JP2008162373A - Track traveling truck and track-and-road type traveling system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a track traveling truck having a structure capable of allowing a road surface traveling vehicle to travel on a track without changing components. <P>SOLUTION: In the track traveling truck, the rotation of road surface traveling front wheels 201 of a road surface traveling vehicle is transmitted to a first track wheel 131 and a second track wheel 132 by first and second drive transmitting rings 121, 122 and first and second rotary shafts 141, 142, and the rotation of road surface traveling rear wheels 202 is transmitted to a third track wheel 133 and a fourth track wheel 134 by third and fourth drive transmission rings 123, 124 and third and fourth rotary shafts 143, 144. Thus, the road surface traveling vehicle can be allowed to easily and rapidly travel on a track R without changing the road surface traveling front wheels 201 and the road surface traveling rear wheels 202 to exclusive components. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a track traveling vehicle that travels on a track loaded with a road surface traveling vehicle that travels on a road surface, and a railroad traveling system that includes the track traveling vehicle and the road surface traveling vehicle.

  Currently, when constructing a track on which a so-called railway vehicle travels, tunnel construction may be required. On the site of this tunnel enforcement, a road surface vehicle called a so-called drill jumbo or a slip carrier is used.

  Such a road surface traveling vehicle has at least a pair of left and right road surface traveling wheels and a pair of left and right road surface traveling wheels, and travels on the road surface with these road surface traveling wheels. However, at the site where the track is laid as described above, there are cases where it is desired that the road vehicle travels the track.

  For example, a road running vehicle called a track-and-rail vehicle has road running wheels and track running wheels. However, since the track-and-rail vehicle requires a mechanism for raising and lowering the orbital running wheels, its structure is complicated.

  As described above, various road traveling vehicles are used at the site of tunnel construction, but it is not realistic to manufacture all of them as railcars. For this reason, the track cannot be made to travel on a road surface traveling wheel that is not conventionally manufactured as a track-and-rail vehicle.

In order to solve such a problem, an orbital traveling cart that loads a road surface traveling vehicle and travels on an orbital track has been proposed. In the current proposal, the road traveling front wheels of the road traveling vehicle are loaded on the track traveling carriage, and the road traveling rear wheels are replaced with the track traveling wheels (see, for example, Patent Document 1).
Japanese Utility Model Publication No. 57-163467

  However, in the technique of the above-mentioned Patent Document 1, when the road vehicle travels on the track, the road traveling rear wheel is exchanged with the track traveling wheel, and when traveling on the road surface, the track traveling wheel is again connected to the road traveling rear wheel. It needs to be replaced.

  For this reason, the operation is complicated and not practical. In particular, road surface vehicles used for tunnel construction are called heavy machinery, and are large and heavy. Therefore, since the road surface running wheel is also large and heavy, the replacement is not easy.

  Moreover, there are many cases where the above-described road surface traveling vehicle is so-called four-wheel drive. In the case of such a four-wheel drive road traveling vehicle, the technique disclosed in Patent Document 1 described above requires that all four road traveling wheels be replaced with track traveling wheels, which is extremely complicated.

  The present invention has been made in view of the problems as described above, a track traveling vehicle that can easily travel a track on a road traveling vehicle, a track traveling system composed of the track traveling vehicle and the road traveling vehicle, Is to provide.

  The track traveling vehicle of the present invention is a track traveling vehicle that travels on a track by loading a road traveling vehicle that travels on a road surface with at least a pair of left and right road traveling front wheels and a pair of left and right road traveling rear wheels. At least a pair of left and right track traveling front wheels that move, at least a pair of left and right track travel rear wheels that roll on the track, at least a pair of left and right drive transmission front wheels that support the road surface front wheel, and at least left and right that support the road surface rear wheel. A pair of drive transmission rear wheels, a chassis frame that rotatably supports a track traveling front wheel, a track traveling rear wheel, a drive transmission front wheel, and a drive transmission rear wheel, and rotation of the drive transmission front wheel and the track traveling front wheel. A front transmission mechanism for interlocking; and a rear transmission mechanism for interlocking rotation of the drive transmission rear wheel and the track traveling rear wheel.

Therefore, in the track traveling vehicle of the present invention, the rotation of the road traveling front wheel of the road traveling vehicle is transmitted to the track traveling front wheel by the drive transmission front wheel and the front transmission mechanism, and the rotation of the road traveling rear wheel is transmitted to the drive transmission rear wheel and the rear portion. It is transmitted to the rear wheel running on the track by the transmission mechanism. For this reason, the road surface traveling vehicle travels on the track without the need to replace the front road surface wheels or the rear road surface wheels with dedicated parts.
The various components of the present invention do not necessarily have to be independent of each other. A plurality of components are formed as a single member, and a single component is formed of a plurality of members. It may be that a certain component is a part of another component, a part of a certain component overlaps with a part of another component, and the like.

  In the track traveling vehicle of the present invention, the rotation of the road traveling front wheel of the road traveling vehicle can be transmitted to the track traveling front wheel by the drive transmission front wheel and the front transmission mechanism, and the rotation of the road traveling rear wheel can be transmitted to the drive transmission rear wheel. It can be transmitted to the rear wheel running on the track by the rear transmission mechanism. For this reason, it is possible to cause the road traveling vehicle to travel on the track easily and quickly without requiring replacement of the front road traveling wheels and the road rear traveling wheels with dedicated parts.

  An embodiment of the present invention will be described below with reference to the drawings. In the present embodiment, description will be made by defining the front-rear, left-right, up-down directions as shown. The track-and-rail travel system 1000 according to the present embodiment includes a track traveling vehicle 100 and a road surface traveling vehicle 200 and travels on a road surface G and a track R.

  The road traveling vehicle 200 travels on the road surface G with at least a pair of left and right road traveling front wheels 201 and a pair of left and right road traveling wheels 202. The track traveling vehicle 100 travels on the track R with the road surface traveling vehicle 200 loaded thereon.

  Therefore, the track traveling bogie 100 of the present embodiment includes at least a pair of left and right track traveling front wheels that roll on the track R, at least a pair of left and right track travel rear wheels that roll on the track R, and a road surface traveling front wheel 201. At least a pair of left and right drive transmission front wheels to be supported, at least a pair of left and right drive transmission wheels to support the road traveling rear wheel 202, a track traveling front wheel, a track traveling rear wheel, a drive transmission front wheel, and a drive transmission rear wheel are rotatable. A chassis frame 110 that is pivotally supported on the front, a front transmission mechanism that links the rotation of the drive transmission front wheel and the track traveling front wheel, a rear transmission mechanism that links the rotation of the drive transmission rear wheel and the track traveling rear wheel, Have

  More specifically, the track traveling bogie 100 includes a first drive transmission wheel 121 positioned in front of the axis of the road traveling front wheel 201 and a second drive transmission wheel 122 positioned rearward as a drive transmission front wheel. Further, as the drive transmission rear wheels, there are a third drive transmission wheel 123 positioned in front of the axis of the road traveling rear wheel 202 and a fourth drive transmission wheel 124 positioned in the rear.

  A first track wheel 131 positioned coaxially with the first drive transmission wheel 121 and a second track wheel 132 positioned coaxially with the second drive transmission wheel 122 are provided as track running front wheels. In addition, a third track wheel 133 positioned coaxially with the third drive transmission wheel 123 and a fourth track wheel 134 positioned coaxially with the fourth drive transmission wheel 124 are provided as the track running rear wheels.

  As a front transmission mechanism, a first rotating shaft 141, a second drive transmission wheel 122, and a second track wheel 132, which are integrally formed with a first drive transmission wheel 121 and a first track wheel 131, are formed integrally. The second rotation shaft 142 is provided.

  As a rear transmission mechanism, a third rotating shaft 143 in which a third drive transmission wheel 123 and a third track wheel 133 are integrally formed, and a fourth drive transmission wheel 124 and a fourth track wheel 134 are integrally formed. A fourth rotating shaft 144 is provided.

  The chassis frame 110 includes a front frame 111, a rear frame 112, and a frame coupling mechanism 113. The front frame 111 and the rear frame 112 are formed by two beam members that are elongated in the left-right direction and arranged in parallel in the front-rear direction, and four beam members that are elongated in the front-rear direction and arranged in parallel in the left-right direction. It is formed in a flat box shape with an upper surface and a lower surface opened.

  On the front frame 111, first and second track wheels 131 and 132, first and second drive transmission wheels 121 and 122, and first and second rotating shafts 141 and 142 are mounted. On the rear frame 112, third and fourth race wheels 133 and 134, third and fourth drive transmission wheels 123 and 124, and third and fourth rotary shafts 143 and 144 are mounted.

  The front frame 111 is a position where the lower half portion of the road traveling front wheel 201 is supported from the front and back by the first drive transmission wheel 121 and the second drive transmission wheel 122, and the first rotation shaft 141 and the second rotation shaft 142 Is pivotally supported.

  Similarly, the rear frame 112 is configured such that the lower half portion of the road traveling rear wheel 202 is supported from the front and rear by the third drive transmission wheel 123 and the fourth drive transmission wheel 124, and the fourth rotation shaft 143 and the fourth rotation. The shaft 144 is rotatably supported.

  The frame coupling mechanism 113 is a universal joint that can be bent in the left-right direction at the center, and couples the front frame 111 and the rear frame 112. For this reason, the front frame 111 and the rear frame 112 are coupled by a frame coupling mechanism 113 that can be bent in the left-right direction.

  The road surface traveling vehicle 200 includes a so-called drill jumbo. In this road traveling vehicle 200, a front vehicle body 211 on which road traveling front wheels 201 are mounted and a rear vehicle body 212 on which road traveling rear wheels 202 are mounted are formed separately.

  The front vehicle body 211 and the rear vehicle body 212 are connected by a vehicle body connection mechanism 213 so as to be bent in the left-right direction, thereby realizing a steering function. In the state where the road surface traveling vehicle 200 is loaded on the track traveling carriage 100, the positions of the bending centers of the vehicle body coupling mechanism 213 and the frame coupling mechanism 113 coincide.

  The road traveling vehicle 200 has the outrigger mechanisms 220 mounted at the four corners of the vehicle body 210. These outrigger mechanisms 220 raise and lower the vehicle bodies 211 and 212 to a position where at least the road traveling front wheel 201 and the road traveling rear wheel 202 are above the track traveling carriage 100.

  In the configuration as described above, the road traveling vehicle 200 can travel on the road surface G by the road surface traveling front wheel 201 and the road surface traveling rear wheel 202 in the track driving system 1000 of the present embodiment. Further, by loading the road traveling vehicle 200 on the track traveling carriage 100, it is possible to travel on the track R.

  When loading the road traveling vehicle 200 on the track traveling carriage 100, first, the road traveling vehicle 200 is arranged such that the road traveling front wheel 201 and the road traveling rear wheel 202 are positioned on the road surface G on both sides of the track R.

  Next, the vehicle bodies 211 and 212 of the road traveling vehicle 200 are raised by the outrigger mechanism 220. The track traveling vehicle 100 traveling on the track R in such a state is disposed below the road surface traveling vehicle 200.

  Then, the vehicle body 211, 212 of the road traveling vehicle 200 is lowered by the outrigger mechanism 220. Thus, the road traveling front wheel 201 of the road traveling vehicle 200 is supported from the front and rear by the first drive transmission wheel 121 and the second drive transmission wheel 122 of the track traveling carriage 100, and the road traveling rear wheel 202 is the third drive transmission wheel. 123 and the fourth drive transmission wheel 124 are supported from the front and rear.

  Therefore, when the road traveling vehicle 200 rotationally drives the road traveling front wheel 201 and the road traveling rear wheel 202, the rotation of the road traveling front wheel 201 causes the first second drive transmission wheels 121 and 122 and the first second rotating shafts 141 and 142 to rotate. To the first track wheel 131 and the second track wheel 132, and the rotation of the road running rear wheel 202 is transferred to the third track by the third and fourth drive transmission wheels 123 and 124 and the third and fourth rotation shafts 143 and 144. It is transmitted to the wheel 133 and the fourth track wheel 134.

  That is, the track wheels 131 to 134 of the track traveling vehicle 100 are driven to rotate by the road traveling vehicle 200, and thus the road traveling vehicle 200 can travel on the track R together with the track traveling vehicle 100.

  In the track-and-rail traveling system 1000 according to the present embodiment, the road traveling vehicle 200 traveling on the road surface G as described above can be caused to travel on the track R by the track traveling carriage 100. In that case, it is only necessary to load the road traveling vehicle 200 on the track traveling carriage 100.

  For this reason, it is possible to cause the road traveling vehicle 200 to travel on the track R simply and quickly without the need to replace the front road traveling wheels 201 and the rear road traveling wheels 202 with dedicated components.

  In particular, the road traveling front wheel 201 of the road traveling vehicle 200 is supported from the front and rear by the first drive transmission wheel 121 and the second drive transmission wheel 122 of the track traveling carriage 100, and the road traveling rear wheel 202 is the third drive transmission wheel. 123 and the fourth drive transmission wheel 124 are supported from the front and rear.

  Therefore, the contact between the road traveling front wheel 201 and the first and second drive transmission wheels 121 and 122 and the contact between the road traveling rear wheel 202 and the third and fourth drive transmission wheels 123 and 124 are the road surface traveling vehicle. It is always kept good by its own weight of 200.

  Moreover, it is not necessary to fix the road traveling vehicle 200 to the track traveling carriage 100 with a dedicated mechanism or the like. Further, even in a structure in which the road traveling vehicle 200 drives both the road traveling front wheel 201 and the road traveling rear wheel 202, the entire driving force can be effectively used for track traveling.

  Further, the drive transmission wheels 121 to 124 and the track wheels 131 to 134 are directly connected. For this reason, even if the large road vehicle 200 rotates the drive transmission wheels 121 to 124 with an excessive driving force, the driving force can be transmitted to the track wheels 131 to 134 without any problem.

  In addition, the track traveling carriage 100 has a front frame 111 that pivotally supports the first and second track wheels 131 and 132 and a rear frame 112 that pivotally supports the third and fourth track wheels 133 and 134 in the left-right direction. Are connected by a frame connecting mechanism 113 which can be bent freely. For this reason, even if the track R is curved in the left-right direction, the track traveling carriage 100 can travel without any problem.

  In particular, the road vehicle 200 also has a front vehicle body 211 and a rear vehicle body 212 that are connected to each other by a vehicle body connection mechanism 213 so as to be bent in the left-right direction, and the axis of bending between the vehicle body connection mechanism 213 and the frame connection mechanism 113 is The position matches. Therefore, the road surface traveling vehicle 200 can travel along the track R curved in the left-right direction together with the track traveling vehicle 100.

  Further, the road traveling vehicle 200 can raise and lower the vehicle bodies 211 and 212 by the outrigger mechanism 220. For this reason, the road traveling vehicle 200 can be easily loaded on the track traveling carriage 100.

  In the track traveling carriage 100, since the front frame 111 and the rear frame 112 are connected by the frame connecting mechanism 113, for example, by exchanging the frame connecting mechanism 113, the front frame 111 and the rear frame 112 are exchanged. You can also change the front-rear interval.

  For this reason, it is also possible to easily produce a plurality of types of track traveling carts 100 corresponding to a plurality of types of road surface traveling vehicles 200 having different wheel bases by exchanging only the frame connecting mechanism 113.

  The present invention is not limited to the present embodiment, and various modifications are allowed without departing from the scope of the present invention. For example, in the above embodiment, the structure of each part of the track carriage 100 is specifically described. However, the structure of each part can be variously modified as long as a necessary function can be ensured.

  For example, in the above embodiment, the front frame 111 and the rear frame 112 are elongated in the left-right direction and arranged in parallel in the front-rear direction, and four beam members elongated in the front-rear direction and arranged in parallel in the left-right direction. It was illustrated that the upper and lower surfaces are formed in a flat box shape with the beam material.

  However, two beam members that connect the front and rear beam members may be used. Furthermore, the structure where the upper surface is opened only in the part where the road surface traveling wheels 201 and 202 are located, or the structure where the lower surface is opened only in the part where each of the track wheels 131 to 134 is exposed may be used. .

  Further, in the above embodiment, the front frame 111 and the rear frame 112 of the track traveling carriage 100 are connected by the frame connecting mechanism 113 that can be bent in the left-right direction.

  However, like the track traveling carriage 300 illustrated in FIG. 4, the front frame 111 and the rear frame 112 may be coupled by a frame coupling mechanism 310 that can be bent in the horizontal direction and the vertical direction.

  In this case, the track traveling carriage 300 can follow the curve of the track R not only in the horizontal direction but also in the vertical direction. Such a frame coupling mechanism 310 is known as a ball joint shown or a universal joint not shown.

  On the contrary, when the wheel base is extremely short or when only the substantially straight track R is used, the track traveling carriage may have one chassis frame (not shown).

  Moreover, in the said form, it illustrated that each pair of left-right drive transmission wheels 121-124 and each pair of left-right track wheels 131-134 were integrally formed in each one rotating shaft 141-144.

  However, as in the track traveling carriage 300 illustrated in FIG. 4, the rotation shafts 321 to 324 in which the drive transmission wheels 331 to 334 and the track wheels 131 to 134 are integrally formed are separated on the left and right. Also good.

  Further, the drive transmission wheels 121 to 124 and the track wheels 131 to 134 are formed in an integral cylindrical shape, and may be rotatably supported on a support shaft fixed to the chassis frame 110. (Not shown).

  Moreover, in the said form, it illustrated that each drive transmission wheel 121-124 was formed in the simple column shape. However, like the track traveling carriage 300 illustrated in FIG. 4, the drive transmission wheels 331 to 334 may be formed in a shape in which the center in the left-right direction is concave.

  In this case, the road surface traveling wheels 201 and 202 can be automatically positioned at the center of the drive transmission wheels 331 to 334. For this reason, for example, when the road traveling vehicle 200 is moved for a long distance by the track traveling carriage 300, it is possible to prevent the positions of the road traveling wheels 201 and 202 from being displaced left and right and dropping off from the drive transmission wheels 331 to 334. .

  Furthermore, as a matter of course, the above-described embodiment and a plurality of modifications can be combined within a range in which the contents do not conflict with each other.

It is a perspective view which shows the external appearance of the track running trolley | bogie of the track running system of embodiment of this invention. It is a side view which shows the external appearance of a track running system. It is a front view which shows the external appearance of a railroad traveling system. It is a perspective view which shows the external appearance of the track traveling trolley | bogie of one modification.

Explanation of symbols

100 track traveling carriage 110 chassis frame 111 front frame 112 rear frame 113 frame coupling mechanism 121 first drive transmission wheel 122 second drive transmission wheel 123 third drive transmission wheel 124 fourth drive transmission wheel 131 first track wheel 132 second Tracked wheel 133 Third tracked wheel 134 Fourth tracked wheel 141 First rotating shaft 142 Second rotating shaft 143 Third rotating shaft 144 Fourth rotating shaft 200 Road surface traveling vehicle 201 Road surface traveling front wheel 202 Road surface traveling rear wheel 210 Car body 211 Front portion Vehicle body 212 Rear vehicle body 213 Vehicle body coupling mechanism 220 Outrigger mechanism 300 Orbit traveling carriage 310 Frame coupling mechanism 321 to 324 Rotating shaft 331 to 334 Drive transmission wheel 1000 Railway traveling system G Road surface R Track

Claims (6)

A track traveling carriage that travels on a track by loading a road traveling vehicle that travels on the road surface with at least a pair of left and right road traveling front wheels and a pair of left and right road traveling rear wheels,
At least a pair of left and right front wheels running on the track,
A pair of left and right track running rear wheels rolling on the track;
At least a pair of left and right drive transmission front wheels that support the road traveling front wheels;
At least a pair of left and right drive transmission rear wheels that support the road running rear wheels;
A chassis frame rotatably supporting the track traveling front wheel, the track traveling rear wheel, the drive transmission front wheel, and the drive transmission rear wheel;
A front transmission mechanism for interlocking rotation of the drive transmission front wheel and the track traveling front wheel;
A rear transmission mechanism for interlocking rotation of the drive transmission rear wheel and the track traveling rear wheel;
An orbital carriage with As the drive transmission front wheel, a first drive transmission wheel located in front of an axis of the road traveling front wheel and a second drive transmission wheel located behind,
As the drive transmission rear wheel, it has a third drive transmission wheel located in front of the axis of the road running rear wheel and a fourth drive transmission wheel located in the rear,
The first track wheel positioned coaxially with the first drive transmission wheel and the second track wheel positioned coaxially with the second drive transmission wheel as the track traveling front wheel,
A third track wheel positioned coaxially with the third drive transmission wheel and a fourth track wheel positioned coaxially with the fourth drive transmission wheel as the track traveling rear wheel;
The first transmission shaft and the first track wheel are integrally formed as the front transmission mechanism, and the second drive transmission wheel and the second track wheel are integrally formed. Having a second rotation axis,
The third transmission shaft and the third track wheel are integrally formed as the rear transmission mechanism, and the fourth drive transmission wheel and the fourth track wheel are integrally formed. Having a fourth axis of rotation;
The chassis frame rotates the first rotating shaft and the second rotating shaft at a position where a lower half portion of the road surface front wheel is supported from the front and rear by the first drive transmission wheel and the second drive transmission wheel. The third rotating shaft and the fourth rotation are supported at a position where the lower half of the rear road traveling wheel is supported by the third drive transmission wheel and the fourth drive transmission wheel from the front and rear. The track traveling cart according to claim 1, wherein the shaft is rotatably supported by the shaft. As the chassis frame, it has a front frame, a rear frame, and a frame connecting mechanism,
The front frame is mounted with the track traveling front wheel, the drive transmission front wheel, and the front transmission mechanism,
The track running rear wheel, the drive transmission rear wheel, and the rear transmission mechanism are mounted on the rear frame,
The track traveling carriage according to claim 1 or 2, wherein the front frame and the rear frame are coupled by the frame coupling mechanism that is freely bent in at least the left-right direction. A track-and-rail travel system that travels on a road surface and a track,
A road traveling vehicle that travels on a road surface with at least a pair of left and right road traveling front wheels and a pair of left and right road traveling rear wheels;
A track traveling carriage according to any one of claims 1 to 3,
A track-and-rail travel system. A track-and-rail travel system that travels on a road surface and a track,
A road traveling vehicle that travels on a road surface with at least a pair of left and right road traveling front wheels and a pair of left and right road traveling rear wheels;
A track traveling carriage according to claim 3,
In the road running vehicle, a front vehicle body on which the road running front wheels are mounted and a rear vehicle body on which the road running rear wheels are mounted are connected by a vehicle body connecting mechanism so as to be bent in the left-right direction.
A track-and-rail traveling system in which the positions of the axes of bending of the vehicle body coupling mechanism of the road traveling vehicle and the frame coupling mechanism of the track traveling carriage are substantially the same.   6. The roadway traveling system according to claim 4, wherein the road traveling vehicle has an outrigger mechanism that raises and lowers a vehicle body to a position where at least the road traveling front wheel and the road traveling rear wheel are above the track traveling carriage.

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