Magnetic levitation steering mechanism

A steering mechanism and magnetic levitation technology, which are applied in the direction of lateral relative movement between the chassis and the bogie, electric traction, electric vehicles, etc., can solve the problems of complex mechanism, increased manufacturing and maintenance costs, vibration, etc., and reduce manufacturing. and maintenance costs, reducing additional force, and prolonging service life

Active Publication Date: 2011-04-20
CRRC TANGSHAN CO LTD +2
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

To achieve this relative movement (rail, bogie, car body) must solve the following problems: 1) The bogie must fit the track to obtain the maximum suspension force and maintain the direction of motion; 2) The bogie and the car must maintain a certain relative Positional relationship to prevent unbalanced load; 3) The bogie needs to drive the car body to deflect and change the direction of motion, so there must be a connection point between the bogie and the car body, and this connection cannot limit the freedom of the bogie to run along the track
[0014] 1. When the train passes the curved track, the two displacements produced by the air spring must be compensated, and the trajectory is not the real trajectory of the end, which is prone to additional vibration;
[0015] 2. Generate additional force, affecting the flexibility of bogie rotation;
[0016] 3. Lead to complex mechanism, increase manufacturing and maintenance costs

Method used

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Examples

Experimental program
Comparison scheme
Effect test

no. 1 example

[0059] Reference Figure 6-1 , Shows a schematic diagram of the first embodiment of the magnetic levitation steering mechanism of the present invention. The above-mentioned magnetic levitation steering mechanism is an arc-shaped moving sliding table, including: a first first rolling body 601 and a first first roller seat 602. Among them, the first raceway body 601 is connected to the car body as the upper part of the arc-shaped movement sliding table; the first roller seat 602 is connected to the bogie as the lower part of the arc-shaped movement sliding table; the first raceway body 601 is connected to the first roller The sub-base 602 is in contact with each other and makes a relative circular arc motion. First roller seat 602 First raceway body 601

[0060] See for details Figure 6-2 As shown in the schematic diagram of the first raceway body, the plane where the first raceway body 601 contacts the first roller seat 602 is defined as the first lower plane 6011 of the first ra...

no. 2 example

[0064] Reference Figure 6-4 As shown in the cross-sectional view of the second embodiment of the magnetic levitation steering mechanism of the present invention, the arc-shaped moving slide-type magnetic levitation steering mechanism includes: a second roller seat 61, a second raceway body 63 and two connecting positioning devices 62.

[0065] The components of the second embodiment of the magnetic levitation steering mechanism of the present invention will be described in detail below in conjunction with the specific structural schematic diagrams of each part.

[0066] 1. Roller seat embodiment

[0067] Reference Figure 7 As shown in the structural schematic diagram of the embodiment of the roller seat, the second roller seat 61 is composed of a roller seat body 71 and several rollers 72. In this embodiment, three rollers 72 are provided on the roller seat 71. The three rollers 72 are evenly arranged on the roller seat 71 in a fan shape. Figure 8 A schematic diagram of the worki...

no. 3 example

[0087] Reference Figure 14 As shown, a schematic diagram of the third raceway body of the magnetic levitation steering mechanism of the present invention is shown. The difference from the second embodiment of the magnetic levitation steering mechanism is that the third lower plane 6111 of the third raceway body 611 in this embodiment is one side It is a straight line, and the other side is a plane with an arc. Figure 15 As shown in the cross-sectional view of the third raceway body 611 along the A-A direction, the third raceway body 611 has a half I-shaped structure. The connection relationship between the entire magnetic levitation mechanism and the car body is as follows Figure 16 As shown, the third lower plane 6111 of the third raceway body 611 is fixedly connected to the vehicle body 600, and the connection relationship of the remaining components is the same as or similar to that of the second embodiment, and will not be repeated here.

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PUM

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Abstract

The invention provides a magnetic levitation steering mechanism which is installed between a vehicle body and a steering frame of a magnetic levitation vehicle, and the steering mechanism is an arc movable sliding table, wherein the upper part of the sliding table is connected with the vehicle body, and the lower part of the sliding table is connected with the steering frame; the upper part and the lower part of the sliding table make relative movement with a circular arc movement trail. The introduction of the magnetic levitation steering mechanism realizes that a moving point of a steering module forming the steering frame makes arc movement around a relative rest point to drive the vehicle body and the steering frame to make circular arc relative movement together, so that the vehicle passes through a curve track smoothly, and the service life of an air spring and the steering frame is prolonged.

Description

Technical field [0001] The present invention relates to the technical field of magnetic levitation vehicles, in particular, to a magnetic levitation steering mechanism for magnetic levitation trains. Background technique [0002] Magnetic levitation train is a kind of train driven by magnetic levitation force (that is, magnetic attraction or repulsion). Because the magnetic force of the track makes it levitate in the air and does not need to touch the ground when walking, its resistance is only air resistance. The maximum speed of the maglev train can reach more than 500 kilometers per hour, with high speed, low noise, environmental protection, economy and comfort Features. [0003] Reference Figure 1-A The structure diagram of the magnetic levitation train steering device shown and Figure 1-B Shown Figure 1-A The enlarged view of the middle part M and the schematic diagram of the force. The bogie 11 is installed on the rail 14, an air spring 12 is provided on the bogie 11, and ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B61F5/02B60L13/06
Inventor 赵志苏郑宝奎高晓霞王永刚
Owner CRRC TANGSHAN CO LTD
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