CN205758527U - A kind of electropulsograph - Google Patents
A kind of electropulsograph Download PDFInfo
- Publication number
- CN205758527U CN205758527U CN201620526042.3U CN201620526042U CN205758527U CN 205758527 U CN205758527 U CN 205758527U CN 201620526042 U CN201620526042 U CN 201620526042U CN 205758527 U CN205758527 U CN 205758527U
- Authority
- CN
- China
- Prior art keywords
- slide rail
- slide block
- rolling shaft
- curtain rolling
- sensor
- 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.)
- Withdrawn - After Issue
Links
Landscapes
- Length Measuring Devices By Optical Means (AREA)
Abstract
A kind of electropulsograph, including: pedestal;First curtain rolling shaft, the second curtain rolling shaft, the 3rd curtain rolling shaft and Volume Four curtain axle, wherein said first curtain rolling shaft and described 3rd curtain rolling shaft are separately positioned on the both sides of described pedestal in parallel to each other, and described second curtain rolling shaft and described Volume Four curtain axle are separately positioned on the other both sides of described pedestal in parallel to each other;First roller shutter and the second roller shutter, one end volume of described first roller shutter is on described first curtain rolling shaft, and the other end of described first roller shutter is rolled up on described 3rd curtain rolling shaft;Support, described support passes described first perforate and the second perforate, is arranged on above described pedestal, and described support can move freely on described pedestal;Sensor displacement mechanism, is arranged on the bracket, and described sensor displacement mechanism can move back and forth along the third direction being perpendicular to described pedestal on the bracket;Sensor, is positioned at the bottom of described sensor displacement mechanism;And laser beam emitting device, it is positioned at the bottom of described sensor displacement mechanism.
Description
Technical field
This utility model relates to a kind of electropulsograph.
Background technology
Electropulsograph in the market be all by manually hold sensor carry out location measure pulse condition.Such mode meeting
Occur in actual measurement, due to operator in operation is constituted by unstable and cause to the measured cun, close,
The location at chi acupuncture point is forbidden.
Utility model content
An embodiment of the present utility model provides a kind of electropulsograph, including: pedestal;First curtain rolling shaft, the second roller shutter
Axle, the 3rd curtain rolling shaft and Volume Four curtain axle, wherein said first curtain rolling shaft sets the most respectively with described 3rd curtain rolling shaft
Putting the both sides at described pedestal, described second curtain rolling shaft and described Volume Four curtain axle are separately positioned on described pedestal in parallel to each other
Other both sides;First roller shutter and the second roller shutter, one end of described first roller shutter rolls up on described first curtain rolling shaft, and described first
The other end of roller shutter is rolled up on described 3rd curtain rolling shaft, and described first roller shutter is provided with the first perforate, described second roller shutter
One end is rolled up on described second curtain rolling shaft, and the other end of described second roller shutter is rolled up on the curtain axle of described Volume Four, and described second
Roller shutter is provided with the second perforate, and described first roller shutter can be along first party between described first curtain rolling shaft and the 3rd curtain rolling shaft
To reciprocating motion, described second roller shutter can be along being perpendicular to described between described second curtain rolling shaft and described four curtain rolling shafts
The second direction in one direction moves back and forth;Support, described support passes described first perforate and the second perforate, is arranged on described base
Above Zuo, described support can move freely on described pedestal;Sensor displacement mechanism, is arranged on the bracket, described
Sensor displacement mechanism can move back and forth along the third direction being perpendicular to described pedestal on the bracket;Sensor, position
Bottom in described sensor displacement mechanism;And laser beam emitting device, it is positioned at the bottom of described sensor displacement mechanism.
Above-mentioned electropulsograph, also includes: at least one first slide rail, is arranged on described pedestal, and is positioned at described first
Inside curtain rolling shaft and described 3rd curtain rolling shaft, at least one first slide rail described is parallel to described first curtain rolling shaft;Second slide rail,
It is arranged at least one first slide rail described, and described second slide rail can be along institute at least one first slide rail described
State second direction to move back and forth;First slide block, is arranged on described second slide rail, and described first slide block can be sliding described second
Move back and forth along described first direction on rail, and described first slide block together with described second slide rail described at least one
Move back and forth along described second direction on one slide rail;Described support is fixed on described first slide block, described support and described the
One slide block moves back and forth along described first direction together on described second slide rail, and described support and described first slide block and
Described second slide rail moves back and forth along described second direction together at least one first slide rail described.
Above-mentioned electropulsograph, also includes: the second slide block, is arranged on described second slide rail, and described second slide block can be
Move back and forth along described first direction on described second slide rail, and described second slide block together with described second slide rail described
Move back and forth along described second direction at least one first slide rail;Described laser beam emitting device and described sensor are fixed on
On described sensor displacement mechanism, described sensor displacement mechanism, to fix on the bracket, it is sliding that described support is fixed on first
On block, described laser beam emitting device, described sensor together with described first slide block on described second slide rail along first party
To reciprocating motion, and the laser emission point of described laser beam emitting device and the line place of the sensing points of described sensor is straight
Line is along described first direction.
Above-mentioned electropulsograph, described first slide block includes: positioner, for described first slide block is limited in described card
Move back and forth along described first direction between position device and described second slide block;Described first slide block described positioner with
Maximum displacement between described second slide block is equal to the distance between described generating laser and described sensor.
Above-mentioned electropulsograph, also includes the first fixing device, for described second slide rail is fixed on described pedestal.
Above-mentioned electropulsograph, also includes the second fixing device, for described first slide block is fixed on described second slide rail
On.
Above-mentioned electropulsograph, described first fixing device is electric magnet, and described electric magnet is positioned at below described second slide rail,
And described electric magnet is fastened on described pedestal.
Above-mentioned electropulsograph, also includes: display, is arranged on described pedestal, is used for showing that described sensor is detected
The pulse signal arrived.
Above-mentioned electropulsograph, also includes communication module, is arranged on described pedestal, for by detected by described sensor
Pulse signal send to server end and/or client.
Above-mentioned electropulsograph, described support also includes motor, and described motor is connected with described sensor displacement mechanism, described
Motor controls described sensor displacement mechanism and moves back and forth along third direction on the bracket.
Above-mentioned electropulsograph, it is possible to by the way of machinery is transposed, in the mistake at the cun,guan,chi acupuncture point finding the measured
In journey and when finally measuring, all can keep stable and move flexibly;With laser locator on the most above-mentioned electropulsograph, because of
And the position at place, tested acupuncture point can be determined accurately;Hence in so that there is no the change of displacement during navigating to measure
Change so that measurement result is more accurate.Additionally, due to roller shutter in above-mentioned electropulsograph and the structure of curtain rolling shaft, form one and cover
Protection cap on all curtain rolling shafts, improves security performance.
Accompanying drawing explanation
Fig. 1 is the schematic diagram according to the electropulsograph in this utility model one embodiment;
Fig. 2 is the schematic diagram according to the electropulsograph in this utility model one embodiment;
Fig. 3 is the schematic diagram according to the electropulsograph in this utility model one embodiment;
Fig. 4 is the schematic diagram according to the electropulsograph in this utility model one embodiment.
Wherein, reference:
1: pedestal
2: the first curtain rolling shafts
3: the second curtain rolling shafts
4: the three curtain rolling shafts
5: Volume Four curtain axle
6: the first roller shutters
61: the first perforates
7: the second roller shutters
71: the second perforates
8: support
9: sensor displacement mechanism
10: sensor
11: laser beam emitting device
12: the first slide rails
13: the second slide rails
14: the first slide blocks
141: positioner
15: the second slide blocks
Detailed description of the invention
Fig. 1-Fig. 4 is the schematic diagram according to the electropulsograph in this utility model one embodiment.Refer to Fig. 1-Fig. 4, this reality
Execute electropulsograph in example to include: pedestal the 1, first curtain rolling shaft the 2, second curtain rolling shaft the 3, the 3rd curtain rolling shaft 4, Volume Four curtain axle 5, the first volume
Curtain the 6, second roller shutter 7, support 8, sensor displacement mechanism 9, sensor 10, laser beam emitting device 11.Wherein the first curtain rolling shaft 2 with
3rd curtain rolling shaft 4 is separately positioned on the both sides of pedestal 1 in parallel to each other, and the second curtain rolling shaft 3 is with Volume Four curtain axle 5 in parallel to each other
It is separately positioned on the other both sides of pedestal 1.One end of first roller shutter 6 is rolled up on the first curtain rolling shaft 2, the other end of the first roller shutter 6
Volume is on the 3rd curtain rolling shaft 4, and the first roller shutter 6 is provided with the first perforate 61, and one end of the second roller shutter 7 is rolled up at the second curtain rolling shaft 3
On, the other end of the second roller shutter 7 is rolled up on Volume Four curtain axle 5, and the second roller shutter 7 is provided with the second perforate 71.First roller shutter 6 energy
Enough moving back and forth along a first direction between the first curtain rolling shaft 2 and the 3rd curtain rolling shaft 4, the second roller shutter 7 can be at the second roller shutter
Move back and forth along the second direction being perpendicular to first direction between axle 3 and four curtain rolling shafts 5.Support 8 through the first perforate 61 and
Second perforate 71, is arranged on pedestal 1.Support 8 can move freely on pedestal 1.Sensor displacement mechanism 9 is arranged on support
On 8, and sensor displacement mechanism 9 can move back and forth along the third direction being perpendicular to pedestal 1 on support 8.Sensor 10
It is positioned at the bottom of sensor displacement mechanism 9.Laser beam emitting device 11 is positioned at the bottom of sensor displacement mechanism 9.
Such as, when using this electropulsograph, first traversing carriage 8.Laser beam emitting device 11 can be driven to move by support 8
Dynamic to determine measured acupuncture point.After determining measured acupuncture point, traversing carriage 8 again, band dynamic sensor 10 moves to tested
Amount acupuncture point.Then movable sensor mobile device 9 so that it is move downward until sensor 10 touches measured acupuncture point.Due to
Support 8 can move freely on pedestal.Therefore, determining that measured acupuncture point is convenient.Owing to the first roller shutter volume 6 exists
On first curtain rolling shaft 2 and the 3rd curtain rolling shaft 4, therefore the first roller shutter 6 can move left and right in the horizontal direction.Again due to volume Two
Curtain volume 7 is on the second curtain rolling shaft 3 and Volume Four curtain axle 5, and therefore the second roller shutter 7 can move forward and backward in the horizontal direction.Meanwhile, prop up
Frame 8 is bored a hole the first perforate 61 and the second perforate 71.Therefore, during support 8 moves, the first roller shutter 6 and the second roller shutter 7 begin
The support 8 followed eventually moves.Wherein sensor displacement mechanism 9 on support 8 to be perpendicular to the third direction of pedestal 1 reciprocal
Motion is realized with worm gear structure by motor.But be not limited thereto, those skilled in the art can be according to reality
Border needs to replace and wherein realizes parts or directly replace any of moving method.Above-mentioned electropulsograph, it is possible to pass through
The mode of machinery positioning, during the cun,guan,chi acupuncture point finding the measured and when finally measuring, all can keep
Stablize and move flexibly;With laser locator on the most above-mentioned electropulsograph, it is thus possible to determine tested acupuncture point institute accurately
Position;Hence in so that there is no the change of displacement during navigating to measure so that measurement result is more accurate.Additionally
In use, the first roller shutter 6 and the second roller shutter 7 form a protection covered on all curtain rolling shafts to above-mentioned electropulsograph
Film, improves security performance.
Being selected in as one, in one embodiment of the application, electropulsograph also includes: at least one first slide rail 12,
Two slide rail 13 and the first slide blocks 14.First slide rail 12 is arranged on pedestal 1, and is positioned at the first curtain rolling shaft 2 and the 3rd curtain rolling shaft 4
Inner side.First slide rail 12 is parallel to the first curtain rolling shaft 2.Second slide rail 13 is arranged on the first slide rail 12, and the second slide rail 13 energy
Enough move back and forth along second direction on the first slide rail 12.First slide block 14 is arranged on the second slide rail 13, the first slide block 14
Can move back and forth along a first direction on the second slide rail 13, and the first slide block 14 together with the second slide rail 13 at the first slide rail
Move back and forth along second direction on 12.Support 8 is fixed on the first slide block 14, support 8 together with the first slide block 14 second
Move back and forth along a first direction on slide rail 13, and support 8 together with the first slide block 14 and the second slide rail 13 at the first slide rail 12
On along second direction move back and forth.
Such as, when traversing carriage 8.Owing to support 8 is fixed on the first slide block 14.Therefore support 8 can drive first
Slide block 14 moves left and right, and support 8 can drive the first slide block 14 and the second slide rail 13 slide anteroposterior.By this method,
Support 8 can be moved freely on pedestal.In the present embodiment, the number of the first slide rail 12 is two, but not with this
It is limited.
Being selected in as one, in one embodiment of the application, electropulsograph also includes the second slide block 15.Second slide block 15 sets
Put on the second slide rail 13.Second slide block 15 can move back and forth on the second slide rail 13 along a first direction, and the second slide block
15 move back and forth along second direction together with the second slide rail 13 on the first slide rail 12.Laser beam emitting device 11 and sensor 10
It is fixed on the second slide block 15.Laser beam emitting device 11 and sensor 10 are fixed on sensor displacement mechanism, and sensor moves
Device, it is fixing that described support is fixed on the first slide block on the bracket, described laser beam emitting device, described sensor with
First slide block 15 moves back and forth together on the second slide rail 13 along a first direction.And the Laser emission of laser beam emitting device 11
The straight line at point and the line place of the sensing points of sensor 10 is along a first direction.
Such as, when traversing carriage 8 so that after support 8 drives laser beam emitting device 11 to determine measured acupuncture point, also to continue
Continuous traversing carriage 8 makes sensor 10 be positioned at above measured acupuncture point.But this needs operator to rely on glasses to judge sensing
Whether device moves to the surface at measured acupuncture point.Therefore can produce the left and right produced owing to the experience of operator is different or
Site error front and back.Therefore laser beam emitting device 11 and sensor 10 are fixed on the second slide block 15 jointly.When by
After one slide block 14 drives support 8 finally to drive laser beam emitting device 11 to determine measured acupuncture point, due to laser beam emitting device 11
With the line of sensor 10 along the left and right directions of the second slide rail 13, follow the due to laser beam emitting device 11 and sensor 10 again
The movement of two slide blocks is also the left and right directions along the second slide rail 13.Therefore, measured cave is being determined from generating device of laser 11
Position is to being moved between measured acupuncture point by sensor 10 and will not produce error at fore-and-aft direction.And in order to determine measured acupuncture point
After-poppet 8 or laser beam emitting device 11 or sensor 10 the most mobile, electropulsograph can also wrap in the present embodiment
Include the first fixing device (not illustrating in figure) and/or the second fixing device (not illustrating in figure) and/or the 3rd fixing device (in figure
Do not illustrate).First fixing device is for being fixed on pedestal by the first slide block 14.Second fixing device is for by the second slide block 15
It is fixed on the second slide rail.3rd fixing device is for being fixed on the first slide rail 12 by the second slide rail 13.
Being selected in as one, in one embodiment of the application, the first slide block includes positioner 141, for by first
Slide block is limited between positioner 141 and the second slide block and moves back and forth along a first direction.First slide block is at positioner 141
And the maximum displacement between the second slide block 14 is equal to the distance between generating laser and sensor.Wherein positioner can be
Tabletting structure, when by lower sheeting, the second slide block 15 can freely between positioner 141 and the first slide block 14 along first
Direction moves back and forth;When ejecting tabletting, it is a certain that the second slide block 15 is fixed between positioner 141 and the first slide block 14
Individual position.But, the structure of positioner is not limited thereto, and those skilled in the art can design any according to actual needs
Known retaining structure.
Such as, after determining measured acupuncture point by laser beam emitting device 11, only need to promote the second slide block 15.And due to
The maximum displacement between positioner 141 and the first slide block 14 of second slide block 15 is equal between generating laser and sensor
Distance.Therefore, when the second slide block 15 is shifted onto, sensor 10 has just been moved to the left between sensor and laser beam emitting device
Distance, and make sensor 10 be placed exactly in the position at generating device of laser 11 place just now.Hence in so that measurement is more accurate.
Be selected in as one, in one embodiment of the application, the first fixing device and/or the second fixing device and/or
3rd fixing device is electric magnet, and electric magnet is positioned at below the second slide block and/or the second slide rail.
Being selected in as one, in one embodiment of the application, electropulsograph also includes display (not illustrating in figure), arranges
On pedestal 1, for showing the pulse signal detected by sensor 10.
Being selected in as one, in one embodiment of the application, electropulsograph also includes communication module (not illustrating in figure), if
Put on pedestal 1, for the pulse signal detected by sensor 10 is sent to server end and/or client.
Being selected in as one, in one embodiment of the application, support 8 also includes motor (not illustrating in figure).Motor with
Sensor displacement mechanism 9 connects, and motor controls sensor displacement mechanism 9 and moves back and forth along third direction on support 8.
Claims (10)
1. an electropulsograph, it is characterised in that including:
Pedestal;
First curtain rolling shaft, the second curtain rolling shaft, the 3rd curtain rolling shaft and Volume Four curtain axle, described first curtain rolling shaft and described 3rd roller shutter
Axle is separately positioned on the both sides of described pedestal in parallel to each other, and described second curtain rolling shaft is with described Volume Four curtain axle in parallel to each other
It is separately positioned on the other both sides of described pedestal;
First roller shutter and the second roller shutter, one end of described first roller shutter rolls up on described first curtain rolling shaft, described first roller shutter
The other end is rolled up on described 3rd curtain rolling shaft, and described first roller shutter is provided with the first perforate, and described first roller shutter can be in institute
Stating and move back and forth along a first direction between the first curtain rolling shaft and the 3rd curtain rolling shaft, one end of described second roller shutter volume is described the
On two curtain rolling shafts, the other end of described second roller shutter is rolled up on the curtain axle of described Volume Four, and described second roller shutter is provided with second
Perforate, described second roller shutter can be along vertical with described first direction between described second curtain rolling shaft with described four curtain rolling shafts
Second direction move back and forth;
Support, described support is arranged on above described pedestal through described first perforate and described second perforate, described support energy
Enough move freely on described pedestal;Sensor displacement mechanism, is arranged on the bracket, and described sensor displacement mechanism can
Move back and forth along the third direction vertical with described pedestal on the bracket;
Sensor, is positioned at the bottom of described sensor displacement mechanism;And
Laser beam emitting device, is positioned at the bottom of described sensor displacement mechanism.
2. electropulsograph as claimed in claim 1, it is characterised in that also include:
At least one first slide rail, is arranged on described pedestal, and is positioned at described first curtain rolling shaft and described 3rd curtain rolling shaft
Side, at least one first slide rail described is parallel to described first curtain rolling shaft;
Second slide rail, is arranged at least one first slide rail described, and described second slide rail can described at least one the
Move back and forth along described second direction on one slide rail;
First slide block, is arranged on described second slide rail, and described first slide block can be along described on described second slide rail
One direction move back and forth, and described first slide block together with described second slide rail at least one first slide rail described along institute
State second direction to move back and forth;
Described support is fixed on described first slide block, described support together with described first slide block on described second slide rail along
Described first direction move back and forth, and described support together with described first slide block and described second slide rail described at least one
Move back and forth along described second direction on first slide rail.
3. electropulsograph as claimed in claim 2, it is characterised in that also include:
Second slide block, is arranged on described second slide rail, and described second slide block can be along described on described second slide rail
One direction move back and forth, and described second slide block together with described second slide rail at least one first slide rail described along institute
State second direction to move back and forth;
Described laser beam emitting device and described sensor are fixed on described sensor displacement mechanism, and described sensor moves dress
Putting, fix on the bracket, described support is fixed on the first slide block, described laser beam emitting device, described sensor and institute
State the first slide block to move back and forth along a first direction on described second slide rail together, and the laser of described laser beam emitting device
The straight line at the line place of the sensing points of launch point and described sensor is along described first direction.
4. electropulsograph as claimed in claim 3, it is characterised in that described first slide block includes:
Positioner, for being limited in described first slide block between described positioner and described second slide block along described the
One direction moves back and forth;
The maximum displacement between described positioner and described second slide block of described first slide block is equal to described generating laser
And the distance between described sensor.
5. electropulsograph as claimed in claim 2, it is characterised in that also include the first fixing device, for sliding by described second
Rail is fixed on described pedestal.
6. electropulsograph as claimed in claim 5, it is characterised in that also include the second fixing device, for sliding by described first
Block is fixed on described second slide rail.
7. electropulsograph as claimed in claim 5, it is characterised in that described first fixing device is electric magnet, described electric magnet
It is positioned at below described second slide rail, and described electric magnet is fastened on described pedestal.
8. electropulsograph as claimed in claim 1, it is characterised in that also include:
Display, is arranged on described pedestal, for showing the pulse signal detected by described sensor.
9. electropulsograph as claimed in claim 1, it is characterised in that also include communication module, be arranged on described pedestal, be used for
Pulse signal detected by described sensor is sent to server end and/or client.
10. electropulsograph as claimed in claim 1, it is characterised in that described support also includes motor, described motor and described biography
Sensor mobile device connects, and described motor controls described sensor displacement mechanism and back and forth transports along third direction on the bracket
Dynamic.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201620526042.3U CN205758527U (en) | 2016-06-01 | 2016-06-01 | A kind of electropulsograph |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201620526042.3U CN205758527U (en) | 2016-06-01 | 2016-06-01 | A kind of electropulsograph |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN205758527U true CN205758527U (en) | 2016-12-07 |
Family
ID=58136427
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201620526042.3U Withdrawn - After Issue CN205758527U (en) | 2016-06-01 | 2016-06-01 | A kind of electropulsograph |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN205758527U (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105832310A (en) * | 2016-06-01 | 2016-08-10 | 郭福生 | Pulse instrument |
-
2016
- 2016-06-01 CN CN201620526042.3U patent/CN205758527U/en not_active Withdrawn - After Issue
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105832310A (en) * | 2016-06-01 | 2016-08-10 | 郭福生 | Pulse instrument |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| CN106249694B (en) | Automatic machinery, the method for auto-control machine and machine readable media | |
| CN105652279A (en) | Real-time spatial positioning system and method and virtual reality device comprising system | |
| JP7257326B2 (en) | Surveying instrument, surveying system, surveying method and surveying program | |
| CN107014321A (en) | A kind of flatness rapid field measurement apparatus and measuring method | |
| CN205758527U (en) | A kind of electropulsograph | |
| CN110850453A (en) | GPS differential positioning precision electric measurement system and implementation method thereof | |
| CN210104507U (en) | Road surface flatness detection device | |
| KR100808468B1 (en) | Surveying instrument | |
| CN109827533A (en) | Determine the measuring system and its application method of underground karst cavity inner boundary | |
| CN106338259B (en) | The curvature measuring device and measuring method of bar | |
| CN104144340A (en) | 3D effect testing system and method | |
| CN205404412U (en) | It carries out sample room that laser induction punctures spectral detection to be suitable for irregular sample | |
| CN101150984A (en) | Bed device and MRI apparatus | |
| CN105832310B (en) | A kind of electropulsograph | |
| CN106968101B (en) | Cutting equipment of lamp house yardage roll | |
| CN104165616A (en) | Round rod glossiness detection apparatus | |
| CN109737935B (en) | Tunnel ultra-short excavation detection method and detector based on machine vision | |
| CN205561773U (en) | Measuring device is warp to dam level based on grating chi | |
| CN106323170A (en) | Laser three-dimensional positioning-based concrete vibrating quality real-time monitoring method | |
| CN107688159B (en) | Magnetic flux detection device and magnetic flux detection method | |
| CN106546209B (en) | Device and method for measuring shooting angle of X-ray machine | |
| CN107363467A (en) | A kind of double detection and prosthetic appliance | |
| CN108362235A (en) | A kind of test system and method for the ground flat degree based on image procossing | |
| CN205691485U (en) | A kind of scan table for Terahertz Non-Destructive Testing and scanned imagery device | |
| CN203687917U (en) | Detecting device for automatically measuring rail profile |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| AV01 | Patent right actively abandoned |
Granted publication date: 20161207 Effective date of abandoning: 20180515 |
|
| AV01 | Patent right actively abandoned |