CN207484190U - A kind of non-fragment orbit lifting correction PLC synchronizes jacking system - Google Patents
A kind of non-fragment orbit lifting correction PLC synchronizes jacking system Download PDFInfo
- Publication number
- CN207484190U CN207484190U CN201721555681.3U CN201721555681U CN207484190U CN 207484190 U CN207484190 U CN 207484190U CN 201721555681 U CN201721555681 U CN 201721555681U CN 207484190 U CN207484190 U CN 207484190U
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- China
- Prior art keywords
- wall
- welded
- fixed
- automatically controlled
- sliding rail
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- Machines For Laying And Maintaining Railways (AREA)
Abstract
Correction PLC, which is lifted, the utility model discloses a kind of non-fragment orbit synchronizes jacking system, including two fixed plates, the both sides of two fixed plate bottom outer walls are welded with pedestal, and the bottom outer wall of pedestal is provided with wheel slot, the both sides of wheel slot are provided with turn hole, the inner wall of two turn holes is fixed with same shaft by bearing, and the outer wall of shaft is socketed with wheel, the fixed plate opposite side outer wall is welded with top plate, and the top exterior walls of one of top plate are welded with control cabinet, the quadrangle of another top plate top exterior walls is welded with mandril, the side outer wall of the control cabinet is provided with mounting groove.The utility model PLC controller controls automatic lifting, reduce hand labor intensity, and the accuracy of lifting correction is improved, equipment can be expanded, raising plate is facilitated to be inserted into rail base, it is easy to operate, and can synchronization of jacking up, improve the quality of jacking, electric energy can be converted the solar into, resource has been saved, has been improved work efficiency.
Description
Technical field
The utility model is related to non-fragment orbit deviation correcting technology field more particularly to a kind of non-fragment orbit lifting correction PLC are same
Walk jacking system.
Background technology
Non-fragment orbit is a kind of reduced-maintenance track structure, it replaces ballast using reinforced concrete footing plate, by wheel track
Power is distributed and is transmitted on foundation of road bed.Non-fragment orbit has good track stability, continuity and ride comfort, service life
The features such as long, structure durability is good, and maintenance load is few, therefore most of our high-speed railways for building at this stage are with no tiny fragments of stone, coal, etc. rail
Based on road, the rigidity of non-fragment orbit is very big, causes its plastic deformation small, the sinking once basis below track deforms is repaiied
Multiple difficulty, improved possibility are restricted, and when non-uniform sedimentation occurs for the basis of non-fragment orbit lower part, may result in
Non-fragment orbit circuit shifts on roadbed.When offset is more than certain value, it will seriously affect the safety of train driving
Property, comfort and ride comfort, since track panel stiffness is big, adjustment capability is poor, when there is track irregularity, it is difficult to as there is tiny fragments of stone, coal, etc. rail
Road equally by change railway ballast thickness, make the means such as railway ballast firm by ramming adjust rail height and level offset.
Traditional is mostly artificial jack to non-fragment orbit Track Settlement offset restorative procedure on roadbed, completes lift
Correction is risen, this correction mode, labor intensity is big, and correction precision is insufficient.
Utility model content
The purpose of this utility model is and a kind of non-fragment orbit lift proposed in order to solve shortcoming in the prior art
It rises correction PLC and synchronizes jacking system.
To achieve these goals, the utility model employs following technical solution:
A kind of non-fragment orbit lifting correction PLC synchronizes jacking system, including two fixed plates, two fixed plate bottoms
The both sides of outer wall are welded with pedestal, and the bottom outer wall of pedestal is provided with wheel slot, and the both sides of wheel slot are provided with turn hole, two
The inner wall of the turn hole is fixed with same shaft by bearing, and the outer wall of shaft is socketed with wheel, and the fixed plate is opposite
Side outer wall is welded with top plate, and the top exterior walls of one of top plate are welded with control cabinet, another top plate top exterior walls
Quadrangle be welded with mandril, the side outer wall of the control cabinet is provided with mounting groove, and the inner wall of mounting groove is fixed by screw
There is PLC controller, one of them the top plate side used screw of outer wall is fixed with servo motor, and the side of another top plate
Outer wall is welded with clutch, and the output shaft of the servo motor is connected with leading screw, and clutch side outer wall leads to by shaft coupling
The outer wall for being threadedly connected to leading screw is crossed, the bottom outer wall of two top plates is fixed with the first automatically controlled sliding rail by screw, and
The bottom interior wall of first automatically controlled sliding rail slidably connects sliding rack, and two sliding rack opposite side outer walls have been bolted
Second automatically controlled sliding rail, and the side inner wall of the second automatically controlled sliding rail slidably connects support plate, the top exterior walls of the support plate are led to
It crosses screw and is fixed with hydraulic cylinder, and hydraulic cylinder piston rod one end is welded with raising plate.
Preferably, the top exterior walls of four mandrils are fixed with same solar panel, and the sun by screw
The output terminal of energy solar panel is connected with inverter by conducting wire, and the output terminal of inverter is connected with accumulator by conducting wire.
Preferably, the raising plate top exterior walls are welded with five to ten bumper posts, and five to ten bumper posts are equidistant
Array distribution is welded with same buffer board in the top exterior walls of raising plate, five to ten bumper post top exterior walls.
Preferably, the described first automatically controlled sliding rail, servo motor, the second automatically controlled sliding rail and hydraulic cylinder are respectively connected with switch, and
Switch is connected with PLC controller.
Preferably, the top exterior walls of the support plate are fixed with the distance detection of model IFRM18N1702 by screw
Instrument, and the output terminal apart from detector is connected by signal wire with PLC controller.
Preferably, the specification of the described first automatically controlled sliding rail is adapted with the specification of top plate, and the first automatically controlled sliding rail and second
The specification of automatically controlled sliding rail is identical, and the second automatically controlled rail tips are located at the lower section of sliding rack.
The beneficial effects of the utility model are:
1. by setting apart from detector, PLC controller control automatic lifting reduces hand labor intensity, and improve
The accuracy of lifting correction;
2. by setting servo motor and leading screw, equipment can be expanded, raising plate is facilitated to be inserted into rail base, it is easy to operate,
And can synchronization of jacking up, improve the quality of jacking;
3. by setting solar panel, electric energy can be converted the solar into, has saved resource, be suitble to open air work
The phenomenon that making, no film is avoided to ring work occurs, and improves work efficiency.
Description of the drawings
Fig. 1 be the utility model proposes a kind of non-fragment orbit lifting correction PLC synchronize jacking system structure diagram;
Fig. 2 be the utility model proposes a kind of non-fragment orbit lifting correction PLC synchronize jacking system buffer board structure
Schematic diagram.
In figure:1 fixed plate, 2 first automatically controlled sliding rails, 3 solar panels, 4 servo motors, 5 leading screws, 6 clutch, 7 controls
Case processed, 8 PLC controllers, 9 pedestals, 10 wheels, 11 sliding racks, 12 second automatically controlled sliding rails, 13 apart from detector, 14 support plates,
15 hydraulic cylinders, 16 bumper posts, 17 buffer boards.
Specific embodiment
The following is a combination of the drawings in the embodiments of the present utility model, and the technical scheme in the embodiment of the utility model is carried out
It clearly and completely describes, it is clear that the described embodiments are only a part of the embodiments of the utility model rather than whole
Embodiment.
With reference to Fig. 1-2, a kind of non-fragment orbit lifting correction PLC synchronizes jacking system, and including two fixed plates 1, two solid
The both sides of 1 bottom outer wall of fixed board are welded with pedestal 9, and the bottom outer wall of pedestal 9 is provided with wheel slot, and the both sides of wheel slot are opened
There is turn hole, the inner wall of two turn holes is fixed with same shaft, and the outer wall of shaft is socketed with wheel 10, fixed plate by bearing
1 opposite side outer wall is welded with top plate, and the top exterior walls of one of top plate are welded with control cabinet 7, another Roof
The quadrangle of portion's outer wall is welded with mandril, and the side outer wall of control cabinet 7 is provided with mounting groove, and the inner wall of mounting groove is consolidated by screw
Surely there is PLC controller 8, one of top plate side used screw of outer wall is fixed with servo motor 4, and the side of another top plate
Outer wall is welded with clutch 6, and the output shaft of servo motor 4 is connected with leading screw 5, and 6 side outer wall of clutch leads to by shaft coupling
The outer wall for being threadedly connected to leading screw 5 is crossed, the bottom outer wall of two top plates is fixed with the first automatically controlled sliding rail 2, and by screw
The bottom interior wall of one automatically controlled sliding rail 2 slidably connects sliding rack 11, and two 11 opposite side outer walls of sliding rack are consolidated by bolt
Surely there is the second automatically controlled sliding rail 12, and the side inner wall of the second automatically controlled sliding rail 12 slidably connects support plate 14, the top of support plate 14
Portion's outer wall is fixed with hydraulic cylinder 15 by screw, and 15 piston rod one end of hydraulic cylinder is welded with raising plate.
In the utility model, the top exterior walls of four mandrils are fixed with same solar panel 3, and too by screw
The output terminal of positive energy solar panel 3 is connected with inverter by conducting wire, and the output terminal of inverter is connected with accumulator by conducting wire, top
Lift slab top exterior walls are welded with five to ten bumper posts 16, and five to ten 16 equidistant array distributions of bumper post are in raising plate
Top exterior walls, five to ten 16 top exterior walls of bumper post are welded with same buffer board 17, the first automatically controlled sliding rail 2, servo motor
4th, the second automatically controlled sliding rail 12 and hydraulic cylinder 15 are respectively connected with switch, and switch is connected with PLC controller 8, the top of support plate 14
Portion's outer wall by screw be fixed with model IFRM18N1702 apart from detector 13, and the output terminal apart from detector 13 leads to
It crosses signal wire with PLC controller 8 to be connected, the specification of the first automatically controlled sliding rail 2 is adapted with the specification of top plate, and the first automatically controlled cunning
Rail 2 is identical with the specification of the second automatically controlled sliding rail 12, and the second automatically controlled 12 top of sliding rail is located at the lower section of sliding rack 11.
Operation principle:Suitable position is moved the device by wheel, start servo motor 4 expand two fixed plates 1 it
Between distance, start the second automatically controlled sliding rail 12 will under 14 moving track of support plate, start the first automatically controlled sliding rail 2 support plate 14 is moved
Rail base is moved, is started apart from 13 detecting distance of detector, starts hydraulic cylinder 15 and jacks up raising plate, buffer board 17 is lifted rail
Complete correction in road.
The preferable specific embodiment of the above, only the utility model, but the scope of protection of the utility model is not
This is confined to, in the technical scope that any one skilled in the art discloses in the utility model, according to this practicality
Novel technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model
Within enclosing.
Claims (6)
1. a kind of non-fragment orbit lifting correction PLC synchronizes jacking system, including two fixed plates (1), which is characterized in that two institutes
The both sides for stating fixed plate (1) bottom outer wall are welded with pedestal (9), and the bottom outer wall of pedestal (9) is provided with wheel slot, wheel slot
Both sides be provided with turn hole, the inner wall of two turn holes is fixed with same shaft, and the outer wall socket of shaft by bearing
There is wheel (10), fixed plate (1) the opposite side outer wall is welded with top plate, and the top exterior walls welding of one of top plate
There is control cabinet (7), the quadrangle of another top plate top exterior walls is welded with mandril, and the side outer wall of the control cabinet (7) is provided with
Mounting groove, and the inner wall of mounting groove is fixed with PLC controller (8) by screw, one of them top plate side outer wall is used
Screw is fixed with servo motor (4), and the side outer wall of another top plate is welded with clutch (6), the servo motor (4)
Output shaft is connected with leading screw (5) by shaft coupling, and clutch (6) side outer wall is threadingly attached to the outer wall of leading screw (5),
The bottom outer wall of two top plates is fixed with the first automatically controlled sliding rail (2), and the bottom of the first automatically controlled sliding rail (2) by screw
Inner wall slidably connects sliding rack (11), and two sliding rack (11) opposite side outer walls have been bolted the second automatically controlled cunning
Rail (12), and the side inner wall of the second automatically controlled sliding rail (12) slidably connects support plate (14), the top of the support plate (14)
Outer wall is fixed with hydraulic cylinder (15) by screw, and hydraulic cylinder (15) piston rod one end is welded with raising plate.
2. a kind of non-fragment orbit lifting correction PLC according to claim 1 synchronizes jacking system, which is characterized in that four
The top exterior walls of the mandril are fixed with same solar panel (3), and the output of solar panel (3) by screw
End is connected with inverter by conducting wire, and the output terminal of inverter is connected with accumulator by conducting wire.
3. a kind of non-fragment orbit lifting correction PLC according to claim 1 synchronizes jacking system, which is characterized in that described
Raising plate top exterior walls are welded with five to ten bumper posts (16), and five to ten equidistant array distributions of bumper post (16) are in top
The top exterior walls of lift slab, five to ten bumper post (16) top exterior walls are welded with same buffer board (17).
4. a kind of non-fragment orbit lifting correction PLC according to claim 1 synchronizes jacking system, which is characterized in that described
First automatically controlled sliding rail (2), servo motor (4), the second automatically controlled sliding rail (12) and hydraulic cylinder (15) are respectively connected with switch, and switch with
PLC controller (8) is connected.
5. a kind of non-fragment orbit lifting correction PLC according to claim 1 synchronizes jacking system, which is characterized in that described
The top exterior walls of support plate (14) by screw be fixed with model IFRM18N1702 apart from detector (13), and apart from inspection
The output terminal for surveying instrument (13) is connected by signal wire with PLC controller (8).
6. a kind of non-fragment orbit lifting correction PLC according to claim 1 synchronizes jacking system, which is characterized in that described
The specification of first automatically controlled sliding rail (2) is adapted with the specification of top plate, and the first automatically controlled sliding rail (2) and the second automatically controlled sliding rail (12)
Specification is identical, and the second automatically controlled sliding rail (12) top is located at the lower section of sliding rack (11).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721555681.3U CN207484190U (en) | 2017-11-20 | 2017-11-20 | A kind of non-fragment orbit lifting correction PLC synchronizes jacking system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721555681.3U CN207484190U (en) | 2017-11-20 | 2017-11-20 | A kind of non-fragment orbit lifting correction PLC synchronizes jacking system |
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CN207484190U true CN207484190U (en) | 2018-06-12 |
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CN201721555681.3U Expired - Fee Related CN207484190U (en) | 2017-11-20 | 2017-11-20 | A kind of non-fragment orbit lifting correction PLC synchronizes jacking system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111705567A (en) * | 2020-06-30 | 2020-09-25 | 汪美霞 | Urban rail transit line track laying and installing method |
-
2017
- 2017-11-20 CN CN201721555681.3U patent/CN207484190U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111705567A (en) * | 2020-06-30 | 2020-09-25 | 汪美霞 | Urban rail transit line track laying and installing method |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20180612 Termination date: 20181120 |