 .

By providing a plurality of the inner through-holes 324 and the outer through-holes 325 at predetermined intervals in the circumferential direction of the annular groove 20, it is possible to reduce the passage resistance of the air flow.

The first holes 325a of the inner through-hole 324 and the outer through-hole 325 are formed by drilling in the axial direction. The second hole 325 b of the outer through-hole 325 is formed by drilling obliquely from the base of the outer flange 22 with respect to the central axis of the torque receiving rod 2 .

In the above-described second embodiment, an example has been described in which the end surface of the rod-side mounting portion 181 of the boot 18 is always in contact with the filter 130 (see FIG. 7). On the other hand, in the fourth embodiment, a gap 380 is formed between the end surface of the rod-side mounting portion 181 of the boot 18 and the outer peripheral surface of the annular filter 330 . Thus, even if the gap 380 is formed between the boot 18 and the filter 330 , when the filter 330 is displaced radially outward, the radially outward movement of the boot 18 causes the rod of the boot 18 to move. Since it is regulated by the side attachment portion 181 , the filter 330 is prevented from slipping out of the housing portion 326 .

When the tread cleaning device 300 extends, the air introduced from the outer through-hole 325 is guided to the accommodation portion 326 . The air led to the accommodation portion 326 is led to the inside of the boot 18 through the inner through hole 324 . At this time, foreign matter contained in the outside air is captured by the filter 330 . On the other hand, when the tread cleaning device 300 contracts, the air inside the boot 18 flows through the inner through-hole 324 , the accommodation portion 326 and the outer through-hole 325 in this order, and is discharged to the outside of the boot 18 .

According to such a 4th embodiment, there exists an effect similar to a 2nd embodiment.

<Fifth Embodiment>
A tread cleaning device 400 according to a fifth embodiment of the present invention will be described with reference to FIGS. 12 and 13. FIG. In the following, the points different from the second embodiment will be mainly described, and in the drawings, the same reference numerals will be given to the same or corresponding configurations as those described in the second embodiment, and the description will be omitted. .

FIG. 12 is a partially enlarged cross-sectional view showing the boot 418 and the boot fixing portion 402d that fixes the boot 418 in the tread cleaning device 400, and shows the supply/discharge path 428 that communicates the inside and outside of the boot 418. As shown in FIG. 13 is a cross-sectional view taken along line XIII-XIII in FIG. 12. FIG. In the above-described second embodiment, an example in which the rod-side mounting portion 181 of the boot 18 is fitted and fixed in the annular groove 20 has been described (see FIG. 7).

In contrast, the annular groove 20 is not provided in the boot fixing portion 402d according to the fifth embodiment. The boot 418 has a cylindrical portion 483 axially extending from the end of the bellows portion 180 and a convex portion 484 protruding radially inward from the end of the bellows portion 180 . The inner diameter of the cylindrical portion 483 is smaller than the outer diameter of the boot fixing portion 402d. The cylindrical portion 483 is fitted to the boot fixing portion 402d in a slightly expanded state. An annular fixing member 470 is attached to the outer periphery of the cylindrical portion 483 to firmly fix one end of the boot 418 to the boot fixing portion 402d.

The convex portion 484 is inserted into a circular concave portion 427 provided in the boot fixing portion 402d. A bottom portion of the circular recess 427 serves as an accommodation portion 426 in which the filter 430 is accommodated. A top surface of the projection 484 contacts the filter 430 .

As shown in FIGS. 12 and 13 , the convex portion 484 axially partitions the space on the radially outer peripheral side of the torque receiving rod 2 of the circular concave portion 427 . An outer gap 427 b is defined by the inner peripheral surface of the circular concave portion 427 , the end surface of the convex portion 484 on the grinder 50 side, and the filter 430 . An inner gap 427 a is defined by the inner peripheral surface of the circular recess 427 , the end surface of the protrusion 484 opposite to the grinder 50 , and the filter 430 .

As shown in FIG. 12, a groove 483a is formed in the inner peripheral surface of the cylindrical portion 483 along the axial direction. The groove 483 a opens to one end face of the cylindrical portion 483 and the inner peripheral side of the cylindrical portion 483 , and communicates the outside of the tread surface cleaning device 400 with the outer gap 427 b of the circular concave portion 427 .

A supply/discharge path 428 according to the fifth embodiment is formed by an inner gap 427a, an accommodating portion 426, an outer gap 427b, and a groove 483a. When the tread cleaning device 400 extends, the air introduced from the groove 483a is led to the housing portion 426 through the outer gap 427b. The air guided to the accommodating portion 426 is folded back and guided to the inside of the boot 418 through the inner gap 427a. At this time, foreign matter contained in the outside air is captured by filter 430 . On the other hand, when the tread surface cleaning device 400 contracts, the air inside the boot 418 flows through the inner gap 427a, the accommodation portion 426, the outer gap 427b, and the groove 483a in this order, and is discharged to the outside of the boot 418.

According to such a fifth embodiment, the same effects as those of the second embodiment are obtained.

The following modifications are also within the scope of the present invention. It is also possible to combine the configurations described in the modifications.

<Modification 1>
The tread cleaning devices 10, 100, 200, 300, and 400 described in the above embodiments also include a so-called tread brake device. The tread brake device differs from the tread cleaning device that does not have a brake function in that it has a stronger force for pressing the grinder 50 against the tread surface 92a, but has the configuration described in the above embodiment.

<Modification 2>
In the above-described first and second embodiments, an example in which the housing portions (circular concave portions 26, 126) for housing the filters 30, 130 are formed in a circular shape has been described. It may be in shape.

<Modification 3>
In the above-described second embodiment, an example in which the bottom surface 126a of the circular concave portion 126 as the guide portion is formed in a conical shape has been described, but the present invention is not limited to this. It can be changed as appropriate according to the cross-sectional shape of the accommodating portion. The guide portion only needs to be able to guide the air guided to the accommodation portion through one groove of the pair of side walls that partition the annular groove 20 toward the other groove of the pair of side walls. Alternatively, it may be formed by connecting a plurality of inclined surfaces.

Configurations, functions, and effects of embodiments of the present invention will be collectively described below.

The tread cleaning devices 10, 100, 200, 300, and 400 are slidably inserted into a cylinder 1 attached to a railway vehicle (vehicle) 90, and are movable by fluid pressure introduced into the cylinder 1. A torque receiving rod (rod) 2, a grinder 50 provided at the tip of the torque receiving rod 2 and pressed against a tread surface 92a of a wheel 92 when the torque receiving rod 2 is pushed out, and a torque receiving rod projecting from the cylinder 1. Cylindrical boots 18, 218, 418 covering the cylinder 1 and the torque receiving rod 2. As the torque receiving rod 2 moves relative to the cylinder 1, air is introduced into the boots 18, 218, 418, provided in the supply/discharge passages 28, 128, 228, 328, 428 for discharging air from the inside of the boots 18, 218, 418; Filters 30, 130, 230, 330, 430 are provided to prevent foreign matter from entering the interior from the outside. There are boot fixing portions (fixing portions) 2d, 102d, 202d, 302d, and 402d to which the filter 30, 130, 230, 330, and 430 are fixed. The filters 30 , 130 , 230 , 330 , 430 are held by the boots 18 , 218 , 418 in the housings (circular recesses 26 , 226 , 226 , 326 , 426 ). 126, 226, accommodation portions 326, 426) are restricted.

In this configuration, filters 30 , 130 , 230 , 330 , 430 trap contaminants that are entrained in the air directed from the exterior of boot 18 , 218 , 418 toward the interior thereof. As a result, it is possible to prevent damage to the sliding surfaces of the cylinder 1 and the torque receiving rod 2 caused by foreign matter entering the boot 18, 218, 418.

In the tread cleaning devices 100, 200, 300, 400, the filters 130, 230, 330, 430 are pushed radially outward from the housings (circular recesses 126, 226, housings 326, 426) by the boots 18, 218, 418. is prevented from escaping into

With this configuration, it is possible to effectively prevent the filters 130, 230, 330, 430 housed in the housings (circular recesses 126, 226, housings 326, 426) from coming off.

In the tread surface cleaning device 100, 200, the boot fixing portions 102d, 202d are provided with an annular groove 20 into which one ends of the boots 18, 218 are fitted, and the accommodating portion is a circular recess provided in the bottom surface 20a of the annular groove 20. 126 , 226 , and the filters 130 , 230 are prevented from exiting the circular recesses 126 , 226 radially outwardly by the end face of one end of the boot 18 , 218 .

In this configuration, the radially outward movement of the filters 130, 230 can be restricted by the end face of one end of the boot 18, 218 that fits into the annular groove 20. It is possible to prevent it from dropping out of the recessed portions 126 and 226 .

The tread surface cleaning device 100 has grooves 124 and 125 extending radially from the outer peripheral surface to a circular recess 126 on each of the pair of side walls (inner flange 21 and outer flange 22) that partition the annular groove 20. be done.

In this configuration, the grooves 124 and 125 and the circular recess 126 are processed at the same time, so that the processing efficiency can be improved, so that the manufacturing cost of the tread surface cleaning device 100 can be reduced.

The tread surface cleaning device 100 supplies air to the bottom of the circular recess 126, which is guided to the circular recess 126 through the groove 124 (or groove 125) of one of the pair of side walls (inner flange 21 and outer flange 22). A bottom surface 126a is formed as a guide portion for guiding toward the other groove 125 (or groove 124) of the inner flange portion 21 and the outer flange portion 22).

In this configuration, the flow of air is turned back by the bottom surface 126a as the guide portion, so that the flow of air can be made smooth.

Although the embodiments of the present invention have been described above, the above embodiments merely show a part of application examples of the present invention, and the technical scope of the present invention is not limited to the specific configurations of the above embodiments. do not have.

1 Cylinder 2 Torque receiving rod (rod) 2d, 102d, 202d, 302d, 402d Boot fixing portion (fixing portion) 18, 218, 418 Boot 50 Abrasives 90 Railcars (vehicles) 92 Wheels 92a Treads 10, 100, 200, 300, 400 Tread cleaning devices 28, 128, 228, 328, 428... supply/discharge path, 20... annular groove, 20a... bottom surface, 21... inner flange (side wall), 22... outer flange (side wall), 124, 224... groove , 125, 225 . 426 ... accommodation unit

Claims (4)

a cylinder mounted on a vehicle;
a rod slidably inserted into the cylinder and movable by fluid pressure guided into the cylinder;
A grinder provided at the tip of the rod and pressed against the tread surface of the wheel when the rod is pushed out;
a tubular boot covering the rod protruding from the cylinder;
a supply/discharge path provided in the rod for guiding air into the interior of the boot and discharging air from the interior of the boot as the rod moves relative to the cylinder;
a filter provided in the supply/discharge path to prevent foreign matter from entering the boot from the outside,
The rod has a fixing part to which one end of the boot is fixed at the end protruding from the cylinder,
The fixing part has an accommodating part that accommodates the filter,
The filter is prevented from slipping out radially outward from the accommodating portion by the boot.
A tread cleaning device characterized by: The tread cleaning device of claim 1 , wherein
The fixed portion is provided with an annular groove into which one end of the boot is fitted,
The accommodation portion is a recess provided on the bottom surface of the annular groove,
The tread surface cleaning device, wherein the filter is prevented from coming out radially outward from the accommodating portion by an end surface of one end portion of the boot. In the tread cleaning device according to claim 2 ,
A tread cleaning device, wherein a groove extending radially from an outer peripheral surface to the accommodating portion is provided in each of a pair of side walls that partition the annular groove. In the tread cleaning device according to claim 3 ,
A guide portion is formed at the bottom of the housing portion for guiding air guided to the housing portion through the groove on one of the pair of side walls toward the groove on the other of the pair of side walls. tread cleaning device.

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