CN207498750U - A kind of micro- track turnout structure - Google Patents
A kind of micro- track turnout structure Download PDFInfo
- Publication number
- CN207498750U CN207498750U CN201721220659.3U CN201721220659U CN207498750U CN 207498750 U CN207498750 U CN 207498750U CN 201721220659 U CN201721220659 U CN 201721220659U CN 207498750 U CN207498750 U CN 207498750U
- Authority
- CN
- China
- Prior art keywords
- track
- plate
- guide plate
- track switch
- micro
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Landscapes
- Train Traffic Observation, Control, And Security (AREA)
Abstract
A kind of micro- track turnout structure is provided in the embodiment of the present application, micro- track turnout structure includes:Track switch upper plate, the first track switch side plate, track switch lower plate and the second track switch side plate;Fixed one surrounded has the steering space for merging end and separating end successively for the track switch upper plate, the first track switch side plate, track switch lower plate and the second track switch side plate, the vehicle running mechanism can carry out travel route transformation in the steering space, and drive vehicle transformation travel direction using the erecting by overhang across targeting port.Herein described technical solution can convert the travel route of vehicle using the transfer in upper and lower guide plate cooperation vehicle to run portion in the steering space in micro- track turnout structure, simultaneously, it is matched using upper and lower guide plate with the transfer on running part, ensures that vehicle passes through and turn to the unilateral hanging section that vehicle in space occurs.
Description
Technical field
This application involves suspension type traffic techniques, and in particular, to a kind of micro- track turnout for suspension type traffic system
Structure.Herein described micro- rail refers to:Track width is the suspension type traffic system of below 600mm.
Background technology
Urban track traffic is referred to be run on fixed guide rail using vehicle in city and is mainly used for urban passenger
Traffic system.The method of operation of usual rail traffic be vehicle on the trapped orbit of ground, the power plant of vehicle is utilized to generate
Driving force, according to the guiding to vehicle of track, in the higher area operation of single or multiple population densities.
Suspension type traffic is that a kind of all fronts hang skyborne Rail Transit System, by track and vehicle hanging in high-altitude
In vacant space, the activity space in people's daily life can efficiently be utilized compared to usual rail traffic, and have
The congestion problems for alleviating traffic above-ground of effect.Meanwhile suspension type traffic due to use special steering and driving structure, to fortune
Row environmental suitability is stronger, to landform without strict demand, moreover, suspension type traffic is using electric propulsion, in train operation
Without exhaust pollution, be conducive to protect urban environment.
Since the method for operation of suspension type traffic is different from common rail traffic, conventional ground rail system without
Method is applied to suspension type traffic.
Utility model content
One of to solve above-mentioned technical problem, the utility model provides a kind of micro- track turnout structure, micro- track turnout
Structure 3 includes:Micro- track turnout structure 3 includes:By track switch upper plate 301, the first track switch side plate 302, track switch lower plate 303 and
Fixed one surrounded has the steering space for merging end and separating end to two track switch side plates 304 successively;
The running mechanism 7 of the vehicle 6 run in micro- track turnout structure 3 can carry out traveling road in the steering space
Line converts, and vehicle 6 is driven to convert travel direction using the erecting by overhang 8 across targeting port;
The lower surface of the track switch upper plate 301 is equipped with the first guide plate 305 and the second guide plate 306, and described first is oriented to
305 and second guide plate 306 of plate is detached in merging end convergence, and in the separating end;
The track switch lower plate 303 is equipped with the first targeting port and the second targeting port, first targeting port and the second targeting port
It crosses at the merging end, and the position for corresponding to the first guide plate 305 and the second guide plate 306 respectively is detached in separating end.
The beneficial effects of the utility model are as follows:
Herein described technical solution can be coordinated in the steering space in micro- track turnout structure using upper and lower guide plate
Transfer in vehicle to run portion converts the travel route of vehicle, meanwhile, using on upper and lower guide plate and running part
Transfer match, ensure that vehicle passes through and turn to the hanging section in unilateral side that vehicle in space occurs.
Description of the drawings
Attached drawing described herein is used for providing further understanding of the present application, forms the part of the application, this Shen
Illustrative embodiments and their description please do not form the improper restriction to the application for explaining the application.In the accompanying drawings:
Fig. 1 is the overall schematic of rail system described in this programme;
Fig. 2 is the schematic diagram that rail system mesoslope section described in this programme supports;
Fig. 3 is the schematic diagram that curved section supports in rail system described in this programme;
Fig. 4 is the schematic diagram of support device described in this programme;
Fig. 5 is the schematic diagram of the first Cantilever Beams ceiling mounted tracks structure described in this programme;
Fig. 6 is the schematic diagram of second of Cantilever Beams ceiling mounted tracks structure described in this programme;
Fig. 7 is the schematic diagram of the first multilayer track structure described in this programme;
Fig. 8 is the schematic diagram of second of multilayer track structure described in this programme;
Fig. 9 is the schematic diagram of track structure lifting mode described in this programme;
Figure 10 is for the schematic diagram of the fixed plate of ceiling mounted tracks structure described in this programme;
Figure 11 is the schematic diagram of load-carrying members described in this programme;
Figure 12 is the schematic diagram of the first sloping platform described in this programme;
Figure 13 is the schematic diagram of second of sloping platform described in this programme;
Figure 14 is the schematic diagram of ruggedized construction described in this programme;
Figure 15 is the schematic diagram of lighting apparatus described in this programme;
Figure 16 is the schematic diagram that running mechanism described in this programme is arranged in track structure;
Figure 17 is the schematic diagram that reinforcing rib is arranged on track structure described in this programme;
Figure 18 is the schematic diagram that the described two rail connections of this programme have gap;
Figure 19 is the schematic diagram of rebound and spatial transition described in this programme;
Figure 20 is the schematic diagram for being connected case described in this programme;
Figure 21 is the schematic diagram of curved section track structure described in this programme;
Figure 22 is the schematic diagram of slope section track structure described in this programme;
Figure 23 is the schematic diagram of micro- track turnout structure described in this programme;
Figure 24 is the schematic diagram of micro- track turnout structural top described in this programme;
Figure 25 is the schematic diagram of track switch upper plate lower surface guide plate described in this programme;
Figure 26 is the schematic diagram of track switch lower plate described in this programme;
Figure 27 is the schematic diagram in the hanging region of running mechanism described in this programme;
Figure 28 is the bottom view of micro- track turnout structure described in this programme;
Figure 29 is the schematic diagram that the front end of track switch lower plate being connect described in this programme with separator frame moves down;
Figure 30 is the schematic diagram of connection structure and buffer structure described in this programme;
Figure 31 is the schematic diagram of power supply module described in this programme;
Figure 32 is the schematic diagram of overhead platform structure described in this programme;
Figure 33 is the schematic diagram that platform and control room described in this programme integrate;
Figure 34 is platform described in this programme and overhauls the schematic diagram that library integrates;
Figure 35 is the schematic diagram of relief structure described in this programme.
Drawing reference numeral
1st, support device, 101, support post, 102, Cantilever Beams, 103, load-carrying members, 104, fixed plate, 105, base station,
106th, pilum, 107, pedestal, 108, sloping platform, 109, ruggedized construction, 110, backing plate, 111, lighting apparatus, 112, LED light, 113,
Light distribution device, 114, maintenance ladder;
2nd, track structure, 201, box track, 202, connected structure, 203, linking case, 204, gap, 205, reinforcing frame,
206th, frame is connected, 207, rebound, 208, power supply module, 209, trolley, 210, fixing device, 211, support base, 212, end
Lid, 213, straightway, 214, curved section, 215, slope section, 216, anti-skid structure, 217, reinforcing rib, 218, gap;
3rd, micro- track turnout structure, 301, track switch upper plate, the 302, first track switch side plate, 303, track switch lower plate, 304, second
Branch off side plate, the 305, first guide plate, the 306, second guide plate, 307, connection structure, 308, buffer structure, 309, buffer board,
310th, separator frame, 311, third guide plate;
4th, platform structure, 401, platform, 402, platform column, 403, supporting beam, 404, control room, 405, meeting room,
406th, library is overhauled, 407, inspection platform, 408, storehouse, 409, platform top, 410, waiting guardrail, 411, stopping sliding door, 412, automatic
Ticket-selling device, 413, the outer guardrail of platform, 414, staircase;
5th, relief structure, 501, Succor plain stage, 502, fire escape;
6th, vehicle;
7th, running mechanism;
8th, erecting by overhang.
Specific embodiment
In order to which technical solution in the embodiment of the present application and advantage is more clearly understood, below in conjunction with attached drawing to the application
Exemplary embodiment be described in more detail, it is clear that described embodiment be only the application a part implement
The exhaustion of example rather than all embodiments.It should be noted that in the absence of conflict, embodiment and reality in the application
Applying the feature in example can be combined with each other.
The core thinking of the application is according to the method for operation of suspension type traffic, designs and meets suspension type traffic circulation spy
The track structure 2 and rail support structures of point;And the problems such as being directed to the turning of 6 emerged in operation of vehicle, climbing, jolt, powering
Corresponding improvement of orbit is carried out, to improve the stability of the operation of vehicle 6 and safety.
Specifically, as shown in Figure 1, this application discloses a kind of micro- rail rail system, which includes:It is dispersed in target area
Multiple support devices 1 in domain and the track structure 2 being suspended in support device 1;The track, which is used to support, to be disposed thereon
Vehicle 6 moved in target area.
Target area described in this programme can be that user's residence area, block, region of travelling, city traffic network etc. are middle-size and small-size
Transit domain can alleviate the short distance trip pressure of user, reduce traffic jam, improve the comfort level of the short distance trip of user.
In the present solution, as shown in Figures 2 and 3, whole load-bearing conditions of the support device 1 according to track structure 2, part
Guiding situation and special road section situation pass through equidistant mode, the mode of local strengthening, the mode three of the above for mixing spacing
At least one of mode arrange support device 1;For example, when long range keeps straight on track structure 2, support device may be used
1 equidistant mode is arranged;For example, in deflecting, climbing, part, which may be used, increases the mode of multiple support devices 1 to stress
Larger section of track structure 2 carries out reinforcement support;For example, when shunting out of the station, in order to which the track on platform 401 is coordinated to support,
The mode of mixed spacing may be used, the track structure 2 in track structure 2 and platform 401 used in being travelled to vehicle 6 props up
Support is excessive.Further, in order to increase the adaptability to target area, the homonymy in track structure 2 may be used in support device 1
Arrangement can also arrange in a staggered manner in the both sides of track structure 2, can effectively hide the barrier on open shop route in this way
Hinder region.
In the present solution, according to the operation demand of target area, track structure 2 can be designed as to the form of closed circuit,
One-way circulation operation can be carried out in target area;Can also be non-closed form by Track desigh, i.e., from originating point
It sends out, reaches the one way operation of final destination.
Embodiment one
On the basis of above-mentioned micro- rail rail system structure, as shown in figure 4, the support device 1 includes:Support post
101 and Cantilever Beams 102;One end of the support post 101 is fixed in load-carrying members 103;The support post 101 it is another
End is fixed with Cantilever Beams 102, and the Cantilever Beams 102 are used to lift the track structure 2.
In embodiment one, as shown in Figure 5 and Figure 6, according to the situation that track structure 2 is arranged in target area, track
Structure 2 can be lifted on there are many mode on Cantilever Beams 102:First way is that the other end of the support post 101 is consolidated
The side of Cantilever Beams 102 is scheduled on, the opposite side of the Cantilever Beams 102 is used for ceiling mounted tracks structure 2;The second way is, described
The other end of support post 101 is fixed on the center position of Cantilever Beams 102, and the both sides of the Cantilever Beams 102 are respectively used to lift
Track structure 2;The third mode is to be separately fixed on two support posts 101 by the both ends of Cantilever Beams 102, Cantilever Beams
At least one track structure 2 is set on 102, if it is multiple when, there are safe spacings between each two track structure 2;4th kind
Mode is that Cantilever Beams 102 are designed as square structure, and the center position of the wherein a line of the square structure is fixed on support post
101 other end, the side of the offside for fixing side with support post 101 of the Cantilever Beams 102 of the square structure are equipped with extremely
A few track structure 2.By the combined use of above two mode, can space be used according to the actual ground of target area
Situation reduces the quantity of support device 1, and more concentrates compact Layout overall track structure 2, saves target area to the greatest extent
Domain uses space.
In embodiment one, as shown in Figure 7 and Figure 8, the support post 101 is equipped with multilayer track structure 2, every layer of rail
Road structure 2 is lifted by Cantilever Beams 102;Distance between every two layers of track structure 2 of the same side can at least accommodate vehicle 6
Overall structure.By setting multilayer track structure 2, it is ensured that on the basis of the floor space for not increasing circuit, be effectively increased
Vehicle 6 on circuit runs quantity, so as to improve efficiency of operation, reduces and takes up an area usable floor area.In addition, it can be saved by this design
The floor space of the bypass track structure 2 for offline platform 401 is saved, vehicle can be realized in same small range section by realizing
The operation of 6 backbones, and passenger can be facilitated to change station and ridden.In addition, platform structure 4 can directly be saved by this design, right
The position setting staircase 414 and guardrail that vehicle 6 is stopped are answered, passenger treats vehicle 6 by the area that waits of the arrival equivalent layer of staircase 414
Stop it is steady after, guardrail is opened, and after passenger enters vehicle 6, closed door and guardrail are realized and flexibly stopped, and small amount measurement is with taking out
The purpose of visitor, so as to alleviate the problem of 401 stream of people of main website platform is crowded.
In embodiment one, in order to strengthen support of the support post 101 to Cantilever Beams 102, the one of setting track structure 2
Side sets reinforcing rib 217, and side and the support post 101 of the reinforcing rib 217 are welded and fixed, opposite side and Cantilever Beams 102
It is welded and fixed.
In embodiment one, as shown in Figure 9 and Figure 10, fixed plate 104 is provided on the Cantilever Beams 102, the fixed plate
104 edge is welded and fixed with Cantilever Beams 102, and the plate body of the fixed plate 104 is fixed by fixing piece and track structure 2;Institute
State fixed plate 104 by being welded and fixed, bolt modes and the Cantilever Beams 102 and track structure 2 such as fixes and fixes.Further, it is
Strengthen fixed plate 104 and the rigidity of Cantilever Beams 102, multiple reinforcing ribs 217, the reinforcing rib 217 be set in fixed plate 104
Side fixed with fixed plate 104, opposite side is fixed with Cantilever Beams 102.
In embodiment one, in order to reduce by 1 integrally-built weight of support device, the support post 101 and Cantilever Beams
102 be hollow box-structure, support post 101 and Cantilever Beams 102 using steel profile or other meet rigidity requirement
Material.
In embodiment one, as shown in figure 11, a portion of the load-carrying members 103 is pre-buried to below ground, uses
In being combined to form supporting part with ground;Another part of the load-carrying members 103 bassets, and passes through ruggedized construction 109
It is fixed with one end of support post 101, forms the support section to Cantilever Beams 102 and track structure 2.In this example, load-bearing knot
Structure 103 includes:Base station 105 and pilum 106;Base station 105 is embedded in below ground, one end base station 105 of the pilum 106 it is upper
Surface is fixed, and the other end bassets.
In embodiment one, as shown in figure 11, the base station 105 includes:Pedestal 107 and be arranged on it is oblique on pedestal 107
Platform 108, one end and the upper surface of base station 105 of pilum 106 are fixed.Preferably, the pedestal 107, sloping platform 108 and pilum 106
It is structure as a whole, armored concrete can be selected to be perfused, can also be plated using integrated metal material outer surface anti-oxidant
Material.In this example, it is contemplated that the mode that track structure 2 is lifted on Cantilever Beams 102 is two kinds, due to the mode of two kinds of liftings
It is different to the force way of support post 101 with underlying structure, therefore, the important feature base station 105 of load-bearing has been made into one
Step optimization;It is specifically divided into the following two kinds situation:The first situation, track structure 2 is suspended on 102 unilateral side of Cantilever Beams, at this point, track
Structure 2 is larger to the unilateral stress of base station 105 by support post 101 and pilum 106, therefore, as shown in figure 12, in order to overcome
The problem of unilateral stress is larger, it is non-isosceles trapezoid that sloping platform 108, which is designed as along the plummet section of 2 setting direction of track structure,
It is isosceles trapezoid along the plummet section of 6 travel direction of vehicle, in this way, sloping platform 108 is corresponded to along the long waist of 2 setting direction of track structure
It is arranged on 2 side of track structure;According to Analysis of materials mechanics it is found that along 6 travel direction base station of vehicle, 105 uniform force,
2 side of track structure can be by as described above non-to the stress of base station 105 by support post 101 and pilum 106
108 structure of isosceles sloping platform overcomes, and prevents damage of the track structure 2 to load-carrying members 103.The second situation, track structure 2 are hung
The both sides of Cantilever Beams 102 are recorded, at this point, track structure 2 is just to the stress of base station 105 by support post 101 and pilum 106
Stress, stress concentration base station 105 front surface, therefore, as shown in figure 13, by sloping platform 108 along 2 setting direction of track structure
Plummet section and be both designed as isosceles trapezoid along the plummet section of 6 travel direction of vehicle, in this way, along 6 travel direction base of vehicle
105 uniform force of platform, the track structure 2 of 102 both sides of Cantilever Beams is 105 front surface of face base station to the stress resultant of base station 105
, will not track structure 2 load-carrying members 103 are generated with the damage of unilateral stress.
In embodiment one, as shown in figure 14, the ruggedized construction 109 includes:Backing plate 110 and multiple reinforcing ribs 217;Institute
It states backing plate 110 to be fixed on by fixing bolt on the ground for part of basseting, it is preferable that backing plate 110 utilizes multiple fixed spiral shells
Bolt passes through the bolt hole for being arranged on 110 surrounding of backing plate to be fixed in the load-carrying members 103 for part of basseting;The reinforcing rib
217 are distributed on 101 surrounding of support post, and one side is welded and fixed with support post 101, and opposite side and the welding of backing plate 110 are solid
It is fixed.
In embodiment one, as shown in figure 15, it is further provided with illuminating on the support post 101 of the support device 1
Equipment 111, the lighting apparatus 111 include:LED light 112 and light distribution device 113;The LED light 112 is arranged on not shadow
The position that vehicle 6 is run is rung, while ensures not block light when vehicle 6 is run.The light distribution device 113 is arranged on
It is fixed in the distribution box on support post 101.All power distribution equipments set in the distribution box can be from below ground
The service cable of arrangement takes electricity, and it is other electrical equipment distribution that can also unify by a total power distribution equipment in distribution box.Institute
It states and maintenance ladder 114 is further set on support post 101, micro- rail rail system is overhauled and safeguarded convenient for staff.
Embodiment two
On the basis of above-mentioned micro- rail rail system structure, as shown in figure 16, the track structure 2 includes:It is suspended on branch
Multiple box tracks 201 with opening in support arrangement 1 on Cantilever Beams 102;201 inside of box track is used for carrying vehicle
6 running mechanism 7, the erecting by overhang 8 between the vehicle 6 and running mechanism 7 pass through the opening, and can be opened described
It is moved back and forth in mouthful.Wherein, the running mechanism 7 refers to, provides driving force, steering force, brake force isokinetic machine for vehicle 6
Structure.
In embodiment two, the opening of the babinet can set the both sides of the bottom of babinet, the unilateral side of babinet or babinet.
When opening is arranged on the bottom of box, the running mechanism 7 hangs vehicle 6 by erecting by overhang 8, and running mechanism 7 is in box rail
Vehicle 6 is held while movement in road 201, and drives vehicle 6 mobile in orbit.When opening is arranged on the unilateral side of babinet,
The running mechanism 7 hangs vehicle 6 by erecting by overhang 8, while running mechanism 7 moves in box track 201 by from
The erecting by overhang 8 that body side opening is stretched out hangs vehicle 6, and drives vehicle 6 mobile in orbit;The rail of this lateral opening
Road form can be further extended in plurality of application scenes, such as on building wall, on the massif of sightseeing, on dykes and dams side wall
Etc. orbit space and opening is opened up, and the intensity of track is further reinforced using reinforcing modes such as armored concrete, by traveling machine
Structure 7 is placed in orbit space, and the erecting by overhang 8 being connect with running mechanism 7 stretches out orbit space from opening, and hangs vehicle 6,
While running mechanism 7 moves in box track 201, vehicle 6 is driven to move using erecting by overhang 8.When opening is arranged on two
During side, can set among babinet at this time with the fixed supporting rack of top of the rail and bottom, top of the rail is used to support, by supporting
Running mechanism 7 is set respectively in the two spaces for the box house that frame separates, each running mechanism 7 by erecting by overhang 8 with
Vehicle 6 is fixed, and running mechanism 7 hangs vehicle 6 while movement in box track 201, and vehicle 6 is driven to move in orbit
It is dynamic.It is open in this programme preferably by babinet rail base.
In embodiment two, as shown in figure 17, the outside of each box track 201 is provided with multiple reinforcing frames 205, described
Multiple reinforcing frames 205 are set in the outside of box track 201 at equal intervals;The reinforcing frame 205 is fixed by welding
Outside track;Preferably, reinforcing frame 205 there are one being set outside the box track 201 every 0.8 meter to 1.2 meters.
In embodiment two, the end set of each box track 201 has connection frame 206, when two orbital dockings, profit
The screw hole being preset on connection frame 206 is passed through with fastener, will be fixed at two 201 end docking of box track.
Embodiment three
On the basis of above-mentioned micro- rail rail system structure, it is contemplated that in actual application, certain orbital segments can be by
The phenomenon of expanding with heat and contract with cold occurred during use causes track to generate Light deformation, therefore, as shown in figure 18, the special track
Two rail connections of section set an intersegmental gap 204, the Light deformation during track use are overcome to ask using the gap 204
Topic.Meanwhile can be bonded to ensure that there are the two of gap 204 tracks, it needs in two 201 outer covers of box track
If a connected structure 202, fixed so that two tracks are carried out with firm support;Meanwhile in order to ensure vehicle 6 and running mechanism 7
Between erecting by overhang 8 pass through, offered on the connected structure 202 on box track 201 opening match open
Mouthful, erecting by overhang 8 is also cross the opening on box track 201 and connected structure 202, so that erecting by overhang 8 can smoothly exist
It is moved in the opening of track and connected structure 202.Preferably, the width in the gap 204 is 20 millimeters to 40 millimeters.In addition,
A part for the connected structure 202 is socketed in outside previous box track 201, another part of the connected structure 202
It is socketed in outside the latter box track 201, it is preferable that the part that the connected structure 202 is socketed two tracks is isometric.This
In example, when connected structure 202 is used to connect two box tracks 201, the end that box track 201 connects here is no longer
Setting connection frame 206.
In embodiment three, due to being provided with the gap 204, when running mechanism 7 is by this gap 204, top can be generated
It winnows with a dustpan, therefore, as shown in figure 19, the bottom at the docking of 201 end of each two box track connected by being connected case 203 is set
Rebound 207 and the spatial transition for accommodating the rebound 207 are put, by rebound 207 to running mechanism 7 by herein
Shi Jinhang buffers transition, prevents the generation of running mechanism 7 from jolting;Preferably, the opening at the docking of two 201 ends of box track
Both sides set a rebound 207 respectively.Wherein, the rebound 207 is triangle section bar, squared profile, oval section bar
Deng, it is preferable that the rebound 207 is isosceles triangle section bar, the long side of the isosceles triangle section bar and track opening side
Edge is concordant, the rebound 207 with the surface that running mechanism 7 contacts and the surface contacted with running mechanism 7 of rail base
It is parallel.
In embodiment three, on the basis of retaining existing for the gap 204, the spatial transition is two box tracks
Region between the edge to match with 207 outer edge shape of rebound reserved at 201 bottom docking, i.e., described spatial transition
For between the wedge-shaped edge identical with the short side gradient of isosceles triangle section bar reserved at two 201 bottom docking of box track
Region, 5 millimeters to 10 millimeters of gap 218 is spaced between the rebound 207 and wedge-shaped edge.For the ease of fixed transition
Plate 207, the rebound 207 are equipped with multiple mounting holes, and the utilization of rebound 207 is welded and fixed or the fixed mode of bolt
Coordinate fixation is described to be connected case 203 with the mounting hole.
In embodiment three, as shown in figure 20, box-structure of the connected structure 202 for both ends open, the box knot
The bottom of structure offer with the opening that matches of being open on box track 201, i.e., described connected structure 202 is both ends open, and
The linking case 203 of bottom opening.The total length of the linking case 203 is 1.2 meters to 1.5 meters;It is described linking case 203 thickness be
10 millimeters to 15 millimeters.In order to ensure to be connected the rigidity of track at case 203, it is also equipped in the outside of the linking case 203 more
A reinforcing frame 205, the multiple reinforcing frame 205 are set in the outside of linking case 203 at equal intervals;The reinforcing frame 205 passes through
The mode of welding is fixed on outside linking case 203;Preferably, outside the linking case 203 one is equipped with every 0.2 meter to 0.3 meter
A reinforcing frame 205.The track structure 2 is by being connected the reinforcing frame set on case 203 205 and the fixed plate in support device 1
104 fix.
Example IV
On the basis of above-mentioned micro- rail rail system structure, as shown in Figure 1 to Figure 3, micro- rail rail system includes:Directly
Line segment 213, curved section 214 and slope section 215;Track knot of the straightway 213 described in comprising embodiment two and embodiment three
Structure 2;The curved section 214 and slope section 215 are comprising the track structure 2 described in embodiment two.
In example IV, as shown in figure 21, in order to ensure the safety of vehicle 6 and running mechanism 7 during turning
Passability, the curved section 214 bending angle needs further determined that according to the turning radius of the running mechanism 7, i.e.,
The bending angle of the curved section 214 and the turning radius of the running mechanism 7 match.
In example IV, as shown in figure 22, the slope section 215 is in addition to including the basic structure described in embodiment two
Outside, the anti-skid structure 216 for being arranged on rail base inner surface is further included, the anti-skid structure 216 is for anti-slip rubber or with anti-
The antiskid plate of sliding rib;Further, in order to ensure turning during the safety of vehicle 6 and the passability of running mechanism 7, institute
Stating the bending angle of the vertical direction in slope section 215 needs to be determined according to the climbing power and climbing radius of the running mechanism 7,
The bending angle in the plummet direction in i.e. described slope section 215 will be with the climbing power of the running mechanism 7 and climbing radius phase
Match.By the straightway 213, curved section 214 and the cooperation in slope section 215, it can be achieved that the turn of single course, climb and fall and
It is common to advance.
Embodiment five
On the basis of above-mentioned micro- rail rail system structure, as shown in figure 23 and figure 24, micro- rail rail system includes:
For coordinating the switch structure 3 of transformation travel route with 6 running mechanism 7 of vehicle.The switch structure 3 includes:Track switch upper plate
301st, the first track switch side plate 302,303 and second track switch side plate 304 of track switch lower plate;The track switch upper plate 301, the first track switch side plate
302nd, fixed one surrounded has the steering sky for merging end and separating end to 303 and second track switch side plate 304 of track switch lower plate successively
Between, 6 running mechanism 7 of vehicle can carry out travel route transformation in the steering space.As shown in figure 25, the track switch
The lower surface of upper plate 301 is equipped with the first guide plate 305 and the second guide plate 306,305 and second guide plate of the first guide plate
306 are fixedly connected at the merging end, and the bending direction of second guide plate 306 is towards the first guide plate 305, i.e., described
Second guide plate 306 is oriented to vehicle 6 to away from the direction of the first guide plate 305 in the separating end, and described first leads
The angle formed between 305 and second guide plate 306 of plate is 10 ° to 15 °.As shown in figure 26, in order to coordinate vehicle 6 and traveling
The movement of erecting by overhang 8 between mechanism 7, the track switch lower plate 303 are respectively equipped with the first targeting port and the second targeting port, and described
One targeting port and the second targeting port cross at the merging end, and correspond to the first guide plate 305 and the second guide plate 306 respectively
Position is detached in separating end.Due to offering the first targeting port and the second targeting port in track switch lower plate 303, and the first targeting port and
Second targeting port crosses, and detached in separating end at the merging end, and therefore, track switch lower plate 303 is divided into three parts, and first
Part is connect with the first track switch side plate 302, second part is hanging, and Part III is connect with the second track switch side plate 304, is thus gone out
Second part vacantly unsupported problem is showed.In this example, the separating end of the switch structure 3 is further provided with separator frame
310, track switch lower plate 303 of the separator frame 310 respectively with track switch upper plate 301 and overhanging portion is fixed, and can be solved in this way
The support of 303 overhanging portion of track switch lower plate, and can two be formed with the first track switch side plate 302 and the second track switch side plate 304 respectively
Item detaches track, and guide plate and targeting port is assisted vehicle 6 to be oriented to and converted travel route in space is turned to.That is, institute
It states the side of separator frame 310 and track switch upper plate 301, the first track switch side plate 302, the first targeting port and track switch lower plate 303 surrounds
One separation track;The opposite side of the separator frame 310 and track switch upper plate 301, the second track switch side plate 304, the second targeting port and
Track switch lower plate 303 surrounds Article 2 separation track.As shown in figure 25, it is preferable that the separator frame 310 uses template section bar;Plate
Type section bar is bent to hollow triangular structure shape separator frame 310.
After the running mechanism 7 enters from the merging end of switch structure 3 or separating end, utilize what is set on running mechanism 7
Directive wheel and guide plate match vehicle 6 is oriented to during, due to having idle area among switch structure 3, walk
Row mechanism 7 will appear one section of unilateral vacant state in the guide space of switch structure 3, at this point, directive wheel rests on guide plate
On, as the guide support of running mechanism 7, running mechanism 7 is smoothly transitioned into rail holding state from unilateral vacant state;
If running mechanism 7 enters from end is merged, restore the rail portion of bilateral rail holding state by the first of track switch lower plate 303
The overhanging portion or the Part III of track switch lower plate 303 and the overhanging portion of track switch lower plate 303 of part and track switch lower plate 303 carry
For;If running mechanism 7 enters from separating end, the rail portion for restoring bilateral rail holding state passes through track switch lower plate 303
The Part III of first part and track switch lower plate 303 provides.Specific guidance mode is as follows:
By track switch, and in steering procedure, the first deflecting roller set on the running mechanism 7 reaches switch structure
In track before 3, current position need to be jumped to the setting direction of the second guide plate 306 (if that is, the first deflecting roller is worked as
Front position is not in the setting direction of the second guide plate 306, then the first deflecting roller need to jump to the second guide plate 306 from current location
Setting direction;If the current location of the first deflecting roller is in the setting direction of the second guide plate 306, the first deflecting roller is not
It is redirected);When running mechanism 7 enters switch mechanism, the first deflecting roller leans on the second guide plate 306, and according to
The guide direction of second guide plate 306 drives vehicle 6 to change direction of travel, when running mechanism 7 drives to 3 separating end of switch structure
When, vehicle 6 completes orbital transfer, subsequently enters the variation route track being connect with separating end, and according to the variation route rail after transformation
Continue to travel in road.
By track switch, but vehicle 6, not in steering procedure, the first deflecting roller set on the running mechanism 7 reaches
In track before switch structure 3, current position need to be jumped to the first guide plate 305 setting direction (if that is, first turn
To the current location of wheel not in the setting direction of the first guide plate 305, then the first deflecting roller need to jump to first from current location
The setting direction of guide plate 305;If the current location of the first deflecting roller is in the setting direction of the first guide plate 305,
One deflecting roller does not need to be redirected);When running mechanism 7 enters switch mechanism, the first deflecting roller leans on the first guide plate
305, and vehicle 6 is driven to keep former direction of travel according to the guide direction of the first guide plate 305, when running mechanism 7 drives to
Branch off 3 separating end of structure when, vehicle 6 is completed through switch structure 3, and it is constant change travel direction, subsequently enter and separating end connect
The track of former travel direction connect, and continue to travel according to former travel route.
In embodiment five, as shown in figure 23, in order to coordinate the first guide plate 305 and the second guide plate in switch structure 3
306 guiding operation, third guide plate 311 is further provided in the lower surface of the track switch lower plate 303 of the switch structure 3, excellent
Selection of land, respectively in 303 following table of track switch lower plate close to 302 side of the first track switch side plate and close to 304 side of the second track switch side plate
Third guide plate 311 is fixed in face.
By track switch, and in steering procedure, the second deflecting roller set on the running mechanism 7 reaches switch structure
In track before 3, need to it is synchronous with the first deflecting roller by current position jump to the second guide plate 306 setting direction (that is,
If not in the setting direction of the second guide plate 306, the second deflecting roller need to be jumped from current location for the current location of the second deflecting roller
Go to the setting direction of the second guide plate 306;If the current location of the second deflecting roller is in the setting side of the second guide plate 306
To then the second deflecting roller does not need to be redirected);When running mechanism 7 enters switch mechanism, the second deflecting roller leans on close
The third guide plate 311 of second track switch side plate, 304 side, in the first deflecting roller according to the guide direction band of the second guide plate 306
While motor-car 6 is changed into direction, effect of second deflecting roller as assisted diversion, assist the first deflecting roller to vehicle 6 into
Row transition, when running mechanism 7 drives to 3 separating end of switch structure, vehicle 6 completes orbital transfer, subsequently enters with dividing
Variation route track from end connection, and continue to travel according to the variation route track after transformation.
By track switch, but vehicle 6, not in steering procedure, the second deflecting roller set on the running mechanism 7 reaches
It, need to the setting that current position is jumped to the first guide plate 305 synchronous with the first deflecting roller in track before switch structure 3
Direction (if that is, the current location of the second deflecting roller not in the setting direction of the first guide plate 305, the second deflecting roller need to be from working as
Front position jumps to the setting direction of the first guide plate 305;If the current location of the second deflecting roller is in the first guide plate 305
Setting direction, then the second deflecting roller do not need to be redirected);When running mechanism 7 enters switch mechanism, the second deflecting roller leans on
Against the third guide plate 311 close to 302 side of the first track switch side plate, in the first deflecting roller leading according to the first guide plate 305
While keeping former direction of travel to direction drive vehicle 6, effect of second deflecting roller as assisted diversion assists first to turn to
The support transition of vehicle 6 when wheel carries out passing through track switch to vehicle 6, when running mechanism 7 drives to 3 separating end of switch structure, vehicle
6 complete through switch structure 3, and it is constant change travel direction, subsequently enter the rail of former travel direction being connect with separating end
Road, and continue to travel according to former travel route.
In embodiment five, as shown in Figure 23 and Figure 27, when running mechanism 7 is by switch structure 3, it is single to have a distance
Side vacant state, at this time running mechanism 7 need to lean on the first guide plate 305 or the second guide plate 306 by the first deflecting roller
Support force and the second deflecting roller lean on the support force of third guide plate 311, the running mechanism 7 for supporting hanging side is smoothly logical
Cross 1 meter to 1.2 meters long hanging region.It is oriented to ensure vacantly can firmly lean on by deflecting roller during hanging region
Plate, the height of 305 and second guide plate 306 of the first guide plate are designed as 20 millimeters to 30 millimeters, the third guide plate
311 height is designed as 50 millimeters to 70 millimeters;Wherein, the height of the third guide plate 311 includes the height for targeting part
Degree and the height for fixing the part of turnout external reinforcing frame 205, the height of 311 targeting part of third guide plate and solid
The height ratio for determining part is 1:1.
In embodiment five, when running mechanism 7 is restored to rail holding state from unilateral vacant state, need by point
Track switch lower plate 303 from frame 310 He the overhanging portion for being fixed on its lower end makes running mechanism 7 be restored to the support of bilateral rail, this
When, running mechanism 7 is since unilateral side support has small inclination, when running mechanism 7 touches separator frame 310, with separator frame
The front end of the track switch lower plate 303 of the overhanging portion of 310 connections can be to the wheel in running mechanism 7 to there is blocking, although this blocking
It is smaller, but for middle low speed operation running mechanism 7 for can generate it is certain jolt, can also be to the wheel on running mechanism 7
To generating abrasion, therefore, as shown in Figure 28 and Figure 29, in order to which running mechanism 7 is coordinated to be restored to rail branch from unilateral vacant state
Support state, in this example, by the adjustment one downwards of the front position of the track switch lower plate 303 for the overhanging portion being connect with separator frame 310
Segment distance, i.e., the position of the front end of the track switch lower plate 303 for the overhanging portion being connect with separator frame 310 are bent downwardly 1 millimeter to 2 millis
Rice, so that the wheel in overhead positions smoothly touches hanging of being connect with separator frame 310 in having the running mechanism 7 of small skew
The front end of the track switch lower plate 303 of empty part, so as to be restored to bilateral rail holding state from unilateral vacant state to running mechanism 7
Linking transition is carried out, running mechanism 7 is avoided to generate the abrasion jolted and to wheel pair in running mechanism 7.
In embodiment five, as shown in figure 30, the first guide plate 305 and the second guide plate 306 are in the conjunction in order to prevent
And the junction held blocks the operation of the first directive wheel or has scratching to the first directive wheel, in the first guide plate 305 and the
The junction of two guide plates 306 increases connection structure 307, the operation of the first directive wheel is blocked or to the first directive wheel with overcoming
Scratching problem;Preferably, the connection structure 307 be arc-shaped plate body, 305 and second guide plate of the first guide plate
306 fix respectively with two linear edges of arc-shaped plate body, alternatively, the connection structure 307 is cylinder, the first guide plate
305 and second guide plate 306 fixed in a manner of being connect with cylinder tangent line, it is preferable that the connection structure 307 be open circles
Cylinder.Since buffer structure 308 is designed as arcuate structure, the operation caused by directive wheel can be connected to avoid corner angle and blocks and draws
Damage problem.
In embodiment five, as shown in figure 30, led in order to which the first deflecting roller preferably is transitioned into first from rest position
On 305 or second guide plate 306 of plate, respectively in 307 and first guide plate 305 of connection structure and the second guide plate 306
Between the first buffer structure 308 and the second buffer structure 308 are set;One end of first buffer structure 308 and the first guide plate
305 are welded and fixed, and the other end is welded and fixed with connection structure 307;One end of second buffer structure 308 and the second guide plate
306 are welded and fixed, and the other end is welded and fixed with connection structure 307.In this example, the buffer structure 308 can be plane
The buffer board 309 of structure;Not in the same plane, also, the buffer board 309 is to described for the buffer board 309 and guide plate
Deviate in the convergence direction of first guide plate 305 and the second guide plate 306;Preferably, the deviation angle of the buffer board 309 is 3 °
To 5 °, after the first steer wheel contact is to buffer board 309, it is gradually transitions on the first guide plate 305 or the second guide plate 306,
Direct impact of first deflecting roller to guide plate is avoided, avoids the damage to guide plate.The buffer structure 308 can also design
For or arcuate structure buffer board 309, the bending direction of the arc plate body is oriented to away from first guide plate 305 and second
The convergence direction of plate 306;Preferably, the bending radius of the arc plate body is 1 meter to 1.1 meters.
In embodiment five, 305 and second guide plate 306 of the first guide plate can also directly pass through buffer structure
308 are fixedly connected on the lower surface that the switch structure 3 merges the track switch upper plate 301 at end.At this point, buffer structure 308 can be
Plane plate or curved surface plate body, plate body is bent, and after sizing treatment, forms U-shaped structure;Directly the U-shaped structure is welded
Predeterminated position in 301 lower surface of track switch upper plate, one end of U-shaped structure are connect with one end of the first guide plate 305, the other end
It is connect with one end of the second guide plate 306.Design in this way can save the use of connection structure 307, save manufacture material
Material and processing cost.Pass through this U-shaped structure, you can the operation to the first directive wheel to be overcome to block or to the first directive wheel
Scratching problem, and can the first deflecting roller be smoothly transitioned into the first guide plate 305 or the second guide plate 306 from rest position
On.
In embodiment five, as shown in figure 23, in order to ensure the intensity of switch structure 3, external in switch structure 3 is set
Multiple reinforcing frames 205, to ensure the whole intensity of switch structure 3.In this example, the reinforcing frame 205 can pass through welding
Mode is fixed on outside switch structure 3.Further, according to the actual strength demand at 3 each position of switch structure, arbitrary adjustment adds
The fixed position of strong frame 205.In order to ensure the intensity of guide plate, increase between the first guide plate 305 and the second guide plate 306
Multiple reinforcing ribs 217 to ensure the intensity of guide plate, further improve the enabling capabilities to deflecting roller.In order to ensure suspending part
The intensity for the track switch lower plate 303 divided increases multiple reinforcing ribs 217 anyhow staggeredly in 303 lower surface of track switch lower plate of the part,
There can be the running mechanism 7 in enough intensity Inhaul operations with the track switch lower plate 303 for ensureing overhanging portion.For the ease of track switch
Structure 3 is connect with other track structures 2, in the connecting pin setting connection frame 206 with other tracks of switch structure 3, utilizes spiral shell
Bolt passes through the through-hole being preset on connection frame 206, and switch structure 3 and other track structures 2 are fixed.
Embodiment six
On the basis of above-mentioned micro- rail rail system structure, as shown in Figure 16 and Figure 31, the inner wall of the box track 201
Power supply module 208 is equipped with, the power supply module 208 is matched with the power receiving device on running mechanism 7 is combined into vehicle 6 and running mechanism
7 power supplies.If the box track 201 is under shed, the power supply module 208 is arranged in the side wall of box track 201
Surface;If the box track 201 is both-side opening, the power supply module 208 is arranged on the branch among box track 201
On support.
In the present embodiment six, the power supply module 208 is trolley 209, and the trolley 209 utilizes fixing device 210
It is fixed on box track 201 along 6 travel direction of vehicle, height of the trolley 209 in box track 201 is wanted and traveling
Power receiving device in mechanism 7 highly matches.The fixing device 210 includes:For fixing multiple support bases of trolley 209
211;The support base 211 also cross support base 211 and is set in advance in 201 side wall of box track or branch using fixing bolt
Support base 211 is being fixed on the side wall or supporting rack of box track 201 by the through-hole on support using nut.In order to prevent
Loosening for fastener can increase lock washer between bolt and the side wall or supporting rack of box track 201.The multiple branch
Support seat 211 is arranged at equal intervals on the side wall or supporting rack of box track 201.The fixing device 210 further comprises:With
In the end cap 212 for covering the naked bolt being exposed on the external and nut.In this example, what it is due to the introducing of trolley 209 is 220V exchanges
Electricity, therefore the support base 211 is adopted and is made from an insulative material, and prevents trolley 209 from forming conduction with track, causes safety hidden
Suffer from.
Embodiment seven
As shown in figure 32, on the basis of above-mentioned micro- rail rail system structure, micro- rail rail system further includes:For
The platform structure 4 for concentrating waiting and pick-up point is provided for passenger.The platform structure 4 is arranged on the rail in micro- rail rail system
2 lower section of road structure, it is preferable that working line can be divided into main working line and bypass working line, and platform 401 can be arranged on
The lower section of main working line, can also be arranged on the lower section of bypass working line, and platform structure 4 is arranged in micro- rail rail system
Bypass track lower section, do not influence it is main operation main line track normal operation.
In embodiment seven, main working line or bypass the track structure 2 of working line can will be high by slope section 215
Low latitude position is fallen under the track structure 2 of empty position, the platform 401 is arranged on the lower section of the track structure 2 of low latitude position, this
When, platform 401 can be designed as low latitude platform 401, may be designed in ground platform 401, more flexible adaptation target area
The actual environment in domain.
In embodiment seven, the platform structure 4 includes:It is arranged on stopping for vehicle 6 for 2 lower section of suspension type rail structure
By the platform 401, platform column 402 and supporting beam 403 waited with passenger;The platform column 402 is fixed on platform 401,
The supporting beam 403 is welded and fixed with platform column 402.Track structure 2 across 401 top of platform passes through multiple platform columns
402 and supporting beam 403 lifting be fixed on platform 401;Vehicle 6 is by the running mechanism 7 that is arranged in track structure 2 and is used for
The erecting by overhang 8 of connection vehicle 6 and running mechanism 7 is suspended between track structure 2 and platform 401.It is set on the platform structure 4
There are at least one of maintenance room, control room 404 and maintenance 406 three of the above structure of library.
In embodiment seven, the platform 401 is erected at the overhead platform 401 of shape in the air, this example by supporting framework
In, the height of overhead platform 401 can change according to the setting height of track structure 2.At this point, the lower section of overhead platform 401
Control room 404 and/or meeting room 405 can be set;The basis and support construction of the control room 404 and/or meeting room 405 are equal
Using the platform basis of platform structure 4 and supporting framework;The wall body structure of the control room 404 and/or meeting room 405 is fixed on
On support frame as described above structure.As shown in figure 33, control room 404 and/or meeting room 405 are arranged on 401 lower section of platform, control room 404
And/or the surroundings wall of meeting room 405 is fixed by the supporting framework of platform 401, control room 404 and/or meeting room 405
Ground directly uses the ground of platform structure 4, and take full advantage of 401 lower section of high-altitude platform uses space, reduces construction land.
The maintenance room can adjust the position on setting platform structure 4, setting according to the space and service condition of platform 401
When with save use space, facilitate subject to repair.
In embodiment seven, as shown in figure 34, the platform structure 4 is integrated with maintenance library 406, overhauls library 406
Storehouse 408 and the external frame of platform structure 4 be combined into one, construction cost is greatly saved, overhauls in library 406 and is provided with inspection
Equating platform 407, the overhead platform 401 and support device 1 are separately positioned on 407 both sides of inspection platform, from main working line point
The wherein by-pass line of branch out introduces storehouse 408, and end and the inspection platform 407 of the track structure 2 of by-pass line connect
It connects, is put in storage and overhauls convenient for vehicle 6;For further easy access, the side and below of overhead platform 401 is provided with inspection respectively
Repair staircase 414 and maintenance storehouse 406.
In embodiment seven, the platform structure 4 includes:Platform top 409, the outer guardrail 413 of turntable, 410 and of waiting guardrail
Automatic ticket booking device 412.The platform top 409 is fixed on the top of bypass track by multiple platform columns 402.The turntable
Outer guardrail 413 is arranged around 401 surrounding of platform, prevents external staff from arbitrarily entering.The waiting guardrail 410 is equipped with stopping sliding door
411, and be arranged on the platform 401 of bypass track both sides, waiting personnel is prevented to be strayed into vehicle 6 and stop area, are caused unnecessary
Personnel injure.The automatic ticket booking device 412 is arranged on the entrance of platform structure 4.According to the form of high-altitude platform 401,
Elevator or staircase 414 can also further be set to be convenient for passenger's in-track platform 401.
In embodiment seven, the platform structure 4 includes:It is arranged on along 401 edge of platform of 6 travel direction of vehicle
Baffle.Preferably, 401 edge of platform for being driven out to and being driven out to side in vehicle 6 is both provided with baffle.The baffle can be with Vertical Square
Opening and closing is realized to the mode of overturning, horizontal direction overturning, vertical direction translation or horizontal direction translation.For example, the baffle with
401 edge of platform is hinged, and is fixed by multiple upset connecting rods and platform 401;The upset connecting rod passes through upset motor and tooth
Wheel group realizes the overturning to baffle.Under conventional sense, the baffle on platform 401 is in the shape perpendicular to 401 upper surface of platform
State, when vehicle 6 will drive into, vehicle 6 drives into the upset connecting rod of side by the driving of upset motor and gear set, drives baffle
Movement, and the position with the upper surface level of platform 401 is reached, so that vehicle 6 can smoothly drive into platform 401, treat vehicle 6
After smoothly driving into platform 401, upset connecting rod drives baffle to return to initial bit again by the driving of upset motor and gear set
It puts.When vehicle 6 will be driven out to platform 401, vehicle 6 is driven out to the upset connecting rod of side by the driving of upset motor and gear set,
Baffle movement is driven, and reaches the position with the upper surface level of platform 401, so that vehicle 6 can smoothly be driven out to platform
401, after vehicle 6 is smoothly driven out to platform 401, upset connecting rod drives baffle again by the driving of upset motor and gear set
Return to initial position.For example, the baffle and the guardrail 413 of platform 401 are hinged, pass through the level that driving device realizes baffle
The overturning in direction.For example, the baffle plate setting is the form of stopping sliding door, it is fixed on 401 edge of platform.
Embodiment eight
As shown in figure 35, on the basis of above-mentioned micro- rail rail system structure, micro- rail rail system further includes:For
When there is prominent situation during the operation of vehicle 6, the relief structure 5 of height rescue is carried out to passenger.The relief structure 5 wraps
It includes:Succor plain stage 501 and fire escape 502.The Succor plain stage 501 is arranged on 6 lower section of vehicle, is having no effect on vehicle 6 just
Normal form operation;One end of the fire escape 502 is fixed on by fixing device 210 on Succor plain stage 501, and the other end is fixed
On the ground.In this example, the relief structure 5 can be arranged in row line for the national games, can also be set in segment, tool
Body can be adjusted flexibly according to the setting area of micro- rail rail system.
In embodiment eight, the Succor plain stage 501 can be directly anchored to the precalculated position of support post 101, ensure
Passenger can be conveniently trampled onto Succor plain stage 501 when being walked out from car.The Succor plain stage 501 can also pass through liter
Falling unit and turnover device are arranged on support post 101;In 6 normal operation of vehicle, Succor plain stage 501 is collapsed state,
Succor plain stage 501 is arranged in parallel with support post 101, when there are emergency situations, is opened up Succor plain stage 501 using turnover device
It opens, the state vertical with support post 101 is formed, and Succor plain stage 501 is risen into appropriate height using lifting gear, to passenger
It is rescued.
In embodiment eight, the turnover device includes:Upset motor and hydraulic connecting rod, the upset motor are arranged on branch
It supports in column 101, is powered by the equipment box on support post 101;Upset motor driving hydraulic connecting rod realizes Succor plain stage 501
Stretching, extension and pack up;One end of the hydraulic connecting rod is fixed on lifting gear, and the other end is used to fix Succor plain stage 501;This
In example, in order to ensure the stability of Succor plain stage 501, support Succor plain stage 501 can be fixed by multiple hydraulic connecting rods.
In embodiment eight, the lifting gear includes:Lifting motor, rack-plate and gear plate;The lifting motor is set
It puts in support post 101, is powered by the equipment box on support post 101;The rack-plate is arranged on branch along plummet direction
It supports in column 101, lifting motor sliding tooth wheel plate moves on rack-plate, realizes the lifting of Succor plain stage 501.Wherein, it is described
One end of hydraulic connecting rod is fixed on gear plate, and the other end is used to fix Succor plain stage 501.
In embodiment eight, the fire escape 502 can be hollow cylindrical structure, and passenger can enter cylindrical structure
It is interior, reach ground by sliding;The fire escape 502 or staircase 414, passenger can directly be walked by staircase 414
To ground.During fire escape 502 is arranged, ensure that fire escape 502 does not influence the normal operation of vehicle 6 as possible;Example
Such as, in micro- rail rail system completely setting relief structure 5, fire escape 502 can be arranged on the both sides of track structure 2;Example
Such as, when certain sections of micro- rail rail system set relief structure 5, fire escape 502 can both be arranged on track structure 2
Both sides can also be arranged on the both ends of Succor plain stage 501.In this example, the fire escape 502 can further be arranged to can
Stretching structure, to adapt to the rescue position after Succor plain stage 501 lifts.
In embodiment eight, in order to further ensure the safety of passenger, it can be set on the surface of Succor plain stage 501 anti-skidding
Structure 216;The anti-skid structure 216 can be fusiform structure or rubber material etc..Further, it can rescue flat
The both sides setting guardrail of platform 501, avoids passenger from occurring the danger fallen in high-altitude;The installation position of the guardrail does not influence to evacuate
The installation position of channel 502.
Although not by all embodiments according to arrangement during should be noted that the description of above-mentioned specific embodiment
The mode of combination is described, and still, is taken it will be understood by a person skilled in the art that all of above embodiment can be freely combined
Match, be not limited only to technical solution and scene that each embodiment is shown.
Obviously, those skilled in the art can carry out the application essence of the various modification and variations without departing from the application
God and range.In this way, if these modifications and variations of the application belong to the range of the application claim and its equivalent technologies
Within, then the application is also intended to include these modifications and variations.
Claims (10)
1. a kind of micro- track turnout structure, which is characterized in that micro- track turnout structure (3) includes:By track switch upper plate (301),
Fixed one surrounded has merging end successively for one track switch side plate (302), track switch lower plate (303) and the second track switch side plate (304)
With the steering space of separating end;
The running mechanism (7) of the vehicle (6) run in micro- track turnout structure (3) can be travelled in the steering space
Route converts, and vehicle (6) is driven to convert travel direction using the erecting by overhang (8) across targeting port;
The lower surface of the track switch upper plate (301) is equipped with the first guide plate (305) and the second guide plate (306), and described first leads
It is detached to plate (305) and the second guide plate (306) in merging end convergence, and in the separating end;
The track switch lower plate (303) exists equipped with the first targeting port and the second targeting port, first targeting port and the second targeting port
The merging end crosses, and corresponds to the first guide plate (305) respectively and detached with the position of the second guide plate (306) in separating end.
2. micro- track turnout structure according to claim 1, which is characterized in that first guide plate (305) is planar junction
Structure, second guide plate (306) are curved-surface structure;
The bending direction of second guide plate (306) is towards the first guide plate, and second guide plate (306) is in the separation
It holds to away from the direction of the first guide plate (305) and vehicle (6) is oriented to.
3. micro- track turnout structure according to claim 1, which is characterized in that first guide plate (305) and second is led
The angle formed between plate (306) is 10 ° to 15 °.
4. micro- track turnout structure according to claim 1, which is characterized in that first guide plate (305) and second is led
Multiple reinforcing ribs are equipped between plate (306).
5. micro- track turnout structure according to claim 1, which is characterized in that the first of the track switch lower plate (303) is oriented to
The track switch lower plate (303) is divided into three parts by mouth and the second targeting port;
First part connect with the first track switch side plate (302), and second part is fixedly connected with track switch upper plate (301), Part III
It is connect with the second track switch side plate (304).
6. according to micro- track turnout structure described in 1 or 5 any one of claim, which is characterized in that the track switch lower plate (303)
Lower surface be equipped with it is multiple anyhow staggeredly reinforcing ribs (217).
7. micro- track turnout structure according to claim 5, which is characterized in that the lower surface of the track switch lower plate (303) is set
There is third guide plate (311).
8. micro- track turnout structure according to claim 7, which is characterized in that the third guide plate (311) is set respectively
Track switch in the track switch lower plate (303) positioned at first of trouble side plate (302) side and positioned at second track switch side plate (304) side
In lower plate (303).
9. micro- track turnout structure according to claim 7 or 8, which is characterized in that the outside of micro- track turnout structure (3)
Equipped with multiple reinforcing frames (205).
10. micro- track turnout structure according to claim 9, which is characterized in that the height of the third guide plate (311)
It includes:Height for the height of targeting part and for fixing turnout external reinforcing frame (205) part;
The height ratio of the height of the targeting part of the third guide plate (311) and the height of fixed part is 1:1.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721220659.3U CN207498750U (en) | 2017-09-22 | 2017-09-22 | A kind of micro- track turnout structure |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721220659.3U CN207498750U (en) | 2017-09-22 | 2017-09-22 | A kind of micro- track turnout structure |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207498750U true CN207498750U (en) | 2018-06-15 |
Family
ID=62499127
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201721220659.3U Active CN207498750U (en) | 2017-09-22 | 2017-09-22 | A kind of micro- track turnout structure |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN207498750U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110644299A (en) * | 2019-09-30 | 2020-01-03 | 江苏飞梭智行设备有限公司 | Track transfer mechanism, anti-drop track switch and track transfer system |
CN113799661A (en) * | 2021-01-26 | 2021-12-17 | 中车唐山机车车辆有限公司 | Switch, rail system and traffic system |
-
2017
- 2017-09-22 CN CN201721220659.3U patent/CN207498750U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110644299A (en) * | 2019-09-30 | 2020-01-03 | 江苏飞梭智行设备有限公司 | Track transfer mechanism, anti-drop track switch and track transfer system |
CN113799661A (en) * | 2021-01-26 | 2021-12-17 | 中车唐山机车车辆有限公司 | Switch, rail system and traffic system |
CN113799661B (en) * | 2021-01-26 | 2023-09-26 | 中车唐山机车车辆有限公司 | Switch, track system and traffic system |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN109532875B (en) | Micro-rail track system | |
KR101739424B1 (en) | Articulated funiculator | |
US8375865B2 (en) | Overhead suspended personal transportation and freight delivery surface transportation system | |
JP6553639B2 (en) | Elevated urban transportation system for passengers | |
CN109532868B (en) | Micro-rail traffic system | |
CN106864464A (en) | Personal suspension type double track road is double dynamical to automatically control railway traffic system | |
CN107554534A (en) | A kind of dual-purpose shared traffic system for overhead track in new energy vacant lot and operation method | |
US10358147B2 (en) | Personalized elevated urban transport | |
CN109537376A (en) | A kind of micro- rail track structure | |
CN207498750U (en) | A kind of micro- track turnout structure | |
US7686697B2 (en) | Amusement ride | |
CN109532860B (en) | Micro-rail track system | |
CN207594964U (en) | A kind of micro- rail support device | |
CN207594965U (en) | A kind of micro- rail track structure | |
US7927223B2 (en) | Amusement ride | |
CN109532861B (en) | Micro-rail track system | |
CN207597163U (en) | A kind of micro- rail support device | |
CN207594966U (en) | A kind of micro- rail track structure | |
CN109532858A (en) | A kind of micro- track turnout structure and micro- rail rail system | |
CN207597164U (en) | A kind of micro- rail track structure | |
CN109532859A (en) | A kind of micro- track turnout structure and micro- rail rail system | |
CN109532857A (en) | A kind of micro- track turnout structure and micro- rail rail system | |
CN210939224U (en) | Single-column bilateral type power-concentrated motor train unit head train maintenance operation platform | |
CN207496670U (en) | A kind of micro- rail platform structure | |
WO2017145189A1 (en) | System train air |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant |