CN208635991U - A kind of mechanical oscillation experimental rig - Google Patents
A kind of mechanical oscillation experimental rig Download PDFInfo
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- CN208635991U CN208635991U CN201820777135.2U CN201820777135U CN208635991U CN 208635991 U CN208635991 U CN 208635991U CN 201820777135 U CN201820777135 U CN 201820777135U CN 208635991 U CN208635991 U CN 208635991U
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- mechanical oscillation
- test base
- vibrating
- experimental rig
- slide
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Abstract
The utility model discloses a kind of mechanical oscillation experimental rig, including test base, the front side of test base is equipped with transducer detecting mechanism, and the middle part of test base is equipped with testing stand, and the rear side of test base is equipped with mechanical oscillation mechanism and clamp system;Transducer detecting mechanism includes contact sensor, detector and sensor installation seat, and sensor installation seat is equipped with contact sensor, and the end of contact sensor is equipped with detector;Mechanical oscillation mechanism includes vibrating motor, vibrating shaft and vibrating wheels, and vibrating motor is connected with vibrating shaft, vibrates axis connection vibrating wheels, and vibrating wheels are located at the top of testing stand;Clamp system includes clamping elbow, gripping block and contact roller, is clamped there are two elbow settings, and two clamp the both ends that elbow is respectively arranged in test base, and gripping block is set on V-type seat, and the lower part of gripping block is equipped with contact roller.The apparatus structure is compact, and flexibly, pressuring action is strong, effect is good, conveniently smoothly completes vibration test, improves test efficiency for connection.
Description
Technical field
The utility model relates to a kind of mechanical oscillation experimental rigs.
Background technique
Vibration test is the important process that producer guarantees product quality, need to be anti-by mechanical structure when product export
Performance simulation experiment of shaking carries out various vibration simulation tests to product, to meet the factory requirement of product.Mechanical structure vibration resistance
Energy Simulation Experimental Platform mainly includes calculation control unit, sensing unit, execution unit and mechanical vibration test-bed composition.Its
In, mechanical vibration test-bed is the core component of entire experiment porch, by table top, pedestal, mesa supports mechanism, guiding
Mechanism, vibration excitor, transmission device and hydraulic control device composition;Existing vibration rig is easy to appear in actual operation
The fixed unstable situation of workpiece, it is inaccurate so as to cause measurement, while the situation that noise is larger.
Utility model content
The purpose of this utility model is that the deficiencies in the prior art, provide a kind of mechanical oscillation experimental rig.
In order to solve the above-mentioned technical problem, it adopts the following technical scheme that
A kind of mechanical oscillation experimental rig, including test base, the front side of test base are equipped with transducer detecting mechanism, examination
The middle part for testing pedestal is equipped with testing stand, and the both ends of testing stand are equipped with V-type seat, the rear side of test base be equipped with mechanical oscillation mechanism and
Clamp system;Transducer detecting mechanism includes contact sensor, detector and sensor installation seat, and sensor installation seat is equipped with
The end of contact sensor, contact sensor is equipped with detector;Mechanical oscillation mechanism includes vibrating motor, vibrating shaft and vibration
Wheel, vibrating motor are connected with vibrating shaft, vibrate axis connection vibrating wheels, and vibrating wheels are located at the top of testing stand;Clamp system includes
Elbow, gripping block and contact roller are clamped, is clamped there are two elbow settings, two clamp the both ends that elbow is respectively arranged in test base,
Gripping block is set on V-type seat, and the lower part of gripping block is equipped with contact roller.
Further, the lower part of sensor installation seat is equipped with slide assemblies, and slide assemblies include horizontally slip component and front and back
Slide assemblies, the component that horizontally slips are set on test base, are slid back and forth component and are set to and horizontally slip on component, and front and back is sliding
Dynamic component is equipped with sensor installation seat.
Further, the component that horizontally slips includes left and right rail and left and right sliding block, and left and right rail is fixedly installed in test base
On, left and right rail is equipped with left and right sliding block, and left and right sliding block is equipped with left and right slide, and the both ends of left and right rail are equipped with left and right positioning
Pin.
Further, test base is equipped with a row or so fixation hole, and left and right slide is equipped with left and right fixed pin, and left and right is fixed
Hole and left and right fixed pin match.
Further, sliding back and forth component includes front and rear guide rails and front and back sliding block, and front and rear guide rails are fixedly installed in left and right slide
On, front and rear guide rails are equipped with front and back sliding block, and front and back sliding block connects sensor installation seat, and the both ends of front and rear guide rails are positioned equipped with front and back
Pin.
Further, left and right slide is equipped with front and back fixation hole, and sensor installation seat is equipped with front and back fixed pin, and front and back is fixed
Hole and front and back fixed pin match.
Further, vibrating motor is connected with elevating mechanism, and elevating mechanism includes air cylinder fixed plate, lifting support, lifting air
Cylinder and lifting slide bar, air cylinder fixed plate are equipped with lifting cylinder, and lifting cylinder is connected with lifting support, lifting support connection vibration
Motor, air cylinder fixed plate are equipped with lifting slide bar.
Further, the lower part for clamping elbow, which is equipped with, clamps mounting base, clamps mounting base and is set on test base.
As a result of the above technical solution, the following beneficial effects are obtained:
The utility model is a kind of mechanical oscillation experimental rig, and the apparatus structure is compact, connection flexibly, pressuring action is strong,
Effect is good, conveniently smoothly completes vibration test, improves test efficiency.
Before vibration test starts, test block is stably placed on testing stand, lower part is just stuck in the card slot of V-type seat
Interior, top forms upper two point contacts of V-type seat, one point of contact roller by the effect of clamping elbow, gripping block and contact roller
Contact, so that test block fixation is tighter, will not alter to form the clamping of three-point mount during vibration experiment
The phenomenon that dynamic or loosening, it ensure that vibration test smoothly completes and test block specification is unlimited, expand use scope.
During vibration test, by setting contact sensor and detector, contact sensor uses OMRON plants of formula meetings
The product of society, model ZX-TDS01, detector use the product of OMRON Co., Ltd., model D5SN-TF1, sensing contact
Device uses contact, and front end uses flat detector, to absorb up-down error, improves detection accuracy.
Detailed description of the invention
The utility model is described in further detail with reference to the accompanying drawing:
Fig. 1 is a kind of structural schematic diagram of mechanical oscillation experimental rig in the utility model;
Fig. 2 is the structural schematic diagram of mechanical oscillation mechanism in the utility model;
Fig. 3 is the structural schematic diagram of transducer detecting mechanism in the utility model;
Fig. 4 is the structural schematic diagram that clamp system is connect with V-type seat in the utility model;
Fig. 5 is to clamp elbow in the utility model to be set to the structural schematic diagram clamped in mounting base.
In figure: 1- test base;2- transducer detecting mechanism;3- testing stand;4-V type seat;5- mechanical oscillation mechanism;6- folder
Tight mechanism;7- contact sensor;8- detector;9- sensor installation seat;10- vibrating motor;11- vibrating shaft;12- vibrating wheels;
13- clamps elbow;14- gripping block;15- contact roller;16- horizontally slips component;17- slides back and forth component;18- left and right rail;
19- or so sliding block;20- or so slide;21- or so positioning pin;22- front and rear guide rails;Sliding block before and after 23-;Positioning pin before and after 24-;
25- or so fixation hole;26- or so fixed pin;Fixation hole before and after 27-;Fixed pin before and after 28-;29- air cylinder fixed plate;30- lifting
Bracket;31- lifting cylinder;32- goes up and down slide bar;33- clamps mounting base.
Specific embodiment
As shown in Figures 1 to 5, a kind of mechanical oscillation experimental rig, including test base 1, the front side of test base 1 are equipped with
Transducer detecting mechanism 2, the middle part of test base 1 are equipped with testing stand 3, and the both ends of testing stand 3 are equipped with V-type seat 4, test base 1
Rear side be equipped with mechanical oscillation mechanism 5 and clamp system 6.
Transducer detecting mechanism 2 includes contact sensor 7, detector 8 and sensor installation seat 9, on sensor installation seat 9
Equipped with contact sensor 7, the end of contact sensor 7 is equipped with detector 8.By setting contact sensor 7 and detector 8, connect
The product that sensor 7 uses OMRON Co., Ltd., model ZX-TDS01 are touched, detector 8 uses the production of OMRON Co., Ltd.
Product, model D5SN-TF1, contact sensor 7 use contact, and front end uses flat detector 8, to absorb up-down error,
Improve detection accuracy.
Mechanical oscillation mechanism 5 includes vibrating motor 10, vibrating shaft 11 and vibrating wheels 12, and vibrating motor 10 is connected with vibrating shaft
11, vibrating shaft 11 connects vibrating wheels 12, and vibrating wheels 12 are located at the top of testing stand 3.Vibrating motor 10 is connected with elevating mechanism, rises
Descending mechanism includes air cylinder fixed plate 29, lifting support 30, lifting cylinder 31 and lifting slide bar 32, and air cylinder fixed plate 29, which is equipped with, to be risen
Sending down abnormally ascending cylinder 31, lifting cylinder 31 are connected with lifting support 30,30 connecting vibration motor 10 of lifting support, set in air cylinder fixed plate 29
There is lifting slide bar 32.The application is provided with elevating mechanism in the top of vibrating motor 10, facilitates and drives mechanical oscillation mechanism 5 whole
Elevating movement is carried out, not only can be convenient the clamping installation of clamp system 6, and test of different specifications and sizes can be matched
Part.
Clamp system 6 includes clamping elbow 13, gripping block 14 and contact roller 15, is clamped there are two the settings of elbow 13, two folders
Tight elbow 13 is respectively arranged in the both ends of test base 1, and gripping block 14 is set on V-type seat 4, and the lower part of gripping block 14 is equipped with contact
Idler wheel 15.Test block is stably placed on testing stand 3, lower part is just stuck in the card slot of V-type seat 4, and top is by clamping elbow
13, the effect of gripping block 14 and contact roller 15, formed V-type seat 4 on two point contacts, 15 1 point contacts of contact roller, from
And form the clamping of three-point mount so that test block fixation it is tighter, will not occur during vibration experiment play or
The phenomenon that loosening, ensure that vibration test smoothly completes and test block specification is unlimited, expand use scope.
In the present embodiment, the lower part of sensor installation seat 9 is equipped with slide assemblies, and slide assemblies include the component that horizontally slips
16 and component 17 is slid back and forth, the component 16 that horizontally slips is set on test base 1, is slid back and forth component 17 and is set to left and right and slides
On dynamic component 16, component 17 is slid back and forth equipped with sensor installation seat 9.It is horizontally slipped and component 16 and is slid back and forth by setting
Component 17 makes the adjustable adjusting in the position of transducer detecting mechanism 2, contact sensor 7 is facilitated to detect test of different specifications and sizes
Part.
In the present embodiment, the component 16 that horizontally slips includes left and right rail 18 and left and right sliding block 19, and left and right rail 18 is fixed
It is installed on test base 1, left and right rail 18 is equipped with left and right sliding block 19, and left and right sliding block 19 is equipped with left and right slide 20, left and right
The both ends of guide rail 18 are equipped with left and right positioning pin 21, by the way that left and right positioning pin 21 is arranged, control the stroke of left and right sliding block 19.
In the present embodiment, test base 1 is equipped with a row or so fixation hole 25, and left and right slide 20 is equipped with left and right and fixes
Pin 26, left and right fixation hole 25 and left and right fixed pin 26 match.By setting left and right fixation hole 25 and left and right fixed pin 26, make whole
A device is in carrying out test block detection process, and the movement on left and right directions will not occur for contact sensor 7, to influence to test
Precision.
In the present embodiment, sliding back and forth component 17 includes front and rear guide rails 22 and front and back sliding block 23, and front and rear guide rails 22 are fixed
It is installed on left and right slide 20, front and rear guide rails 22 are equipped with front and back sliding block 23, and front and back sliding block 23 connects sensor installation seat 9, preceding
The both ends of rear rail 22 are equipped with front and back positioning pin 24.Pass through setting front and back positioning pin 24, the stroke of control front and back sliding block 23.
In the present embodiment, left and right slide 20 is equipped with front and back fixation hole 27, and sensor installation seat 9 is fixed equipped with front and back
Pin 28, front and back fixation hole 27 and front and back fixed pin 28 match.By setting front and back fixation hole 27 and front and back fixed pin 28, make whole
A device is in carrying out test block detection process, and the movement on front-rear direction will not occur for contact sensor 7, to influence to test
Precision.
In the present embodiment, the lower part for clamping elbow 13, which is equipped with, clamps mounting base 33, clamps mounting base 33 and is set to test bottom
On seat 1.Mounting base 33 is clamped by setting, it is convenient that clamping elbow 13 is fixed.
The above are only specific embodiments of the present invention, but the technical characteristics of the utility model is not limited thereto.Appoint
How based on the utility model, to solve essentially identical technical problem, essentially identical technical effect is realized, madely
Simple change, equivalent replacement or modification etc., are all covered by among the protection scope of the utility model.
Claims (8)
1. a kind of mechanical oscillation experimental rig, including test base, it is characterised in that: the front side of the test base is equipped with sensing
Device testing agency, the middle part of the test base are equipped with testing stand, and the both ends of the testing stand are equipped with V-type seat, the test bottom
The rear side of seat is equipped with mechanical oscillation mechanism and clamp system;The transducer detecting mechanism include contact sensor, detector and
Sensor installation seat, the sensor installation seat are equipped with contact sensor, and the end of the contact sensor is equipped with detector;
The mechanical oscillation mechanism includes vibrating motor, vibrating shaft and vibrating wheels, and vibrating motor is connected with vibrating shaft, and the vibrating shaft connects
The vibrating wheels are connect, the vibrating wheels are located at the top of the testing stand;The clamp system includes clamping elbow, gripping block and connecing
Idler wheel is touched, there are two the clamping elbow settings, and two clamp the both ends that elbow is respectively arranged in the test base, the gripping block
It is set on the V-type seat, the lower part of the gripping block is equipped with contact roller.
2. a kind of mechanical oscillation experimental rig according to claim 1, it is characterised in that: under the sensor installation seat
Portion is equipped with slide assemblies, and the slide assemblies include horizontally slipping component and to slide back and forth component, and the component that horizontally slips is set
Be placed on the test base, it is described slide back and forth component be set to it is described horizontally slip on component, it is described to slide back and forth component
It is equipped with the sensor installation seat.
3. a kind of mechanical oscillation experimental rig according to claim 2, it is characterised in that: the component that horizontally slips includes
Left and right rail and left and right sliding block, the left and right rail are fixedly installed on the test base, and the left and right rail is equipped with institute
Left and right sliding block is stated, the left and right sliding block is equipped with left and right slide, and the both ends of the left and right rail are equipped with left and right positioning pin.
4. a kind of mechanical oscillation experimental rig according to claim 3, it is characterised in that: the test base is equipped with one
Left and right fixation hole is arranged, the left and right slide is equipped with left and right fixed pin, the left and right fixation hole and the left and right fixed pin phase
Match.
5. a kind of mechanical oscillation experimental rig according to claim 4, it is characterised in that: the component that slides back and forth includes
Front and rear guide rails and front and back sliding block, the front and rear guide rails are fixedly installed on the left and right slide, and the front and rear guide rails are equipped with institute
Front and back sliding block is stated, the front and back sliding block connects the sensor installation seat, and the both ends of the front and rear guide rails are equipped with front and back positioning pin.
6. a kind of mechanical oscillation experimental rig according to claim 5, it is characterised in that: before the left and right slide is equipped with
Fixation hole afterwards, the sensor installation seat are equipped with front and back fixed pin, the front and back fixation hole and the front and back fixed pin phase
Match.
7. a kind of mechanical oscillation experimental rig according to claim 1, it is characterised in that: the vibrating motor is connected with liter
Descending mechanism, the elevating mechanism include air cylinder fixed plate, lifting support, lifting cylinder and lifting slide bar, the air cylinder fixed plate
It is equipped with the lifting cylinder, the lifting cylinder is connected with the lifting support, and the lifting support connects the vibration electricity
Machine, the air cylinder fixed plate are equipped with the lifting slide bar.
8. a kind of mechanical oscillation experimental rig according to claim 1, it is characterised in that: the lower part for clamping elbow is equipped with
Mounting base is clamped, the clamping mounting base is set on the test base.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820777135.2U CN208635991U (en) | 2018-05-23 | 2018-05-23 | A kind of mechanical oscillation experimental rig |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820777135.2U CN208635991U (en) | 2018-05-23 | 2018-05-23 | A kind of mechanical oscillation experimental rig |
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Publication Number | Publication Date |
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CN208635991U true CN208635991U (en) | 2019-03-22 |
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ID=65733253
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CN201820777135.2U Active CN208635991U (en) | 2018-05-23 | 2018-05-23 | A kind of mechanical oscillation experimental rig |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN117140189A (en) * | 2023-11-01 | 2023-12-01 | 山东省产品质量检验研究院 | Machining vibration detection device |
-
2018
- 2018-05-23 CN CN201820777135.2U patent/CN208635991U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN117140189A (en) * | 2023-11-01 | 2023-12-01 | 山东省产品质量检验研究院 | Machining vibration detection device |
CN117140189B (en) * | 2023-11-01 | 2024-02-02 | 山东省产品质量检验研究院 | Machining vibration detection device |
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