Guide device for rail-guided vehicle, and rail-guided vehicle

Abstract

Provided is a guide device for a rail-guided vehicle that is guided to travel along a travel track, the guide device including: guide wheels that roll in contact with guide rails arranged on both sides of the travel track; steering arms that steer the vehicle; guide wheel support members; and shock-absorbing members. One end of each guide wheel support member is supported at the tip end of a steering arm with shock-absorbing members interposed therebetween, and the other end of each guide wheel support member rollably supports a main guide wheel and a diverging guide wheel. The shock-absorbing members are disposed between each guide wheel support member and the corresponding steering arm, and mitigate the impact load transmitted from the guide wheels to the steering arms.

Claims

1. A guide device for a guide rail-type vehicle traveling along a travel track while being guided along the travel track, comprising: guide wheels rolled by coming in contact with guide rails including main guide rails and diverging guide rails arranged on both sides of the travel track, each of the guide wheels including a main guide wheel and a turnout guide wheel, each of the main guide rails applying inward force toward an inner side of the guide rail-type vehicle to the main guide wheel, and each of the diverging guide rails applying outward force toward an outer side of the guide rail-type vehicle to the turnout guide wheel; steering arms displaced upon receiving the inward force or the outward force and steer the vehicle; a guide wheel support member; a cushioning member; the guide wheel support member extending in a vehicle longitudinal direction, one end of the guide wheel support member being supported on a tip end of each of the steering arms via the cushioning member, the other end of the guide wheel support member rollably supporting the main guide wheel and the turnout guide wheel, and the cushioning member being a member provided between the guide wheel support member and the tip end of each steering arm, the member transmitting the inward force, the outward force, up-down force making the guide wheel support member displace in a vertical direction, and front-rear force making the guide wheel support member displace in the vehicle longitudinal direction to each steering arm while absorbing the inward force, the outward force, the up-down force, and the front-rear force so as to mitigate an impact load.

2. The guide device for the guide rail-type vehicle according to claim 1, wherein the cushioning member includes a main cushioning member absorbing the inward force, the outward force, and the up-down force, and an assistant cushioning member absorbing the front-rear force.

3. The guide device for the guide rail-type vehicle according to claim 2, further comprising a frame-shape first support frame fixed to the tip end of each steering arm, wherein the one end of the guide wheel support member is supported on the inner side of the first support frame via the main cushioning member, and the main cushioning member includes an inner ring fitted on the one end of the guide wheel support member, an outer ring fitted in the first support frame, and a main elastic body sandwiched between the inner ring and the outer ring, the main elastic body absorbing the inward force, the outward force, and the up-down force.

4. The guide device for the guide rail-type vehicle according to claim 2, further comprising: a frame-shape second support frame fixed to the tip end of each steering arm; and a coupling member connecting the guide wheel support member to the tip end of each steering arm via the assistant cushioning member, the coupling member extending in a vehicle width direction, and one end of the coupling member being fixed to the guide wheel support member and the other end of the coupling member being supported on the inner side of the second support frame via the assistant cushioning member, wherein the assistant cushioning member includes an inner ring fitted on the coupling member, an outer ring fitted to the second support frame, and an assistant elastic body sandwiched between the inner ring and the outer ring, the assistant elastic body absorbing the front-rear force and angular moment generated by the outward force and the inward force produced by the guide wheel.

5. A guide rail-type vehicle comprising: a guide device for a guide rail-type vehicle traveling along a travel track while being guided along the travel track, comprising: guide wheels rolled by coming in contact with guide rails including main guide rails and diverging guide rails arranged on both sides of the travel track, each of the guide Wheels including a main guide wheel and a turnout guide wheel, each of the main guide rails applying inward force toward an inner side of the guide rail-type vehicle to the main guide wheel, and each of the diverging guide rails applying outward force toward an outer side of the guide rail-type vehicle to the turnout guide wheel; steering arms displaced upon receiving the inward force or the outward force and steer the vehicle; a guide wheel support member; a cushioning member; the guide wheel support member extending in a vehicle longitudinal direction, one end of the guide wheel support member being supported on a tip end of each of the steering arms via the cushioning member, the other end of the guide wheel support member rollably supporting the main guide wheel and the turnout guide wheel, and the cushioning member being a member provided between the guide wheel support member and the tip end of each steering arm, the member transmitting the inward force, the outward force, up-down force making the guide wheel support member displace in a vertical direction, and front-rear force making the guide wheel support member displace in the vehicle longitudinal direction to each steering arm while absorbing the inward force, the outward force, the up-down force, and the front-rear force so as to mitigate an impact load, and the guide wheels included in the guide device being rolled by coming in contact with guide rails arranged on both sides of the travel track, so that the steering arms included in the guide device are steered and the guide rail-type vehicle travels along the travel track.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a plan view showing a configuration of a guide device in an embodiment.

(2) FIG. 2 is a side view of the guide device shown in FIG. 1.

(3) FIG. 3A is a plan view showing a tip end part of a steering arm provided in the guide device shown in FIG. 1.

(4) FIG. 3B is a side view of the tip end part of the steering arm shown in FIG. 3A.

(5) FIG. 4 is a plan view and a sectional view of a main cushioning member shown in FIGS. 3A and 3B.

(6) FIG. 5 is a plan view and a sectional view of an assistant cushioning member shown in FIGS. 3A and 3B.

(7) FIG. 6 is a plan view showing a schematic configuration of a guide rail-type vehicle in the embodiment.

(8) FIG. 7 is a view showing a guide device and a guide rail in a general guide rail-type vehicle.

EMBODIMENTS OF THE INVENTION

(9) Hereinafter, a guide device for a guide rail-type vehicle in an embodiment, and a guide rail-type vehicle including the guide device will be described with reference to the drawings. It should be noted that in the figures, the same or similar constituent parts will be given the same reference signs. In order to avoid unnecessarily redundant description and facilitate understanding of those skilled in the art, detailed description of the already well-known matters and duplicated description of the substantially same configurations will sometimes be omitted. Contents of the following description and the accompanying drawings do not intend to limit the scope described in the claims.

(10) Firstly, with reference to FIG. 6, a guide rail-type vehicle 100 in the present embodiment, and guide devices 150 provided in the vehicle 100 will be schematically described. It should be noted that a reference sign 101 denotes a vehicle width direction of the vehicle 100, a reference sign 102 denotes a vehicle longitudinal direction, and a reference sign 103 denotes a vertical direction. The vehicle width direction 101, the vehicle longitudinal direction 102, and the vertical direction 103 are orthogonal to each other.

(11) In the guide rail-type vehicle 100, an axle 1 corresponds to a drive shaft and an axle 2 corresponds to a driven shaft. The axle 1 is coupled to a drive mechanism and is driven and rotated. Travel wheels 3 of rubber tires are turnably supported on a perpendicular plane on both ends of the axle 1 and the axle 2 via bearing portions 5. A steering arm 110 formed in a U-shape in a plan view is attached to each of the bearing portions 5 so as to surround the travel wheel 3. At each of tip ends of one steering arm 110 in respective steering arms 110, a guide wheel 10 including a main guide wheel 11 and a turnout guide wheel 12 is turnably attached to the tip end. As already described, when main guide rails 22 installed along a travel track 20 are abutted on the main guide wheels 11, inward force P1 acts on the main guide wheels 11, and when diverging guide rails 23 are abutted on the turnout guide wheels 12, outward force P2 acts on the turnout guide wheels 12. By the inward force P1 and the outward force P2, the steering arms 110, the bearing portions 5, and the travel wheels 3 are integrally turned about kingpins, so that the vehicle 100 is guided and steered.

(12) It should be noted that a group of each tip end of the steering arm 110, the guide wheel 10 on each tip end of the steering arm 110, and an attachment part 13 of the guide wheel 10 on each tip end of the steering arm 110 corresponds to the guide device 150. The guide device 150 will be described in detail below.

(13) The guide device 150 will be described in detail with reference to FIGS. 1 to 5. It should be noted that FIG. 1 is a plan view in which the axle 2 of the driven shaft shown in FIG. 6 is enlarged. Hereinafter, the axle 2 will be described below. However, the axle 1 of the drive shaft has similar configuration.

(14) In the present embodiment, the guide device 150 includes the steering arm 110, the guide wheel 10 including the main guide wheel 11 and the turnout guide wheel 12, and a guide wheel support member 120 (FIGS. 2, 3A, and 3B) and a cushioning member 130 as a basic configuration. The guide device 150 can further include a coupling member 140.

(15) The steering arm 110 and the guide wheel 10 including the main guide wheel 11 and the turnout guide wheel 12 are described above. Hereinafter, the guide wheel support member 120, the cushioning member 130, and the coupling member 140 will be mainly described.

(16) Firstly, the cushioning member 130 will be described.

(17) The cushioning member 130 is provided between the steering arm 110 and the guide wheel support member 120, and absorbs the inward force P1, the outward force P2, up-down force P3 (FIG. 3B) to displace the guide wheel support member 120 in the vertical direction 103, and front-rear force P4 (FIG. 3A) to displace the guide wheel support member 120 in the vehicle longitudinal direction 102 and mitigates an impact load to the steering arm 110. The cushioning member 130 includes a main cushioning member 130A and an assistant cushioning member 130B. The main cushioning member 130A absorbs the inward force P1, the outward force P2, and the up-down force P3. The assistant cushioning member 130B absorbs the front-rear force P4.

(18) As shown in FIGS. 3 to 5, the main cushioning member 130A and the assistant cushioning member 130B are different in size but have the same configuration, and each of the cushioning members includes an inner ring 131 and an outer ring 132 like a bearing. Between the inner ring 131 and the outer ring 132, as one example of an elastic body, a ring-shape main rubber material 133A is sandwiched in the main cushioning member 130A, and a ring-shape assistant rubber material 133B is sandwiched in the assistant cushioning member 130B, respectively. The main rubber material 133A and the assistant rubber material 133B (sometimes referred to as the rubber material 133 collectively) perform an action of mitigating or buffering the impact load. A material of the main and assistant cushioning members is not limited to a rubber material but any material capable of achieving functions to be described below can be used.

(19) In the main cushioning member 130A, as one example, an inner diameter of the inner ring 131 is 45 mm, an outer diameter of the outer ring 132 is 85 mm, and length of the main cushioning member 130A is 45 mm. In the assistant cushioning member 130B, as one example, an inner diameter of the inner ring 131 is 25 mm, an outer diameter of the outer ring 132 is 60 mm, and length of the assistant cushioning member 130B is 30 mm. For both the main rubber material 133A and the assistant rubber material 133B, an elastic material capable of mitigating or buffering the impact load can be used. For example, natural rubber and the like can be used.

(20) Next, the guide wheel support member 120 will be described.

(21) The guide wheel support member 120 is a member extending in the vehicle longitudinal direction 102. One end 121 of the guide wheel support member 120 is supported on each of tip ends 111 of the steering arm 110 via the main cushioning member 130A, and the other end 122 of the guide wheel support member 120 rollably supports the main guide wheel 11 and the turnout guide wheel 12. That is, as shown in FIG. 3B, the inner ring 131 of the main cushioning member 130A is fitted on the one end 121 of the guide wheel support member 120, so that the main cushioning member 130A is attached.

(22) Meanwhile, a first support frame 112 is fixed to each tip end 111 of the steering arm 110. As shown in FIG. 3B, the first support frame 112 is a member which is hollow inside, and for example, a pipe material can be used as the first support frame. The first support frame 112 is a member that makes the guide wheel support member 120 extend along the vehicle longitudinal direction 102 and toward a side of the travel wheel 3, and supports the one end 121 of the guide wheel support member 120. As described above, the main cushioning member 130A is attached to the one end 121 of the guide wheel support member 120. Therefore, the outer ring 132 of the main cushioning member 130A is fitted to an inner surface of the first support frame 112. Thereby, the guide wheel support member 120 is supported on the tip end 111 of the steering arm 110 via the main cushioning member 130A and the first support frame 112.

(23) Further, the coupling member 140 will be described.

(24) The coupling member 140 is a member that connects the guide wheel support member 120 to the tip end 111 of the steering arm 110 via the assistant cushioning member 130B. For example, a rod material can be used as the coupling member. As shown in FIG. 3A, one end 141 of the coupling member 140 is fixed to the guide wheel support member 120 and the coupling member 140 extends in the vehicle width direction 101. At the other end 142 of the coupling member 140, the inner ring 131 of the assistant cushioning member 130B is fitted on the other end 142, so that the assistant cushioning member 130B is attached to the other end 142.

(25) Meanwhile, a second support frame 113 is fixed to the tip end 111 of the steering arm 110. It should be noted that in the present embodiment, as shown in FIG. 3A, the second support frame 113 is an L-shape member and one end 113a of the second support frame 113 is connected to the first support frame 112. Thus, the second support frame 113 is fixed to the tip end 111 of the steering arm 110 via the first support frame 112.

(26) At the other end 113b of the second support frame 113, the second support frame 113 supports the other end 142 of the coupling member 140 via the assistant cushioning member 130B. As described above, the assistant cushioning member 130B is attached to the other end 142 of the coupling member 140. The outer ring 132 of the assistant cushioning member 130B is fitted in the second support frame 113. Thereby, the coupling member 140 is supported to the tip end 111 of the steering arm 110 via the assistant cushioning member 130B, and the second support frame 113 and the first support frame 112.

(27) Next, a buffering operation by the assistant cushioning member 130B will be described.

(28) In some cases, the above front-rear force P4 along the vehicle longitudinal direction 102 acts on the main guide wheel 11 and the turnout guide wheel 12 by the main guide rail 22 and the diverging guide rail 23. The front-rear force P4 corresponds to force in a diameter direction of the ring-shape assistant rubber material 133B in the assistant cushioning member 130B. So, the front-rear force P4 becomes force squashing the assistant rubber material 133B. The coupling member 140 extends in the vehicle width direction 101 perpendicular to the front-rear force P4. Therefore, when the front-rear force P4 applies to the coupling member 140 by at least one of the main guide wheel 11 and the turnout guide wheel 12, the assistant rubber material 133B is squashed and deformed so as to perform an action of mitigating the impact load by the front-rear force P4.

(29) In such a way, the assistant cushioning member 130B can mitigate the impact load of the front-rear force P4 applying to the coupling member 140 via the guide wheel support member 120.

(30) Further, in some cases, angular moment is generated to twist the guide wheel support member 120 by the inward force P1 and the outward force P2 applied by the guide wheel 10. Since the force of the angular moment applies to the assistant rubber material 133B via the coupling member 140, the assistant rubber material 133B further performs an action of absorbing the angular moment force. Therefore, the assistant rubber material 133B can also mitigate the impact load by the inward force P1 and the outward force P2.

(31) An operation of the guide devices 150 of the guide rail-type vehicle 100 configured as described above will be briefly described.

(32) As already described, when the vehicle 100 travels on the travel track 20, the main guide rails 22 and the diverging guide rails 23 installed on the travel track 20 are abutted on the main guide wheels 11 and the turnout guide wheels 12 in the guide devices 150. At this time, the inward force P1 acting on the main guide wheels 11, the outward force P2 acting on the turnout guide wheels 12, and the up-down force P3 and the front-rear force P4, both of which might be generated by the above forces P1, P2 in some cases, are buffered by the main cushioning members 130A and the assistant cushioning members 130B, so that generation of noises, a lowered quality of ride, and the like are prevented.

(33) While the operation above is repeated, the vehicle 100 travels along the travel track 20.

(34) The present invention is sufficiently described relating to the preferred embodiment with reference to the accompanying drawings. However, for those skilled in the art, various modifications and corrections are obviously available. It should be understood that such modifications and corrections are included in the scope of the present invention by the accompanying claims unless the modifications and the corrections depart from the scope.

(35) All the disclosed contents of the description, the drawings, the claims, and the abstract of Japanese Patent Application No. JP 2013-48213 filed on Mar. 11, 2013 are incorporated in the present description as a reference.

INDUSTRIAL APPLICABILITY

(36) The present invention can be applied to a guide device for a guide rail-type vehicle that travels on a travel track while guide wheels are abutted on guiding rails, and a guide rail-type vehicle including the guide device.

DESCRIPTION OF REFERENCE SIGNS

(37) 10: Guide wheel 11: Main guide wheel 12: Turnout guide wheel 21: Guide rail 22: Main guide rail 23: Diverging guide rail 100: Guide rail-type vehicle 110: Steering arm 112: First support frame 113: Second support frame 120: Guide wheel support member 121: One end 122: Other end 130: Cushioning member 130A: Main cushioning member 130B: Assistant cushioning member 131: Inner ring 132: Outer ring 133: Rubber material 133A: Main rubber material 133B: Assistant rubber material 140: Coupling member 141: One end 142: Other end 150: Guide device