CN104499385A - F sectional steel connecting structure for medium-low-speed magnetic levitation system - Google Patents

Abstract

The invention discloses an F sectional steel connecting structure for a medium-low-speed magnetic levitation system. The F sectional steel connecting structure comprises a wing plate lower connecting plate, a clamp plate, an outer leg side connecting plate and two sections of F sectional steel, wherein each section of F sectional steel is provided with an inner leg, an outer leg, a web plate and a wing plate, the two ends of the wing plate lower connecting plate are respectively connected with the wing plates arranged at the two sides through first screw bolts and the clamp plate, a groove longitudinally extending along the line is formed in the side wall of each outer leg, the outer leg side connecting plate is provided with a long slot groove at one side near the clamp plate, and is provided with a round hole at one side leaving far away from the clamp plate, and the outer side connecting plate is fixedly arranged in the groove through second screw bolts. The F sectional steel connecting structure for the medium-low-speed magnetic levitation system has the advantages that the structure is simple, the processing cost is low, the installation is convenient, and the maintenance is easy.

Description

Medium-and low-speed maglev system F steel section jointing structure

Technical field

The present invention relates to medium-and low-speed maglev technical field of rail traffic, be specially a kind of medium-and low-speed maglev system F steel section jointing structure.

Background technology

The track structure of medium-and low-speed maglev system is primarily of the section of track of piecemeal, fastener system and track composition.The section of track can at the scene or factory-assembled, be connected with the track of cast in situs by fastener system, simultaneously, for the distortion that adaptation infrastructure and the section of track cause under variations in temperature, need between the section of track to arrange shrinkage joint, the size at shrinkage joint, should meet when historical high temperature non-vanishing stressed to guarantee not hold out against between the section of track, be no more than structural joint gap to guarantee that train smooth is driven a vehicle when historical low temperature.

Between the section of track, F steel section jointing structure is the linkage being arranged on expansion joint position between the adjacent section of track, and this structure not only needs to ensure to align in vertical and horizontal installation between the section of track, also needs the dilatation adapting to shrinkage joint between the section of track simultaneously.Large quantity research has done in domestic and international multiple mechanism for this reason, Japan Patent JP2003184007A, and Chinese patent CN202509345U, CN103966928 are proposed the syndeton of different types.Japan Patent JP2003184007A disclosed a kind of joint design preventing track dislocation in 2003, this structure is made up of the auxiliary connection of the auxiliary connection under F shaped steel wing plate and the outer leg end of F shaped steel, wherein under F shaped steel wing plate and plate, auxiliary connection is point cantact, control the vertical and transversion malposition between the section of track by the auxiliary connection of leg end outside the design of F shaped steel wing plate low groove and F shaped steel, adapt to relative telescopic longitudinal between the section of track by grooved hole.Chinese patent CN202509345U disclosed a kind of section of track connecting joint in 2012, this structure is made up of the outer magnetic pole key auxiliary connection matched with F shaped steel and wing plate auxiliary connection, controls the vertical and transversion malposition between the section of track by " convex " font of wing plate auxiliary connection slide block or the design of " recessed " font and outer magnetic pole key auxiliary connection.Chinese patent CN103966928 disclosed a kind of medium-and low-speed maglev system track F rail joint design in 2014, this structure has gathering sill in longitudinal extension, outer gathering sill in the inside bottom, outside side wall of two F shaped steel link wing rails, the openend of U-shaped junction plate embeds in two grooves to control the vertical and transversion malposition between the section of track, U-shaped junction plate has long slot bore, to adapt to longitudinal relative telescopic between the section of track.

Although above syndeton all can meet the connection request of the section of track in theory, but still there is syndeton and adapt to section of track temperature and to stretch not enough situation.

Summary of the invention

Therefore, in order to overcome the deficiency that prior art exists, the invention provides one and effectively can prevent the vertical and transversion malposition of adjacent two F shaped steel, improve the medium-and low-speed maglev system F steel section jointing structure of the section of track in the installation accuracy at rail gap place.

For solving the problems of the technologies described above, medium-and low-speed maglev system F steel section jointing structure of the present invention comprises wing plate lower connecting plate, clamping plate, outer leg side connecting plate and two are provided with interior leg, outer leg, the F shaped steel of web and wing plate, the two ends of described wing plate lower connecting plate are connected with the wing plate of both sides with clamping plate respectively by the first bolt, described outer leg sidewall is provided with the groove along circuit longitudinal extension, described outer leg side connecting plate is provided with long slot bore in the side near clamping plate, described outer leg side connecting plate is provided with circular hole in the side away from clamping plate, described outer leg side connecting plate is bolted in groove by second.

Beneficial effect of the present invention is as follows: 1, the present invention achieves the connection of adjacent two F shaped steel by wing plate lower connecting plate and outer leg side connecting plate, effectively can prevent the vertical and transversion malposition of adjacent two F shaped steel, improve the installation accuracy of the section of track at rail gap place.

2, the present invention can adapt to the telescopic displacement of shrinkage joint under TEMPERATURE FORCE effect between adjacent two sections of track.

3, structure of the present invention is simple, processing cost is low, easy for installation, for ease of maintenaince.

After reading the detailed description of embodiment of the present invention by reference to the accompanying drawings, the other features and advantages of the invention will become clearly.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, the specific embodiment of the present invention is described in further detail, wherein:

Fig. 1 is schematic top plan view of the present invention;

Fig. 2 is A-A section part generalized section of the present invention;

Fig. 3 is B-B section part generalized section of the present invention;

Fig. 4 is the generalized section of F shaped steel wing plate side of the present invention;

Fig. 5 is the generalized section of the outer leg side of F shaped steel of the present invention.

Detailed description of the invention

Below in conjunction with accompanying drawing and the specific embodiment of the present invention, medium-and low-speed maglev system F steel section jointing structure of the present invention is made the following instructions.

Embodiment: a kind of medium-and low-speed maglev system F steel section jointing structure, comprise wing plate lower connecting plate 1, clamping plate 2, outer leg side connecting plate 3 and two are provided with interior leg 5.1, outer leg 5.2, the F shaped steel 5 of web 5.3 and wing plate 5.4, the two ends of described wing plate lower connecting plate 1 are connected with the wing plate 5.4 of both sides with clamping plate 2 respectively by the first bolt 4.1, described outer leg 5.2 sidewall is provided with the groove 5.6 along circuit longitudinal extension, described outer leg side connecting plate 3 is provided with long slot bore 3.1 in the side near clamping plate 2, described outer leg side connecting plate 3 is provided with circular hole 3.2 in the side away from clamping plate 2, described outer leg side connecting plate 3 is fixed in groove 5.6 by the second bolt 4.2.The bottom surface of described wing plate 5.4 is provided with the limited impression 5.5 along circuit longitudinal extension, and described wing plate lower connecting plate 1 is provided with the convex block 1.1 matched with limited impression 5.5.Described wing plate lower connecting plate 1 be provided with near the side of clamping plate 2 reach structural joint gap for shrinkage joint between two sections of track time and the barb 1.2 that holds out against of clamping plate 2.Described two wing plates (5.4) can be that " one " font connects, and also can be that " ladder " type connects.

See figures.1.and.2, the F shaped steel 5 of adjacent two sections of track has interior leg 5.1, outer leg 5.2, web 5.3 and wing plate 5.4, and adjacent two F shaped steel wing plate 5.4 places are designed to " ladder " type and connect.

With reference to Fig. 1, Fig. 2 and Fig. 3, two F shaped steel 5 ends are provided with the limited impression 5.5 along circuit longitudinal extension in wing plate 5.4 bottom surface, wing plate lower connecting plate 1 is provided with the convex block 1.1 matched with limited impression, limited impression 5.5 is long and allow stroke to match between convex block 1.1 length, expansion joint width and two sections of track, during installation, convex block 1.1 embeds in the limited impression 5.5 of wing plate 5.4 bottom surface.

Described wing plate lower connecting plate 1 is provided with in clamping plate 2 side and clamping plate 2 size, the barb 1.2 that allows stroke to match between two sections of track, can hold out against when this barb 1.2 shrinkage joint between two sections of track reaches structural joint gap with clamping plate 2.Described clamping plate 2 are " recessed " font structure matched with wing plate lower connecting plate 1, and the contact of itself and wing plate lower connecting plate 1 is designed to the two-point contact of " recessed " font, and wing plate lower connecting plate 1 and wing plate 5.4 are linked together by the first bolt 4.1 by clamping plate 2.

Above-described embodiment is the present invention's preferably embodiment; but embodiments of the present invention are not restricted to the described embodiments; change, the modification done under other any does not deviate from Spirit Essence of the present invention and principle, substitute, combine, simplify; all should be the substitute mode of equivalence, be included within protection scope of the present invention.

Claims (6)

1. a medium-and low-speed maglev system F steel section jointing structure, comprise wing plate lower connecting plate (1), clamping plate (2), outer leg side connecting plate (3) and two are provided with interior leg (5.1), outer leg (5.2), the F shaped steel (5) of web (5.3) and wing plate (5.4), it is characterized in that: the two ends of described wing plate lower connecting plate (1) are connected with the wing plate (5.4) of both sides with clamping plate (2) respectively by the first bolt (4.1), described outer leg (5.2) sidewall is provided with the groove (5.6) along circuit longitudinal extension, described outer leg side connecting plate (3) is provided with long slot bore (3.1) in the side near clamping plate (2), described outer leg side connecting plate (3) is provided with circular hole (3.2) in the side away from clamping plate (2), described outer leg side connecting plate (3) is fixed in groove (5.6) by the second bolt (4.2).

2. medium-and low-speed maglev system F steel section jointing structure according to claim 1, it is characterized in that the bottom surface of described wing plate (5.4) is provided with the limited impression (5.5) along circuit longitudinal extension, described wing plate lower connecting plate (1) is provided with the convex block (1.1) matched with limited impression (5.5).

3. medium-and low-speed maglev system F steel section jointing structure according to claim 1 and 2, it is characterized in that described wing plate lower connecting plate (1) be provided with near the side of clamping plate (2) reach structural joint gap for shrinkage joint between two sections of track time and the barb (1.2) that holds out against of clamping plate (2).

4. medium-and low-speed maglev system F steel section jointing structure according to claim 1 and 2, is characterized in that described clamping plate (2) are " recessed " font structure matched with wing plate lower connecting plate (1).

5. medium-and low-speed maglev system F steel section jointing structure according to claim 1 and 2, is characterized in that described two wing plates (5.4) are for the connection of " one " font.

6. medium-and low-speed maglev system F steel section jointing structure according to claim 1 and 2, is characterized in that described two wing plates (5.4) are for the connection of " ladder " type.