CN208530590U - A kind of band remotely monitors and the rail of wireless data transmission function examines instrument - Google Patents
A kind of band remotely monitors and the rail of wireless data transmission function examines instrument Download PDFInfo
- Publication number
- CN208530590U CN208530590U CN201821105665.9U CN201821105665U CN208530590U CN 208530590 U CN208530590 U CN 208530590U CN 201821105665 U CN201821105665 U CN 201821105665U CN 208530590 U CN208530590 U CN 208530590U
- Authority
- CN
- China
- Prior art keywords
- unit
- data transmission
- wireless data
- support unit
- rail
- 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
- Arrangements For Transmission Of Measured Signals (AREA)
Abstract
It is remotely monitored the utility model discloses a kind of band and the rail of wireless data transmission function examines instrument, it include: carrier unit, for the sliding unit of driving arm unit motion, the measuring unit for measuring orbital data, wireless data transmission unit and monitoring unit, carrier unit includes left support unit, right support unit and the crossbeam for connecting left support unit and right support unit;Measuring unit includes the range sensor for measuring track length, and the structure sensor for measuring track geometry shape, range sensor setting be arranged on sliding unit, be all equipped on left support unit and right support unit structure sensor with for simultaneously measurement two tracks geometry.For the utility model using symmetric design, stable gravity center, consistent for the measurement data of both sides track, wireless data transmission unit and monitoring unit follow rail inspection instrument movement without personnel for realizing long-range monitoring and data-transformation facility.
Description
Technical field
The utility model relates to magnetic levitation track detection field, it is specifically related to a kind of band and remotely monitors and wireless data transmission
The rail of function examines instrument.
Background technique
Because having, low noise, climbing capacity is strong, turning radius is small and City Terrain good compatibility for medium-and low-speed maglev traffic
The advantages that, have become the important optinal plan for developing common-rail traffic.Medium-and low-speed maglev traffic uses F type track, vehicle
The levitating electromagnet of lower part and F rail constitute closed magnetic circuit, its electromagnetic attraction vertical component realization vehicle track between is without connecing
Touching support, when vehicle is crossed bend or influenced by lateral force, the electromagnetic attraction horizontal component generated between electromagnet and track is formed
Passive guiding force, to realize the contactless guiding of vehicle.
The distinctive F type track of medium-and low-speed maglev is different from the T-type track structure of traditional railway, therefore traditional T-type track
Track detector can not measure F type track, earliest F type track detector need manually with hand push detector forward
Operation is time-consuming and laborious to measure;It is disclosed application No. is the patent of CN201711122310.0 and a kind of drives Force system
F type track detector, but there is also type Railway Projects for this F type track detector: 1, overall structure is asymmetric, thus
It is easy the data of measurement to be influenced, although mentioning in embodiment because gravity center instability causes to tilt when track detector is run
There is a possibility that falling when having gone out the modus vivendi for increasing clump weight, but clump weight installation is inconvenient, and having run, also
It is the measurement that will affect data.2, the side of detector has multiple sensor mounts that can install multiple sensors, the other side
It is small in size, the sensor that can be installed is fewer than the other side, and the data that will result in two orbit measurements in this way are inconsistent, shadow
Measurement result is rung, in order to eliminate this error, can be measured once using turning around to repeat after an orbit measurement is primary
Method eliminates error, it is done so that if it is time-consuming and laborious.It, can from its specification although 3, being equipped with remote control plate
To learn using close range wireless communication means, staff still needs that rail inspection instrument is followed to move together simultaneously in orbit
Observe its operation conditions by eyes, once rail inspection instrument leave sight if can not learn its operation conditions, therefore at night or dislike
Bad weather is inconvenient to carry out the process with that can delay measurement work at any time.
Utility model content
In order to solve the above-mentioned technical problem, the purpose of the utility model is to provide a kind of both sides symmetrical configurations, stable gravity center, right
It is remotely monitored in the identical band of the measurement data of two tracks and the rail of wireless data transmission function examines instrument.
The technical solution adopted in the utility model is:
A kind of band remotely monitors and the rail of wireless data transmission function examines instrument, comprising: carrier unit is used for driving arm list
Sliding unit, the measuring unit for measuring orbital data, wireless data transmission unit and the monitoring unit of member movement;It is described
Carrier unit includes left support unit, right support unit and the crossbeam for connecting left support unit and right support unit;The survey
Amount unit includes range sensor for measuring track length, and the structure sensor for measuring track geometry shape,
The range sensor setting is being arranged on sliding unit, is all equipped with structure on the left support unit and right support unit
Sensor is with the geometry for measuring two tracks simultaneously;The monitoring unit and wireless data transmission unit are all located at
On bracket, for shooting the image information near rail inspection instrument and completing remote data transmission by wireless data transmission unit
The operation remotely controlled.
Further, the left support unit, right support unit respectively include three hook type support plates and a support
Vertical bar, the hook type support plate include on upper horizontally-supported and the lower horizontal support chip vertical with vertical supporting rod, and connection
The arc connection sheet of horizontally-supported and lower horizontal support chip, three upper horizontally-supported front ends respectively with vertical supporting rod
Front end, middle-end be connected with rear end, the both ends of the crossbeam are vertical with two vertical supporting rods to be connect, the transverse direction of two vertical supporting rods
It is adapted at a distance from the distance F type interorbital parallel with two for being slided along F type track.
Further, the sliding unit includes the driving for being set to left support unit or any side of right support unit
The shaft of the driving motor of wheel and offer power, the driving motor is connected by belt with the shaft of driving wheel to be used for
Drive driving wheel rotation;It further include being set to one group of driven wheel of driving motor side frame bottom and being set to another collateral
Another group of driven wheel of frame bottom.
Further, monitoring unit includes the control mould that the positive camera of crossbeam is arranged in and is arranged in crossbeam
Block, the control module respectively with wireless data transmission unit, the control terminal of driving motor, structure sensor, range sensor
It is electrically connected to be used for sending and receiving data and control command.
Further, the wireless data transmission unit is arranged in crossbeam, and wireless data transmission unit uses 3G/4G/
Any one in 5G module.
Further, the range sensor is encoder, and the encoder is set to left support unit or right support list
Any side of member.
Further, the structure sensor includes several probes being set on left support unit and is set to right support
Several probes on unit, several probes on left support unit are located under three on horizontal support chip and three arcs
The middle position of shape connection sheet;Probe on right support unit is corresponding with the probe positions on left support unit, the probe
All towards F type track.
Further, the corresponding position of the arc connection sheet and F type track side is provided with locating wheel mounting rack, described fixed
Position wheel mounting rack is parallel with the type track side F, and the sliding unit further includes locating wheel, and the locating wheel is mounted on locating wheel peace
It shelves and takes turns bottom and the side of F type track abuts against.
Further, the left support unit/right support unit further includes auxiliary stand, the both ends point of the auxiliary stand
It is not connected with crossbeam with hook type support plate, to be used for rock-steady structure.
Further, the control module includes MCU, storage module, locating module and the power module for power supply, institute
State MCU respectively with storage module, locating module, wireless data transmission unit, the control terminal of driving motor, structure sensor, away from
It is electrically connected from sensor.
The utility model has the beneficial effects that
1, it by built-in monitoring unit and wireless data transmission unit, realizes to the long-range control of rail inspection instrument and to survey
The remote transmission for measuring data, without staff follow rail inspection instrument move in orbit and at night or under bad weather not yet
Measurement process can be delayed, improved work efficiency.
2, left support unit and right support unit use symmetric design, and overall structure is stable and center of gravity is in centre, guarantee
The balance to orbit will not cause measurement data inaccurate because of inclination.
3, the structure sensor of same number and position is mounted on symmetrical left and right bracket, it can be simultaneously to track
Both sides measure, and ensure that the consistency of two orbital measurement datas.
Detailed description of the invention
Specific embodiment of the present utility model is described further with reference to the accompanying drawing;
Fig. 1 is the first oblique view that the utility model rail examines instrument;
Fig. 2 is the second oblique view that the utility model rail examines instrument;
Fig. 3 is the left side side view that the utility model rail examines instrument;
Fig. 4 is the right side view that the utility model rail examines instrument;
Fig. 5 is the front view that the utility model rail examines instrument;
Fig. 6 is the bottom view that the utility model rail examines instrument;
Fig. 7 is the top view that the utility model rail examines instrument.
Specific embodiment
Instrument is examined with the rail of wireless data transmission function as a kind of Fig. 1-Fig. 7 band for showing the utility model is remotely monitored,
It include: carrier unit 1, for the sliding unit of the driving arm unit motion, measuring unit for measuring orbital data, wireless
Data transmission unit 5 and monitoring unit;Carrier unit includes left support unit, right support unit and connection left support unit
With the crossbeam 3 of right support unit;Measuring unit includes the range sensor 41 for measuring track length, and for measuring rail
The structure sensor 42 of road geometry, the setting of range sensor 41 are being arranged on sliding unit, left support unit and right branch
All be equipped on frame unit structure sensor 42 with for and meanwhile measure two tracks geometry;Monitoring unit and wireless
Data transmission unit 5 is all located on bracket, for shooting the image information near rail inspection instrument and passing through wireless data transmission
The operation that unit 5 is completed remote data transmission and remotely controlled.
Wherein, in order to reach center of gravity and integrally-built balance, left support unit, right support unit use symmetric design,
Three hook type support plates 11 and a vertical supporting rod 12 are respectively included, hook type support plate 11 includes vertical with vertical supporting rod 12
Upper horizontally-supported 111 and lower horizontal support chip 112, and connection upper horizontally-supported 111 and lower horizontal support chip 112
Arc connection sheet 113, three upper horizontally-supported 111 front ends are connected with the front end of vertical supporting rod 12, middle-end and rear end respectively;
Certainly connecting three the forward and backward of vertical supporting rod 12, middle-end positions using three hook type support plates 11 only keeps overall structure steady
The optimal embodiment of cost is saved in the case where fixed as far as possible, can also using less or more hook-shaped support plates 11 with
Vertical supporting rod 12 is connected, and the position of connection is also not limited to front end, middle-end and the rear end of vertical supporting rod 12, can be perpendicular in support
Any position of bar 12;The both ends of crossbeam 3 are vertical with two vertical supporting rods 12 to be connect, the lateral distance of two vertical supporting rods 12 with
The distance of two parallel F type interorbitals is adapted for sliding along F type track.
As shown in figure 3, sliding unit include the driving wheel 21 for being set to left support unit or any side of right support unit,
And the driving motor 22 of power is provided, the shaft 221 of driving motor 22 passes through toothed belt 23 and two driving wheels 21
Shaft 211 is connected, for driving driving wheel 21 to rotate;Further include be set to one group of 22 side frame bottom of driving motor from
Driving wheel 24 and another group of driven wheel 24 for being set to other side frame bottom;By driving wheel 21, driving motor in the present embodiment
22 and one group of driven wheel 24 be arranged on left support unit, another group of driven wheel 24 is arranged on right support unit, can also will
The positional relationship on both sides is exchanged, and driving wheel 21 and driving motor 22 is arranged on right support unit, by another group of driven wheel 24
It is arranged on left support unit.
Wherein, monitoring unit includes the control module that the positive camera 6 of crossbeam 3 is arranged in and is arranged in crossbeam 3
7, control module 7 include MCU, storage module, locating module and the power module for power supply, the MCU respectively with storage mould
Block, locating module, wireless data transmission unit 5, the control terminal of driving motor 22, structure sensor 42,41 electricity of range sensor
Property connection, MCU receives after the measurement data that structure sensor 42 and range sensor 41 are fed back through wireless data transmission unit 5
It is sent to backstage and carries out data statistics and analysis, furthermore backstage can also remotely send the movement of control command control rail inspection instrument.
Wireless data transmission unit 5 is arranged in crossbeam 3, it is preferred that wireless data transmission unit 5 is using appointing in 3G/4G/5G module
It anticipates one kind, locating module is using one of Beidou module, GPS module or GLONASS module or a variety of.
As shown in figure 4, range sensor 41 is encoder, encoder is set to left support unit or right support unit is any
Encoder, is arranged in 24 inside of driven wheel of left support unit in the present embodiment by side, the shaft of encoder by gear with
Driven wheel 24 is connected, and can be obtained by the data that rail examines instrument travel distance by the rotation of driven wheel 24.
As shown in Fig. 3, Fig. 4, Fig. 6, structure sensor 42 includes six probes being set on left support unit and setting
Wherein horizontal support chip under three is located at for three in the probe on six probes on right support unit, left support unit
On 112, the other three, which is popped one's head in, is located at the middle position of three arc connection sheets 113, probe and a left side on right support unit
Probe positions on carrier unit are corresponding, pop one's head in all towards F type track;Certainly, six probes of each installation in left and right are this reality
With novel preferred embodiment, the quantity of probe without limitation, can also need to install other numbers according to Surveying Actual Precision
The probe of amount.
In order to guarantee the stability when running on warp rail, the corresponding position of arc connection sheet 113 and F type track side
It is provided with locating wheel mounting rack 13, locating wheel mounting rack 13 is parallel with the type track side F, and sliding unit further includes locating wheel 25,
Locating wheel 25 is mounted on locating wheel mounting rack 13, and two locating wheels 25 are one group, and every group of locating wheel 25 is ratcheting by belt, fixed
Position wheel 25 is abutted against by the side of belt and F type track.
In order to further strengthen integrally-built stability, left support unit/right support unit further includes auxiliary stand 14,
The both ends of auxiliary stand 14 are connect with crossbeam 3, hook type support plate 11 respectively, the upper horizontal branch with crossbeam 13 and hook type support plate 11
Blade 111 forms stable triangular structure, further enhances the stability of carrier unit.
By built-in monitoring unit and wireless data transmission unit, realize to the long-range control of rail inspection instrument and to measurement
The remote transmission of data follows rail inspection instrument to move in orbit and at night or will not under bad weather without staff
Delay measurement process, improves work efficiency.Left support unit and right support unit use symmetric design, and overall structure is stablized simultaneously
And center of gravity ensure that the balance to orbit in centre, will not cause measurement data inaccurate because of inclination.Symmetrical
It is mounted with the structure sensor of same number and position on the bracket of left and right, the both sides of track can be measured simultaneously, guaranteed
The consistency of two orbital measurement datas.
The foregoing is merely the preferred embodiments of the utility model, the utility model is not limited to above-mentioned embodiment party
Formula, if with essentially identical means realize the utility model aim technical solution belong to the protection scope of the utility model it
It is interior.
Claims (10)
1. a kind of band remotely monitors and the rail of wireless data transmission function examines instrument characterized by comprising carrier unit (1) is used
In the sliding unit of driving arm unit motion, the measuring unit for measuring orbital data, wireless data transmission unit (5) with
And monitoring unit;The carrier unit includes left support unit, right support unit and connection left support unit and right support list
The crossbeam (3) of member;The measuring unit includes for measuring the range sensor of track length (41), and for measuring track
The structure sensor (42) of geometry, range sensor (41) setting are being arranged on sliding unit, the left support
All be equipped on unit and right support unit structure sensor (42) with for and meanwhile measure two tracks geometry;It is described
Monitoring unit and wireless data transmission unit (5) are all located on bracket, for shooting the image information near rail inspection instrument simultaneously
And the operation completing remote data transmission by wireless data transmission unit (5) and remotely controlling.
2. band according to claim 1 remotely monitors and the rail of wireless data transmission function examines instrument, it is characterised in that: described
Left support unit, right support unit respectively include three hook type support plates (11) and a vertical supporting rod (12), the hook type
Support plate (11) includes upper horizontally-supported piece (111) and lower horizontal support chip (112) vertical with vertical supporting rod (12), Yi Jilian
Connect the arc connection sheet (113) of horizontally-supported (111) and lower horizontal support chip (112), described three upper horizontally-supported
(111) front end is connected with front end, middle-end and the rear end of vertical supporting rod (12) respectively, the both ends of the crossbeam (3) and two branch
It supports vertical bar (12) vertically to connect, mutually be fitted at a distance from the lateral distance of two vertical supporting rods (12) the F type interorbital parallel with two
It should be for being slided along F type track.
3. band according to claim 1 remotely monitors and the rail of wireless data transmission function examines instrument, it is characterised in that: described
Sliding unit includes the drive for being set to the driving wheel (21) and offer power of left support unit or any side of right support unit
The shaft (221) of dynamic motor (22), the driving motor (22) is connected by belt (23) with the shaft (211) of driving wheel (21)
For driving driving wheel (21) to rotate;It further include one group of driven wheel (24) for being set to driving motor (22) side frame bottom
And it is set to another group of driven wheel (24) of other side frame bottom.
4. band according to claim 3 remotely monitors and the rail of wireless data transmission function examines instrument, it is characterised in that: monitoring
Unit includes setting in crossbeam (3) positive camera (6) and the control module (7) being arranged in crossbeam (3), the control
Molding block (7) is passed with wireless data transmission unit (5), the control terminal of driving motor (22), structure sensor (42), distance respectively
Sensor (41) is electrically connected to be used for sending and receiving data and control command.
5. band according to claim 1 remotely monitors and the rail of wireless data transmission function examines instrument, it is characterised in that: described
Wireless data transmission unit (5) setting is in crossbeam (3), and wireless data transmission unit (5) is using appointing in 3G/4G/5G module
It anticipates one kind.
6. band according to claim 1 remotely monitors and the rail of wireless data transmission function examines instrument, it is characterised in that: described
Range sensor (41) is encoder, and the encoder is set to left support unit or any side of right support unit.
7. band according to claim 2 remotely monitors and the rail of wireless data transmission function examines instrument, it is characterised in that: described
Structure sensor (42) includes several probes being set on left support unit and several probes for being set on right support unit,
Several probes on left support unit are located under three on horizontal support chip (112) and three arc connection sheets (113)
Middle position;Probe on right support unit is corresponding with the probe positions on left support unit, and the probe is all towards F type
Track.
8. band according to claim 2 remotely monitors and the rail of wireless data transmission function examines instrument, it is characterised in that: described
The corresponding position of arc connection sheet (113) and F type track side is provided with locating wheel mounting rack (13), the locating wheel mounting rack
(13) parallel with the type track side F, the sliding unit further includes locating wheel (25), and the locating wheel (25) is mounted on locating wheel
On mounting rack (13) and wheel bottom and the side of F type track abuts against.
9. band according to claim 2 remotely monitors and the rail of wireless data transmission function examines instrument, it is characterised in that: described
Left support unit/right support unit further includes auxiliary stand (14), the both ends of the auxiliary stand (14) respectively with crossbeam (3),
Hook type support plate (11) is connected, to be used for rock-steady structure.
10. band according to claim 4 remotely monitors and the rail of wireless data transmission function examines instrument, it is characterised in that: institute
Stating control module (7) includes MCU, storage module, locating module and the power module for power supply, the MCU respectively with storage
Module, locating module, wireless data transmission unit (5), the control terminal of driving motor (22), structure sensor (42), distance pass
Sensor (41) is electrically connected.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821105665.9U CN208530590U (en) | 2018-07-12 | 2018-07-12 | A kind of band remotely monitors and the rail of wireless data transmission function examines instrument |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821105665.9U CN208530590U (en) | 2018-07-12 | 2018-07-12 | A kind of band remotely monitors and the rail of wireless data transmission function examines instrument |
Publications (1)
Publication Number | Publication Date |
---|---|
CN208530590U true CN208530590U (en) | 2019-02-22 |
Family
ID=65388852
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201821105665.9U Active CN208530590U (en) | 2018-07-12 | 2018-07-12 | A kind of band remotely monitors and the rail of wireless data transmission function examines instrument |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN208530590U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108860213A (en) * | 2018-07-12 | 2018-11-23 | 肖力 | A kind of band remotely monitors and the rail of wireless data transmission function examines instrument |
-
2018
- 2018-07-12 CN CN201821105665.9U patent/CN208530590U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108860213A (en) * | 2018-07-12 | 2018-11-23 | 肖力 | A kind of band remotely monitors and the rail of wireless data transmission function examines instrument |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US11359945B2 (en) | Inspection device and method for subway tunnels based on three-dimensional laser scanning | |
CN101761004B (en) | Rail detecting instrument for low and medium speed magnetic suspension F-type rail | |
CN205589249U (en) | Track inspection dolly | |
CN109281238B (en) | Track detector | |
CN207215086U (en) | A kind of Portable non-contact rail tunnel Clearance Detection | |
CN210464365U (en) | Contact rail geometric parameter detection device | |
CN112103840B (en) | Railway contact net inspection robot | |
CN208530590U (en) | A kind of band remotely monitors and the rail of wireless data transmission function examines instrument | |
CN102175168B (en) | Orbit dynamic detection device for medium and low speed maglev F-type orbits | |
CN108860214A (en) | A kind of medium-and low-speed maglev F type track detector with positioning function | |
CN2786598Y (en) | Intelligent contact net state detecting equipment | |
CN208868061U (en) | A kind of medium-and low-speed maglev F type track detector with positioning function | |
CN104181101A (en) | Measuring device for steel rail surface friction coefficients | |
CN102756741A (en) | Orbital transfer type carrier loader for inspection robot in transformer substation | |
CN210180409U (en) | Canopy limit measuring device for existing railway line platform | |
CN108860213A (en) | A kind of band remotely monitors and the rail of wireless data transmission function examines instrument | |
CN110057272A (en) | A kind of railroad platform robot measurement | |
CN204064875U (en) | Rail Surface friction coefficient measuring apparatus | |
CN103344445B (en) | Detecting platform of medium-low speed magnetic levitation line feed unit | |
CN102840828A (en) | Static parameter measurement device of contact net and usage method thereof | |
CN213750113U (en) | Test bench that car is wireless to be charged | |
CN204439035U (en) | Portable goods limit measuring instrument | |
CN213543476U (en) | ECAS automatic calibration device for heavy-duty car | |
CN114895681A (en) | Robot for detecting highway guardrail plate and control method | |
CN210852453U (en) | Full-automatic track inspection tester |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
TR01 | Transfer of patent right | ||
TR01 | Transfer of patent right |
Effective date of registration: 20200814 Address after: Room 103-104, building B3, Changsha E center, No.18 Xiangtai Road, Liuyang economic and Technological Development Zone, Changsha City, Hunan Province Patentee after: HUNAN LINGXIANG MAGNETIC LEVITATION TECHNOLOGY Co.,Ltd. Address before: 410005 Hunan province Changsha Kaifu District, the Pearl River Fisheries Road Pu Shu 20 building 103 room Patentee before: Xiao Li |