CN109854898A - A kind of non-contact testing device - Google Patents
A kind of non-contact testing device Download PDFInfo
- Publication number
- CN109854898A CN109854898A CN201811324967.XA CN201811324967A CN109854898A CN 109854898 A CN109854898 A CN 109854898A CN 201811324967 A CN201811324967 A CN 201811324967A CN 109854898 A CN109854898 A CN 109854898A
- Authority
- CN
- China
- Prior art keywords
- lead
- rectangular frame
- linear guide
- connector
- elevating mechanism
- 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.)
- Pending
Links
Abstract
The invention discloses a kind of non-contact testing devices, are related to non-destructive testing and measuring device field, including rectangular frame, elevating mechanism, rotating mechanism, elevating mechanism are mounted on rectangular frame, and rotating mechanism is located in rectangular frame;Rectangular frame includes two columns, upper beam, lower beam, lower bottom bases;A column is respectively equipped between upper beam, lower beam both ends, two columns, upper beam, lower beam, lower bottom base group are rectangular;Column includes upper pillar stand and lower bottom base, and upper pillar stand bottom end is connected with lower bottom base, and upper pillar stand top is connect with upper beam, and lower bottom base bottom end is connect with lower beam.The detection device that the present invention is made up of each mechanism, it is ensured that the stability of imaging, apparatus structure is simple, and stability is strong, long service life, and easy to disassemble, maintenance, performance is stablized.
Description
Technical field
The present invention relates to non-destructive testing and measuring device field, especially a kind of non-contact testing device.
Background technique
Non-destructive testing and measuring device currently on the market, the problem of being primarily present are that testee shape is substantially
Rule, and the test of the arbitrary shape of the test for non-regular shape object, especially three-dimensional space is all the time without essence
Property break through.Framework used by existing test equipment is that frame is motionless, object rotation or mobile, in addition if testee
Self stability is weak, causes testing result precision low, repeatable not high, directly influences the validity and standard of detection and measurement
Exactness.
Summary of the invention
For prior art disadvantage, the invention discloses a kind of non-contact testing device, high-precision shifting whole up and down
It position and is not limited by object height, so that measurement accuracy is increased to micron order, any angle between 0~360 °, Ke Yibao
Demonstrate,prove the stability of imaging.
Its specific technical solution is as follows:
A kind of non-contact testing device, including rectangular frame (11), rectangular frame (11) be equipped with elevating mechanism (13),
Rotating mechanism (12), elevating mechanism (13) are mounted on rectangular frame (11), and rotating mechanism (12) is located in rectangular frame (11);
Rectangular frame (11) includes two columns (14), upper beam (15), lower beam (16), lower bottom base (18);Upper beam (15), lower cross
It is respectively equipped with a column (14) between beam (16) both ends, two columns (14), upper beam (15), lower beam (16), lower bottom base
(18) it organizes rectangular;
Elevating mechanism (13) is mounted on rectangular frame (11), and elevating mechanism (13) is located in upper beam (15) and lower beam
(16) between, elevating mechanism (13) includes ball-screw assembly (32), and ball-screw assembly (32) includes shaft coupling (33), lead screw
(34), lead nut (35) and fixture nut (36), screw rod (34) top are equipped with fixture nut (36);It is equipped in lower bottom base (18)
Servo motor 38, screw rod (34) bottom end connect shaft coupling (33), and shaft coupling (33) connects servo motor by lifting decelerator 39
38, screw rod (34) is equipped with lead nut (35), and lead nut (35) is slidably connected with screw rod (34);It is equipped with beside screw rod (34)
Parallel linear guide (37);
Rotating mechanism (12) includes moving beam (22), and moving beam (22) is slidably connected with linear guide (37), mobile
Crossbeam (22) both ends are equipped with lifting connector (20), are equipped with lead connector (31) on the outside of lifting connector (20), lead connection
Part (31) is solidly connected with lead nut (35);Moving beam (22) is equipped with rotary supporting wheel (19);On rotary supporting wheel (19)
Equipped with symmetrical emitter bracket 23 and reception device bracket 26, it is equipped with emitter 24 beside emitter bracket 23, is connect
Receiving apparatus bracket 26 is equipped with reception device 27, and emitter 24 and reception device 27 are symmetrical arranged;
Moving beam (22) is equipped with fixing seat (44), and fixing seat (44) is equipped with rotating electric machine (28) and rotation speed reducer
(29), rotating electric machine (28) output end passes through rotation speed reducer (29) connection pinion gear (21);Pinion gear (21) engagement connection rotation
Turn the gear on support wheel (19).
Further, in some embodiments, column (14) both ends are ipsilateral with upper beam (15), lower beam (16) respectively
End connection, column (14) they include upper pillar stand (17) and lower bottom base (18), and upper pillar stand (17) bottom end and lower bottom base (18) connect, on
Column (17) top is connect with upper beam (15), and lower bottom base (18) bottom end is connect with lower beam (16).
Further, in some embodiments, the elevating mechanism (13) is mounted on column (14), elevating mechanism (13) with
Fixture nut (36) and shaft coupling (33) are fulcrum, and fixture nut (36) is arranged on upper pillar stand (17);Servo motor 38 exports
End is connect by lifting decelerator 39 with screw rod (34) bottom;Linear guide (37) both ends respectively with upper beam (15) and lower beam
(16) it connects.
Further, in some embodiments, the linear guide (37) is mounted on rectangular frame on (11), linear guide
(37) sliding block 40 is equipped in, sliding block 40 is mounted on and is rotated by lead connector (31) connection traversing mechanism (12), sliding block 40
On the lead connector (31) that mechanism (12) links together, lead connector (31) connects lead screw by lead nut (35)
(34)。
Further, in some embodiments, the every end in rectangular frame (11) top is respectively provided with one group of top plate (30), and every group
Top plate (30) is corresponding linear guide (37), and one group of top plate (30) formation width is the commensurateiy wide guide groove of linear guide (37), top
Plate (30) withstands linear guide (37), is close to linear guide (37) with rectangular frame (11), completes the peace of linear guide (37)
Dress.
Further, in some embodiments, it is equipped with sliding block 40 on the outside of the lead connector (31), sliding block 40 is located at straight line
In guide rail (37);It goes up and down and connects lead connector (31) on the outside of connector (20) by adjusting pad 25.
Further, in some embodiments, the rotary supporting wheel (19) of the rotating mechanism (12) is equipped with clump weight
(42)。
The invention has the benefit that the detection device being made up of each mechanism, is equipped with the revolution branch with rotation function
Support, be rotated and it is whole move up and down, in longitudinal reciprocating mechanism, high-precision integral shift up and down and not
It is limited by object height, measurement accuracy is made to be increased to micron order, any angle between 0~360 °, it is ensured that the company of imaging
Continuous property and stability, using high-precision, integral shift, axial precision reach micron order, can carry out spiral and sweep equipment body up and down
It retouches, apparatus of the present invention structural stability is strong, long service life, and easy to disassemble, maintenance, performance is stablized, accurate data.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of the embodiment of the present invention;
Fig. 2 is the schematic diagram of the rectangular frame portion of the embodiment of the present invention;
Fig. 3 is the schematic diagram of the rotating electric machine part of the embodiment of the present invention;
Fig. 4 is the schematic diagram of the elevating mechanism part of the embodiment of the present invention;
Fig. 5 is the structure schematic diagram of the column portion of the embodiment of the present invention;
Fig. 6 is the schematic diagram of the rotating mechanism part of the embodiment of the present invention;
Fig. 7 is the schematic top plan view of the embodiment of the present invention;
Fig. 8 is the schematic diagram of part A in Fig. 7.
It is identified in figure:
Rectangular frame 11, rotating mechanism 12, elevating mechanism 13, column 14, upper beam 15, lower beam 16, upper pillar stand 17, under
Pedestal 18, rotary supporting wheel 19 go up and down connector 20, pinion gear 21, moving beam 22, emitter bracket 23, emitter
24, adjusting pad 25, reception device bracket 26, reception device 27, rotating electric machine 28, rotation speed reducer 29, top plate 30, lead connection
Part 31, ball-screw assembly 32, shaft coupling 33, screw rod 34, lead nut 35, fixture nut 36, linear guide 37, servo motor
38, lifting decelerator 39, sliding block 40, clump weight 42, fixing seat 44.
Specific embodiment
To further understand the features of the present invention, technological means and specific purposes achieved, function, below with reference to
The present invention is described in further detail in attached drawing and specific embodiment.
Attached drawing is please referred to, the present embodiment is a kind of non-contact testing device, high to precision and stability for object
Contactless inside and outside non-destructive testing and measurement comprising rectangular frame 11, elevating mechanism 13, rotating mechanism 12, elevator
Structure 13 is mounted on rectangular frame 11, and rotating mechanism 12 is located in rectangular frame 11.
Rectangular frame (11) includes two columns (14), upper beam (15), lower beam in one of the embodiments,
(16), lower bottom base (18);It is respectively equipped with a column (14) between upper beam (15), lower beam (16) both ends, two columns (14),
Upper beam (15), lower beam (16), lower bottom base (18) group are rectangular;Column (14) both ends respectively with upper beam (15), lower beam
(16) it is connected with side end, column (14) includes upper pillar stand (17) and lower bottom base (18), upper pillar stand (17) bottom end and lower bottom base
(18) it connects, upper pillar stand (17) top is connect with upper beam (15), and lower bottom base (18) bottom end is connect with lower beam (16).
Elevating mechanism (13) is mounted on column (14), and elevating mechanism 13 is mounted between upper beam 15 and lower beam 16,
Elevating mechanism 13 includes ball-screw assembly 32, and ball-screw assembly 32 includes screw rod 34, and 34 bottom end of screw rod is equipped with shaft coupling 33,
Shaft coupling 33 connects servo motor 38 by lifting decelerator 39, and 38 output end of servo motor passes through shaft coupling 33 and 34 bottom of screw rod
End connection;34 top of screw rod is equipped with lead nut 35, and lead nut 35 is slidably connected with screw rod 34;It is equipped with and fixes at the top of screw rod 34
Nut 36, fixture nut 36 are connect with screw rod 34;34 side of screw rod is equipped with linear guide 37,37 top of linear guide and bottom end point
It is not connected by screw to upper beam 15 and lower beam 16.
Rotating mechanism 12 includes moving beam 22, and moving beam 22 is slidably connected with linear guide 37, and 22 liang of moving beam
Bottom surface is held to be equipped with lifting connector 20, lifting connector 20 is connect by screw with moving beam 22, is gone up and down and is set on connector 20
There is lead connector 31, lead connector 31 is connect with lead nut 35;Moving beam 22 is equipped with rotary supporting wheel 19, mobile
Crossbeam 22 is equipped with fixing seat 44, and fixing seat 44 is connect by screw with moving beam 22, and fixing seat 44 is equipped with rotating electric machine
28 connect pinion gear 21, the gear of pinion gear 21 and rotary supporting wheel 19 with rotation speed reducer 29, rotation 29 output end of speed reducer
Engagement;Rotary supporting wheel 19 is equipped with emitter bracket 23, and emitter bracket 23 is connected by screw and rotary supporting wheel 19
It connects, emitter 24 is equipped with beside emitter bracket 23, rotary supporting wheel 19 is equipped with reception device bracket 26, reception device
Reception device 27 is equipped with beside bracket 26, emitter 24 and reception device 27 are symmetrical arranged.Pinion gear 21 and rotary supporting wheel
19 gear engagement, by the driving of rotating electric machine 28, rotating electric machine 28 drives pinion gear 21 to rotate, to drive and rotation branch
Support wheel 19 is connected to one piece of emitter bracket 23, emitter 24 and reception device bracket 26, reception device 27 is done and rotated
Movement.
Under the driving of the servo motor 38 in elevating mechanism 13, by shaft coupling 33, screw rod 34 is driven to rotate, by watching
The positive and negative rotation for taking motor 38 drives lead nut 35 on screw rod 34 to move up and down, lead nut 35 and leading in rotating mechanism 12
Journey connector 31 connects, so that rotating mechanism 12 moves in a straight line in linear guide 37 along the lead direction of screw rod 34, thus
Emitter bracket 23, emitter 24 and reception device bracket 26, reception device 27 is driven to move up and down.
The present embodiment is to meet the requirements, and rotating mechanism 12 is equipped with clump weight 42, plays balanced action.
Test program:
1, test control system: linkage control is carried out to mechanical movement new system according to technical solution, while by infrared, sound
The reception signalling of sound, ray, radar etc. is connected with Machinery Control System, constitutes system-wide control system;
2, the installation and imaging debugging of rectangular frame non-contact testing device;
3, other ancillary equipment fabrication and installation and debugging;
4, the workflow of test control system: detection device is in initial position.When receiving object signal, control
System issues signal to detection device and starts rotary scanning, rotates angle ± 360 °;After completing scanning, control system is to detection
Equipment issues lifting walk signal, and after reaching designated position, control system issues rotating signal to detection device again, so past
Multiple movement, until the position of institute's scanning in need is all scanned, detection device returns to the next object of initial position waiting
Entrance.
Beneficial effects of the present invention: the detection device being made of above each mechanism is equipped with the revolution branch with rotation function
Support, is rotated and entirety moves up and down.It is total with linear guide 37 and ball-screw in longitudinal reciprocating mechanism
At 32 and be equipped with servo motor 38 as power, guarantee overall operation stability and;In rotating mechanism, nibbled with pinion gear 21
Rotary supporting wheel 19 is closed as transmitting torque, and is equipped with power of the rotating electric machine 28 (servo motor) as driving revolving support,
Ensure in the range of+360 °~-360 °, the stability of imaging.Meanwhile using upper and lower integral shift, and error
The rotary motion in micron dimension is controlled, and accomplishes that two kinds of movements can carry out simultaneously, that is, when being rotated, is maintained like
Precision and stability.It with completely new vertical rotating structure and upper and lower integral shift, and is not limited by object height, so that will survey
Accuracy of measurement is increased to micron order.
A kind of rectangular frame structure non-contact testing device in one of the embodiments, with infrared, sound wave, ray,
Radar etc. is detection means, using by two columns 14, upper beam 15, lower beam 16, elevating mechanism 13, rotating mechanism 12, guiding
Structure, emitter 24 (test emission source: infrared, sound wave, ray, radar etc.) and the groups such as acceptor and other ancillary equipments
At device complete.Wherein, elevating mechanism 13 is separately mounted on two columns 14, and rotating mechanism 12 is connected to two elevating mechanisms
In 13, detection device is constituted by above each mechanism.In addition, perforation detection device, is also equipped with transmission device, by object to be detected
It send to detection place-centric.In order to improve the precision of detection data, tested object will remain static.Detection device is with red
Outside, the detecting devices such as sound wave, ray, radar carry out straight line from top to bottom and circumference range greater than 360 °~-360 ° to object
Comprehensive scanning.Data acquisition can be carried out to all test points of object in this way and accomplishes that a cloud computing is imaged, detection numerical value essence
It is quasi-.Equipment runs smoothly, precision is high.
This rectangular frame structure non-contact testing device, by taking rectangular frame as an example, by rectangular frame (11), elevating mechanism
(13), rotating mechanism (12) is constituted, and wherein elevating mechanism (13) is mounted on rectangular frame (11), and rotating mechanism (12) is mounted on
In rectangular frame (11).
Rectangular frame (11) is made of two columns (14), upper beam (15), lower beam (16), lower bottom base (18).Wherein
Upper beam (15) is one block of steel plate, and column (14) is made of upper pillar stand (17) and lower bottom base (18), and upper pillar stand (17) is by muti-piece steel
Plate is welded, and lower beam (16) is one block of steel plate, and lower bottom base (18) is welded by steel plate.They are connected with screw each other
It is connected together and is positioned with pin shaft, formed rectangular frame (11), it is ensured that the precision of dismounting.
Elevating mechanism (13) is made of a pair of of ball-screw assembly (32), and ball-screw assembly (32) includes shaft coupling
(33), lead screw (34), lead nut (35) and fixture nut (36);Auxiliary guiding components include linear guide (37), servo electricity
Machine (38), lifting decelerator (39).
Rotating mechanism (12) includes rotary supporting wheel (19), pinion gear (21), moving beam (22), lifting connector
(20), emitter bracket (23), emitter (24) and its adjusting pad (25), rotating electric machine (28), rotation speed reducer (29),
Reception device bracket (26), reception device (27).
Rectangular frame non-contact testing device in one of the embodiments, by rectangular frame (11), elevator
Structure (13), rotating mechanism (12) are constituted, and wherein elevating mechanism (13) is mounted on rectangular frame (11) side, rotating mechanism (12)
It is mounted in rectangular frame (11).
Rectangular frame (11) is made of two columns (14), upper beam (15), lower beam (16), lower bottom base (18).Wherein
Upper beam (15) is one block of steel plate, and column (14) is made of upper pillar stand 17 and lower bottom base (18), column (14) by plurality of steel plates (on
Column 17) it is welded, lower beam (16) is one block of steel plate, and lower bottom base (18) is welded by steel plate;They are to use each other
Screw is joined together to form rectangular frame (11), using positioning finger setting.
Elevating mechanism (13) subtracts including a pair of of ball-screw assembly (32), linear guide (37), servo motor (38), lifting
Fast machine (39), shaft coupling (33), ball-screw assembly (32) include shaft coupling (33), lead screw (34), lead nut (35), fix
Nut (36), elevating mechanism (13) for fulcrum, are mounted on rectangular frame (11) with fixture nut (36) and shaft coupling (33).Directly
Line guide rail (37) is used as director element, and linear guide (37) is mounted on rectangular frame on (11), is equipped in linear guide (37)
Sliding block 40, sliding block 40 is by lead connector (31) connection traversing mechanism (12), and further, sliding block 40 is mounted on and rotating mechanism
(12) on the lead connector (31) to be linked together with bolt and positioning pin, lead connector (31) passes through lead nut (35)
It connects lead screw (34), in this way, rotating mechanism (12) can be under the guiding role of linear guide (37), by elevating mechanism (13)
Servo motor (38) driving, drive lead screw (34) rotation, by the lead nut (35) on lead screw (34) and be installed on
Lead connector (31) on rotating mechanism (12), moves up and down.
Rotating mechanism (12) by rotary supporting wheel (19), pinion gear (21), moving beam (22), lifting connector (20),
Emitter bracket (23), emitter (24) and its adjusting pad (25), rotation speed reducer (29), receive rotating electric machine (28)
Appliance stand (26), reception device (27) are formed.Moving beam (22) is the component welded with steel plate, is gone up and down connector (20)
With screw be connected to moving beam (22) both ends of the surface and with positioning finger setting, to installation lead nut (35) reserve mounting hole,
So that elevating movement is realized in lead nut (35) and the cooperation of screw rod 34;Moving beam (22) is equipped with rotation speed reducer (29) and revolves
Rotating motor (28), rotation speed reducer (29) goes out shaft end and connects pinion gear (21), in same level, in moving beam (22)
It centered on the heart, is equipped on moving beam (22) rotatable rotary supporting wheel (19), pinion gear (21) and rotary supporting wheel
(19) outer tooth engagement drives the transmitting for being connected to one piece with rotary supporting wheel (19) to fill by the driving of rotating electric machine (28)
Set bracket (23), emitter (24) and reception device bracket (26), reception device (27) makes rotating motion.
Elevating mechanism (13) is associated with rotating mechanism (12): when moving up and down, guiding parts includes linear guide
(37) (double setting), the lead nut (35) on lead screw (34) and the lead connector being installed on rotating mechanism (12)
(31), this is the major part for being connected rotating mechanism (12) and making lifting linear motion;The lead being installed on rotating mechanism (12)
Connector (31) is connect with the lead nut (35) in the ball-screw assembly (32) on elevating mechanism (13) with screw.That is: it revolves
Rotation mechanism (12) passes through the lead nut (35) in the lead connector (31) and ball-screw assembly (32) being mounted thereon
Connection, so that rotating mechanism (12) is that guiding moves in a straight line along the lead direction of screw rod 34, with linear guide (37).Upper beam
(15) bottom is equipped with top plate (30).
Elevating mechanism (13) is associated with rectangular frame (11): shaft coupling (33) is mounted on rectangle by fixture nut (36)
On frame (11), lead screw (34) is mounted in shaft coupling (33).Purpose is the rotation for making rotating mechanism (12) to pass through lead screw (34),
It drives rotating mechanism (12) along the guiding of linear guide (37), does straight line elevating movement.
Rotating mechanism (12) is associated with rectangular frame (11): rotating mechanism (12) must do straight line liter along linear guide (37)
Drop movement, top plate (30) are mounted on rectangular frame (11), and rectangular frame (11) every end in top is respectively provided with one group of top plate (30), often
Group top plate (30) is corresponding linear guide (37), and one group of top plate (30) formation width is the commensurateiy wide guide groove of linear guide (37),
Top plate (30) withstands linear guide (37), is close to linear guide (37) with rectangular frame (11), completes linear guide (37)
Installation.
The transmission rotating electric machine (28) of rotating mechanism (12) is mounted on moving beam (22), moving beam (22) and installation
Rotary supporting wheel (19) thereon is connected with screw, and rotating electric machine (28) drives rotary supporting wheel (19) rotation by pinion gear (21)
Turn.The emitter bracket (23), emitter (24) and the reception device bracket (26) that are mounted on rotary supporting wheel (19) connect
Receiving apparatus (27) completes spinning movement.
Elevating mechanism (13) is mounted on rectangular frame (11) by shaft coupling (33) and fixture nut (36), passes through shaft coupling
Device (33) drives lead screw (34) rotation under the driving of servo motor (38).By the positive and negative rotation of the servo motor (38),
The lead nut (35) and by coupled rotating mechanism (12) can do up and down linear motion, to drive emitter
Bracket (23), emitter (24) and reception device bracket (26), reception device (27) move up and down.
In the specific use process, detection device is in initial position, places testee, when receiving object signal
When, control system issues signal to detection device and starts rotary scanning, rotates angle ± 360 °;After completing scanning, control system
It unites and issues lifting walk signal to detection device, after reaching designated position, control system issues rotation letter to detection device again
Number, and so on move, until scanning in need position it is all scanned, detection device return to initial position wait under
The entrance of one object.
The present invention, which meets, solves the object contactless inside and outside non-destructive testing and measurement high to precision and stability, together
When also solve the problems, such as that the change in size range of testee is larger, object height is limited, especially testee is static
The field detected and measured in state, has a wide range of applications.
Above embodiments only express one embodiment of the present invention, and the description thereof is more specific and detailed, but can not
Therefore limitations on the scope of the patent of the present invention are interpreted as.It should be pointed out that for those of ordinary skill in the art,
Without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to protection model of the invention
It encloses.Therefore, the scope of protection of the patent of the invention shall be subject to the appended claims.
Claims (7)
1. a kind of non-contact testing device, including rectangular frame (11), which is characterized in that the rectangular frame (11) is equipped with
Elevating mechanism (13), rotating mechanism (12), elevating mechanism (13) are mounted on rectangular frame (11), and rotating mechanism (12) is located at square
In shape frame (11);
Rectangular frame (11) includes two columns (14), upper beam (15), lower beam (16), lower bottom base (18);Upper beam (15),
It is respectively equipped with a column (14) between lower beam (16) both ends, two columns (14), upper beam (15), lower beam (16), bottom
Seat (18) group is rectangular;
Elevating mechanism (13) is mounted on rectangular frame (11), and elevating mechanism (13) is located in upper beam (15) and lower beam (16)
Between, elevating mechanism (13) includes ball-screw assembly (32), and ball-screw assembly (32) includes shaft coupling (33), lead screw
(34), lead nut (35) and fixture nut (36), screw rod (34) top are equipped with fixture nut (36);It is equipped in lower bottom base (18)
Servo motor 38, screw rod (34) bottom end connect shaft coupling (33), and shaft coupling (33) connects servo motor by lifting decelerator 39
38, screw rod (34) is equipped with lead nut (35), and lead nut (35) is slidably connected with screw rod (34);It is equipped with beside screw rod (34)
Parallel linear guide (37);
Rotating mechanism (12) includes moving beam (22), and moving beam (22) is slidably connected with linear guide (37), moving beam
(22) both ends are equipped with lifting connector (20), are equipped with lead connector (31) on the outside of lifting connector (20), lead connector
(31) it is solidly connected with lead nut (35);Moving beam (22) is equipped with rotary supporting wheel (19);Rotary supporting wheel is set on (19)
There are symmetrical emitter bracket 23 and reception device bracket 26, is equipped with emitter 24 beside emitter bracket 23, receives
Appliance stand 26 is equipped with reception device 27, and emitter 24 and reception device 27 are symmetrical arranged;
Moving beam (22) is equipped with fixing seat (44), and fixing seat (44) is equipped with rotating electric machine (28) and rotation speed reducer
(29), rotating electric machine (28) output end passes through rotation speed reducer (29) connection pinion gear (21);Pinion gear (21) engagement connection rotation
Turn the gear on support wheel (19).
2. a kind of non-contact testing device according to claim 1, which is characterized in that column (14) the both ends difference
It is connect with upper beam (15), lower beam (16) with side end, column (14) includes upper pillar stand (17) and lower bottom base (18), upper pillar stand
(17) bottom end and lower bottom base (18) connection, upper pillar stand (17) top are connect with upper beam (15), lower bottom base (18) bottom end and lower cross
Beam (16) connection.
3. a kind of non-contact testing device according to claim 1, which is characterized in that elevating mechanism (13) installation
On column (14), with fixture nut (36) and shaft coupling (33) for fulcrum, fixture nut (36) setting exists elevating mechanism (13)
On upper pillar stand (17);38 output end of servo motor is connect by lifting decelerator 39 with screw rod (34) bottom;Linear guide (37)
Both ends are connect with upper beam (15) and lower beam (16) respectively.
4. a kind of non-contact testing device according to claim 1, which is characterized in that linear guide (37) installation
On rectangular frame on (11), sliding block 40 is equipped in linear guide (37), sliding block 40 passes through lead connector (31) connection rotation
Mechanism (12), sliding block 40 are mounted on the lead connector (31) to link together with rotating mechanism (12), lead connector
(31) pass through lead nut (35) connection lead screw (34).
5. a kind of non-contact testing device according to claim 1, which is characterized in that rectangular frame (11) top
Every end is respectively provided with one group of top plate (30), and top plate (30) is corresponding linear guide (37), and one group of top plate (30) formation width is led for straight line
The commensurateiy wide guide groove of rail (37), top plate (30) withstand linear guide (37), lean on linear guide (37) with rectangular frame (11)
Tightly, the installation of linear guide (37) is completed.
6. a kind of non-contact testing device according to claim 1, which is characterized in that the lead connector (31) is outside
Side is equipped with sliding block 40, and sliding block 40 is located in linear guide (37);It goes up and down and connects lead on the outside of connector (20) by adjusting pad 25
Connector (31).
7. a kind of non-contact testing device according to claim 1, which is characterized in that the rotation of the rotating mechanism (12)
Turn support wheel (19) equipped with clump weight (42).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201811324967.XA CN109854898A (en) | 2018-11-08 | 2018-11-08 | A kind of non-contact testing device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201811324967.XA CN109854898A (en) | 2018-11-08 | 2018-11-08 | A kind of non-contact testing device |
Publications (1)
Publication Number | Publication Date |
---|---|
CN109854898A true CN109854898A (en) | 2019-06-07 |
Family
ID=66889921
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201811324967.XA Pending CN109854898A (en) | 2018-11-08 | 2018-11-08 | A kind of non-contact testing device |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN109854898A (en) |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110361731A (en) * | 2019-07-22 | 2019-10-22 | 芜湖文青机械设备设计有限公司 | A kind of geological radar device |
CN110361732A (en) * | 2019-07-22 | 2019-10-22 | 芜湖文青机械设备设计有限公司 | A kind of radar detection apparatus for internal structure of body detection |
CN110529712A (en) * | 2019-09-24 | 2019-12-03 | 吉林大学 | A kind of long-stalked crop operation area recessiveness people and animals' detection alarm equipment |
CN112408099A (en) * | 2020-11-26 | 2021-02-26 | 重庆市齐垚机电设备有限公司 | Pipe rolling monitoring system, pipe rolling device and pipe rolling method |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102527563A (en) * | 2012-01-10 | 2012-07-04 | 江苏长虹汽车装备集团有限公司 | Travel driving device for spraying robot |
WO2014129919A1 (en) * | 2013-02-20 | 2014-08-28 | Закрытое Акционерное Общество "Импульс" | Vertically moving stand for x-ray apparatus |
CN105372270A (en) * | 2015-12-18 | 2016-03-02 | 丹东奥龙射线仪器集团有限公司 | Gantry-type X-ray nondestructive detection device |
CN205691144U (en) * | 2016-06-27 | 2016-11-16 | 淮北师范大学 | A kind of synchronization lifting mechanism for measuring machinery |
-
2018
- 2018-11-08 CN CN201811324967.XA patent/CN109854898A/en active Pending
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102527563A (en) * | 2012-01-10 | 2012-07-04 | 江苏长虹汽车装备集团有限公司 | Travel driving device for spraying robot |
WO2014129919A1 (en) * | 2013-02-20 | 2014-08-28 | Закрытое Акционерное Общество "Импульс" | Vertically moving stand for x-ray apparatus |
CN105372270A (en) * | 2015-12-18 | 2016-03-02 | 丹东奥龙射线仪器集团有限公司 | Gantry-type X-ray nondestructive detection device |
CN205691144U (en) * | 2016-06-27 | 2016-11-16 | 淮北师范大学 | A kind of synchronization lifting mechanism for measuring machinery |
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110361731A (en) * | 2019-07-22 | 2019-10-22 | 芜湖文青机械设备设计有限公司 | A kind of geological radar device |
CN110361732A (en) * | 2019-07-22 | 2019-10-22 | 芜湖文青机械设备设计有限公司 | A kind of radar detection apparatus for internal structure of body detection |
CN110361732B (en) * | 2019-07-22 | 2021-07-27 | 芜湖文青机械设备设计有限公司 | Radar detection device for detecting internal structure of object |
CN110361731B (en) * | 2019-07-22 | 2021-07-27 | 芜湖文青机械设备设计有限公司 | Geological radar device |
CN110529712A (en) * | 2019-09-24 | 2019-12-03 | 吉林大学 | A kind of long-stalked crop operation area recessiveness people and animals' detection alarm equipment |
CN110529712B (en) * | 2019-09-24 | 2020-10-16 | 吉林大学 | Recessive human and animal detection alarm device for high-stalk crop operation area |
CN112408099A (en) * | 2020-11-26 | 2021-02-26 | 重庆市齐垚机电设备有限公司 | Pipe rolling monitoring system, pipe rolling device and pipe rolling method |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN109854898A (en) | A kind of non-contact testing device | |
CN204128509U (en) | A kind of diameter measurement device | |
CN106053062A (en) | RV reducer comprehensive test bench | |
CN103900509A (en) | Device capable of achieving multidirectional detection | |
CN103148777B (en) | Connecting rod hole parallelism detecting system and detecting method based on eddy current transducer | |
CN105547161B (en) | A kind of high-precision flexible measuring device and method for linear measure longimetry | |
CN104697453A (en) | High-precision automatic rope length measuring device | |
CN107271554A (en) | A kind of Non-Destructive Testing synchronous scanning devices, systems, and methods | |
CN105589062B (en) | A kind of photoelectric detection equipment dynamic target tracking accuracy test device | |
CN103616128A (en) | Six-dimension force sensor calibration device and loading unit thereof | |
CN110031352A (en) | Rockwell apparatus Standard Machine and hardness calibration method | |
CN104515490B (en) | A kind of convertible online external diameter self-operated measuring unit | |
CN207439384U (en) | Major diameter sealing ring internal-and external diameter precision measuring instrument | |
CN107917681A (en) | High voltage isolator angle of eccentricity measuring device and method based on toothed belt transmission | |
CN106092407A (en) | A kind of Harmonic Gears Tooth friction force based on photoelastic coating method test system and method | |
CN205879529U (en) | RV reduction gear combined test stand | |
CN102221335A (en) | Positioning system and method for engineering machine | |
CN106017922A (en) | Simple test device and simple test method for reducer repeated positioning accuracy | |
CN204214792U (en) | The device that worm screw defect detects automatically | |
CN216483692U (en) | Automatic tapping device for metering and detecting pointer type pressure gauge | |
CN104748651A (en) | Method and device for detecting backlash amount of transmission mechanism | |
CN103292702B (en) | A kind of silicon rod physical dimension measuring instrument | |
CN209960152U (en) | Lifting mechanism of non-contact testing device | |
CN209960151U (en) | Rotating mechanism of non-contact testing device | |
CN202033006U (en) | Location system of engineering machinery |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
PB01 | Publication | ||
PB01 | Publication | ||
SE01 | Entry into force of request for substantive examination | ||
SE01 | Entry into force of request for substantive examination |