CN207569155U - The swing mechanism of ball stud swing torque detection device - Google Patents
The swing mechanism of ball stud swing torque detection device Download PDFInfo
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- CN207569155U CN207569155U CN201721681403.2U CN201721681403U CN207569155U CN 207569155 U CN207569155 U CN 207569155U CN 201721681403 U CN201721681403 U CN 201721681403U CN 207569155 U CN207569155 U CN 207569155U
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- swing
- sliding
- sliding panel
- ball
- sliding rail
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Abstract
The utility model discloses a kind of swing mechanisms of ball stud swing torque detection device, including driving wheel, ball-screw, sliding block, transfer block, swing torsion sensor, control platform, straight line fork and swing clamping piece;One end of the ball-screw and the driving wheel are coaxially connected, and the other end of the ball-screw is threadedly coupled with the sliding block;Sliding rail is set in the control platform, and the sliding block is slidably disposed on the sliding rail;The transfer block is slidably disposed on the sliding rail, and swing torsion sensor is provided between the sliding block and the transfer block;The swing clamping piece can grip ball stud.It swings clamping piece to clamp ball stud, using the threaded connection of ball-screw and sliding block, while radial load is provided, setting swings torsion sensor between sliding block and transfer block, the torsion of ball stud is detected, so as to fulfill the swing detected to ball stud torsion, improves detection efficiency.
Description
Technical field
The utility model is related to automobile equipment detection field more particularly to a kind of pendulum of ball stud swing torque detection device
Motivation structure.
Background technology
Security performance for auto-parts during the continuous development of auto industry is put forward higher requirements, especially
It is that requirement to vehicle key part has pole into perfect requirement;As being similar to the component of rod category swung around certain fixed point, class
The ball stud being similar in bulb assembly, and this kind of part largely assembles on automobile;And the detection of this kind of part is existing
It is the qualification that ball stud and other parts are assembled to rear test product in technology, is unfavorable for finding ball in this assembly
Head assembly there are the problem of, be less useful for the replacement to bad product.
As shown in Figs. 1-2, ball stud 1 includes bulb 2 and ball rod 3, and ball rod 3 is integrally formed with bulb 2;To ball stud
1 test is that the test being placed in ball stud 1 in ball-head cover 4 is divided into axial force loading and the loading of radial load, the mesh done so
Be in order to simulate the common stressing conditions in practical applications of ball stud 1, so as to obtain more true data;And to ball
Head pin 1 needs simulation ball stud 1 to be swung after carrying out axially loaded power and radial load loading, is surveyed so as to swing torsion
Examination;But do not propose the mechanism swung to ball stud 1 in the prior art.
Utility model content
The utility model aim is to provide a kind of swing mechanism of ball stud swing torque detection device, solves the prior art
In there is no for ball stud torsion detection when swing mechanism.
The utility model solves technical problem and adopts the following technical scheme that:A kind of pendulum of ball stud swing torque detection device
Motivation structure including driving wheel, ball-screw, sliding block, transfer block, swings torsion sensor, control platform, straight line fork and swing
Clamping piece;The driving wheel is spindle rotationally arranged in control platform, and one end of the ball-screw and the driving wheel are coaxial
Connection, the other end of the ball-screw are threadedly coupled with the sliding block;Sliding rail is set in the control platform, and the sliding block can
That slides is arranged on the sliding rail;The transfer block is slidably disposed on the sliding rail, and the sliding block and described turn
It connects and is provided with swing torsion sensor between block;The lower end of the transfer block is provided with straight line fork, the straight line fork lower end
Rotatable to be provided with swing clamping piece, the swing clamping piece can grip ball stud.
Preferably, the swing clamping piece includes swingle and arcuate oscillating motion part, the arcuate oscillating motion part into semi-annular shape,
And it is outward extended with linking platform in the middle part of the arcuate oscillating motion part;The upper end of the swingle is spindle rotationally arranged in the straight line
The lower end of fork, the lower end of the swingle are connected to a fixed with the platform that is connected of the arcuate oscillating motion part;The arcuate oscillating motion part
Inner wall on inwardly offer gripping channel, and the gripping channel is extended in the linking platform.
Preferably, support platform and operation console are further included, the support platform is arranged on the lower section of the control platform, institute
It states operation console to be arranged in the support platform, vertical direction offers operating walk way, the operating walk way in the operation console
Through the upper surface of the operation console and lower face;The upper end of the operating walk way is provided with chuck, the operating walk way pair
The radial direction of chuck is limited, and the axial direction of the chuck is not limited.
Preferably, further include the first glidepath, the second glidepath, the first sliding panel, the second sliding panel, sliding rail on first,
Sliding rail, third sliding panel and the 4th sliding panel on second;First glidepath and the second glidepath are symmetricly set on the operation console
Front and rear sides, the rear and front end of first sliding panel is slidably disposed in first glidepath and second and glides respectively
On rail, and first sliding panel is located at the left side of the operation console;The rear and front end difference of second sliding panel is slidably
Be arranged on first glidepath and the second glidepath, and second sliding panel is located at the right side of the operation console;Institute
It states and sliding rail on first is provided on the upper surface of the first sliding panel, be provided on the upper surface of second sliding panel on second sliding
Rail, the left and right ends of the third sliding panel are slidably arranged on described first on sliding rail and second on sliding rail, and institute respectively
State the front end that third sliding panel is located at the operation console;The left and right ends of 4th sliding panel are slidably disposed in institute respectively
It states on first on sliding rail and second on sliding rail, and the 4th sliding panel is located at the rear end of the operation console.
Preferably, the first swinging mounting and the second swinging mounting are further included, first swinging mounting is arranged on described
On three sliding panels, and first swinging mounting is connect with a side of the arcuate oscillating motion part;Second swinging mounting is set
It puts on the 4th sliding panel, and second swinging mounting is connect with another side of the arcuate oscillating motion part.
The utility model has the advantages that:Clamping piece is swung to clamp ball stud, and by the ball of ball stud
Head is limited radially, using the threaded connection of ball-screw and sliding block, while providing radial load, in sliding block and switching
Setting swings torsion sensor between block, the torsion of ball stud is detected, so as to fulfill the pendulum detected to ball stud torsion
It is dynamic, improve detection efficiency.
Description of the drawings
Fig. 1 loads schematic diagram for ball stud axial force;
Fig. 2 loads schematic diagram for ball stud radial load;
Fig. 3 is the swing mechanism schematic diagram of ball stud swing torque detection device;
Fig. 4 is the half sectional view in the main view direction of Fig. 3.
The mark in the figure shows:1- ball studs;2- bulbs;3- ball rods;4- ball-head covers;5- driving wheels;6- ball-screws;
7- sliding blocks;8- transfer blocks;9- swings torsion sensor;10- control platforms;11- straight line forks;12- swings clamping piece;13- is slided
Rail;14- swingles;15- arcuate oscillating motion parts;16- is connected platform;17- gripping channels;18- support platforms;19- operation consoles;20- is grasped
Make channel;21- chucks;The first glidepaths of 22-;The second glidepaths of 23-;The first sliding panels of 24-;The second sliding panels of 25-;26-
Sliding rail on one;Sliding rail on 27- second;28- third sliding panels;The 4th sliding panels of 29-;The first swinging mountings of 32-;33- second is put
Dynamic stent.
Specific embodiment
The technical solution of the utility model is further elaborated with reference to embodiment and attached drawing.
Embodiment 1
A kind of swing mechanism of ball stud swing torque detection device is present embodiments provided, including driving wheel 5, ball wire
Thick stick 6, transfer block 8, swings torsion sensor 9, control platform 10, straight line fork 11 and swings clamping piece 12 sliding block 7;The drive
Driving wheel 5 is spindle rotationally arranged in control platform 10, and one end of the ball-screw 6 and the driving wheel 5 are coaxially connected, described
The other end of ball-screw 6 is threadedly coupled with the sliding block 7;Sliding rail 13 is set in the control platform 10, and the sliding block 7 can be slided
Dynamic is arranged on the sliding rail 13;The transfer block 8 is slidably disposed on the sliding rail 13, and the sliding block 7 and institute
It states to be provided between transfer block 8 and swings torsion sensor 9;The lower end of the transfer block 8 is provided with straight line fork 11, the straight line
11 lower end of fork, which is rotatably provided with, swings clamping piece 12, and the swing clamping piece 12 can grip ball stud 1.
The bulb 2 of ball stud 1 be placed in ball-head cover 4, is clamped ball rod 3 using clamping piece 12 is swung;
Motor can be set to drive above-mentioned driving wheel 5, the rotation of driving wheel 5 drives ball-screw 6, and the ball-screw 6 is with movable slider 7
It is slided on sliding rail 13, the transfer block 8 is connect with the sliding block 7 by swinging torsion sensor 9, is slided in sliding block 7 same
When, transfer block 8 is driven to slide, the straight line fork 11 and swing clamping piece 12 of the setting of 8 lower end of transfer block drive ball rod 3 to rotate,
So as to produce the action that ball rod 3 drives bulb 2 to be rotated in ball-head cover 4;Simultaneously, torsion sensor 9 is swung to turning round
Power is detected.
The preferred further embodiment of the present embodiment, the swing clamping piece 12 include swingle 14 and arcuate oscillating motion part
15, the arcuate oscillating motion part 15 is into semi-annular shape, and the middle part of the arcuate oscillating motion part 15 is outward extended with linking platform 16;It is described
The upper end of swingle 14 is spindle rotationally arranged in the lower end of the straight line fork 11, lower end and the arc of the swingle 14
The linking platform 16 of swing component 15 is connected to a fixed;Gripping channel 17 is inwardly offered on the inner wall of the arcuate oscillating motion part 15, and
The gripping channel 17 is extended in the linking platform 16.
One end of ball rod 3 is inserted into and is fixed in gripping channel 17, so as to be clamped to ball rod 3;Arcuate oscillating motion
Part 15 into semi-annular shape, in this way can when carrying out radial load loading to ball rod 3, can between to arcuate oscillating motion part 15 into conduct
Loading to power, semi-annular shape can more easily set the loading of radial load, more reasonable structure.
The preferred further embodiment of this implementation further includes support platform 18 and operation console 19, the support platform 18
The lower section of the control platform 10 is arranged on, the operation console 19 is arranged in the support platform 18, in the operation console 19
Vertical direction offers operating walk way 20, and the operating walk way 20 is through the upper surface and lower face of the operation console 19;Institute
The upper end for stating operating walk way 20 is provided with chuck 21, and the operating walk way 20 limits the radial direction of chuck 21, and right
The axial direction of the chuck 21 is not limited.
The bulb of ball stud 1 is placed in operation console 19, because being provided with operating walk way 20 in operation console 19, chuck 21 only exists
Ball stud 1 is limited in the radial direction, setting in this way can facilitate in 18 times setting axial force load maintainers of support platform, can
Setting jacking axis penetrates operating walk way 20, and jacking carries out the loading of axial force to the ball stud 1 in chuck 21.
The preferred further embodiment of the present embodiment further includes the first glidepath 22, the second glidepath 23, first slides
Sliding rail 27,28 and the 4th sliding panel 29 of third sliding panel on sliding rail 26, second on plate 24, the second sliding panel 25, first;Under first
22 and second glidepath 23 of sliding rail is symmetricly set on the front and rear sides of the operation console 19, and front and rear the two of first sliding panel 24
End is slidably disposed on 30 and second glidepath 31 of the first glidepath, and first sliding panel 24 is located at institute respectively
State the left side of operation console 19;The rear and front end of second sliding panel 25 is slidably disposed in first glidepath 22 respectively
On the second glidepath 23, and second sliding panel 25 is located at the right side of the operation console 19;First sliding panel 24
Sliding rail 26 on first are provided on upper surface, sliding rail 27 on second are provided on the upper surface of second sliding panel 25, it is described
The left and right ends of third sliding panel 28 are slidably arranged on described first respectively on sliding rail 26 and second on sliding rail 27, and described
Third sliding panel 28 is located at the front end of the operation console 19;The slidable setting respectively of the left and right ends of 4th sliding panel 29
On described first on sliding rail 26 and second on sliding rail 27, and the 4th sliding panel 29 is located at the rear end of the operation console 19.
The first swinging mounting 32 and the second swinging mounting 33 are further included, first swinging mounting 32 is arranged on the third
On sliding panel 28, and first swinging mounting 32 is connect with a side of the arcuate oscillating motion part 15;Described second swings branch
Frame 33 is arranged on the 4th sliding panel 29, and another side of second swinging mounting 33 and the arcuate oscillating motion part 15
Connection.In this way, when to arcuate oscillating motion 15 applied force of part, the either power in which direction can not be limited, direction
It is unrestricted.
The sequencing of above example is not only for ease of description, represent the quality of embodiment.
Finally it should be noted that:Above example is only to illustrate the technical solution of the utility model, rather than its limitations;
Although the utility model is described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that:
It still can modify to the technical solution recorded in foregoing embodiments or which part technical characteristic is carried out etc.
With replacement;And these modifications or replacement, various embodiments of the utility model technology that it does not separate the essence of the corresponding technical solution
The spirit and scope of scheme.
Claims (5)
1. a kind of swing mechanism of ball stud swing torque detection device, which is characterized in that including driving wheel, ball-screw, cunning
Block, transfer block swing torsion sensor, control platform, straight line fork and swing clamping piece;
The driving wheel is spindle rotationally arranged in control platform, and one end of the ball-screw coaxially connects with the driving wheel
It connects, the other end of the ball-screw is threadedly coupled with the sliding block;Sliding rail is set in the control platform, and the sliding block can be slided
Dynamic is arranged on the sliding rail;The transfer block is slidably disposed on the sliding rail, and the sliding block and the switching
Swing torsion sensor is provided between block;
The lower end of the transfer block is provided with straight line fork, and the straight line fork lower end is rotatably provided with swing clamping piece,
The swing clamping piece can grip ball stud.
2. the swing mechanism of ball stud swing torque detection device according to claim 1, which is characterized in that the swing
Clamping piece includes swingle and arcuate oscillating motion part, and the arcuate oscillating motion part is into semi-annular shape, and the middle part of the arcuate oscillating motion part
It is outward extended with linking platform;
The upper end of the swingle is spindle rotationally arranged in the lower end of the straight line fork, the lower end of the swingle and the arc
The linking platform of shape swing component is connected to a fixed;
Gripping channel is inwardly offered on the inner wall of the arcuate oscillating motion part, and the gripping channel extends to the linking platform
It is interior.
3. the swing mechanism of ball stud swing torque detection device according to claim 2, which is characterized in that further include branch
Platform and operation console are supportted,
The support platform is arranged on the lower section of the control platform, and the operation console is arranged in the support platform, described
Vertical direction offers operating walk way in operation console, and the operating walk way is through the upper surface of the operation console and lower face;
The upper end of the operating walk way is provided with chuck, and the operating walk way limits the radial direction of chuck, and to institute
The axial direction for stating chuck is not limited.
4. the swing mechanism of ball stud swing torque detection device according to claim 3, which is characterized in that further include
One glidepath, the second glidepath, the first sliding panel, the second sliding panel, sliding rail on first, sliding rail on second, third sliding panel and
4th sliding panel;First glidepath and the second glidepath are symmetricly set on the front and rear sides of the operation console, and described first slides
The rear and front end of plate is slidably disposed in respectively on first glidepath and the second glidepath, and the first sliding panel position
In the left side of the operation console;The rear and front end of second sliding panel be slidably disposed in respectively first glidepath and
On second glidepath, and second sliding panel is located at the right side of the operation console;
Sliding rail on first is provided on the upper surface of first sliding panel, is provided on the upper surface of second sliding panel
Sliding rail on two, the left and right ends of the third sliding panel are slidably arranged on described first sliding rail on sliding rail and second respectively
On, and the third sliding panel is located at the front end of the operation console;The left and right ends difference of 4th sliding panel is slidable
It is arranged on described first on sliding rail and second on sliding rail, and the 4th sliding panel is located at the rear end of the operation console.
5. the swing mechanism of ball stud swing torque detection device according to claim 4, which is characterized in that further include
One swinging mounting and the second swinging mounting, first swinging mounting are arranged on the third sliding panel, and first pendulum
Dynamic stent is connect with a side of the arcuate oscillating motion part;Second swinging mounting is arranged on the 4th sliding panel, and
Second swinging mounting is connect with another side of the arcuate oscillating motion part.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721681403.2U CN207569155U (en) | 2017-12-06 | 2017-12-06 | The swing mechanism of ball stud swing torque detection device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721681403.2U CN207569155U (en) | 2017-12-06 | 2017-12-06 | The swing mechanism of ball stud swing torque detection device |
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Publication Number | Publication Date |
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CN207569155U true CN207569155U (en) | 2018-07-03 |
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CN201721681403.2U Expired - Fee Related CN207569155U (en) | 2017-12-06 | 2017-12-06 | The swing mechanism of ball stud swing torque detection device |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108709740A (en) * | 2018-08-14 | 2018-10-26 | 安徽吉斯通自动化装备有限公司 | Novel top cap detection instrument |
CN110389032A (en) * | 2019-09-19 | 2019-10-29 | 成都天创精密模具有限公司 | A kind of weight bearing simulating test device |
-
2017
- 2017-12-06 CN CN201721681403.2U patent/CN207569155U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108709740A (en) * | 2018-08-14 | 2018-10-26 | 安徽吉斯通自动化装备有限公司 | Novel top cap detection instrument |
CN110389032A (en) * | 2019-09-19 | 2019-10-29 | 成都天创精密模具有限公司 | A kind of weight bearing simulating test device |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20180703 Termination date: 20211206 |
|
CF01 | Termination of patent right due to non-payment of annual fee |