CN208654303U - A kind of big face magnet suction measurement equipment - Google Patents
A kind of big face magnet suction measurement equipment Download PDFInfo
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- CN208654303U CN208654303U CN201821178005.3U CN201821178005U CN208654303U CN 208654303 U CN208654303 U CN 208654303U CN 201821178005 U CN201821178005 U CN 201821178005U CN 208654303 U CN208654303 U CN 208654303U
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Abstract
The utility model discloses a kind of big face magnet suction measurement equipment, including the first jig and the second jig;For to being placed on the first jig the first test mould group that sample is tested, for being placed in the second test mould group that sample is tested on the second jig;And for grabbing sample on the first jig to the sample mobile device on the second jig.Sample is moved to the second jig by being provided with the first jig and the second jig and the first test mould group and the second test mould group, and by sample mobile device to the first jig by the application, so as to large area magnet progress suction measurement.
Description
Technical field
The utility model relates to a kind of magnet suction measurement equipment, in particular to a kind of big face magnet suction measurement equipment.
Background technique
Magnet usually requires to test its magnetic force when in use, and existing test method is usually that will pass with pulling force
The magnet of sensor forms testing element, and by changing the distance between testing element and magnet, records the change of sensor pulling force
Change, so as to obtain the relationship between strength and distance, the suction of magnet can be then calculated by a series of formula, still
Existing test equipment is tested for small area magnet mostly, and the result tested large area magnet is not quasi- enough
Really, the problem of above problem is this field urgent need to resolve.
Utility model content
The technical problem to be solved by the present invention is to provide the test equipments that one kind can test big face magnet suction.
In order to solve the above-mentioned technical problem, technical solution provided by the utility model is: a kind of big face magnet suction measurement
Equipment, comprising: the first jig and the second jig;
For to being placed on the first jig the first test mould group that sample is tested, for being placed in the second jig
The second test mould group that upper sample is tested;
And for grabbing sample on the first jig to the sample mobile device on the second jig.
The application is led to by being provided with the first jig and the second jig and the first test mould group and the second test mould group
Sample mobile device is crossed by sample to which the first jig is moved to the second jig, so as to carry out suction survey to large area magnet
Examination.
Further, the first test mould group includes vertically movable mechanism, first connect with vertically movable mechanism
Magnetic force mechanism for testing, the first magnetic force mechanism for testing include several test suites.
Further, the second test mould group includes vertically movable mechanism, second connect with vertically movable mechanism
Magnetic force mechanism for testing, the second magnetic force mechanism for testing include several test suites.
Further, the test suite includes vertical accurate slide unit, the floating clamping mechanism connecting with vertical accurate slide unit
Component, floating clamping mechanism component end are connected with testing element.
Further, the floating clamping mechanism component includes the fixing piece connecting with vertical accurate slide unit, the fixing piece
It is inside provided with through-hole, one week body flange is provided on the inside of the through-hole, positioning bead, connector one end is provided in the body flange
It is inserted into the through-hole, one week convex edge is provided on the connector, the upper end of the positioning bead is resisted against the convex edge
Lower section.
Further, the testing element includes the tension sensor connecting with connector bottom end, the pull sensing
Device bottom end is connected with testing element.
Further, first jig and the second jig are arranged laterally side by side, first jig and the second jig
It is connected respectively with first longitudinal direction mobile mechanism and second longitudinal direction mobile mechanism, the first longitudinal direction mobile mechanism and second longitudinal direction
Mobile mechanism is respectively used to that the first jig and the second jig is driven to vertically move.
Further, the sample mobile device is set to the one of the first test mould group and the second test mould group longitudinal direction
Side, the sample mobile device include sample grasping mechanism and transverse moving mechanism, and the transverse moving mechanism is for driving institute
State sample grasping mechanism transverse shifting.
The beneficial effects of the utility model are: the application is by being provided with the first jig and the second jig and the first test
Mould group and second test mould group, and by sample mobile device by sample thus the first jig be moved to the second jig, so as to
To carry out suction measurement to large area magnet, it is provided with floating clamping mechanism component, so as to during the test to testing element
It is finely adjusted.
Detailed description of the invention
Fig. 1 is the application overall schematic.
Fig. 2 is the first test mould group schematic diagram.
Fig. 3 is floating clamping mechanism component diagram.
Label is in figure: the first jig 1, the second jig 2, first test mould group 3, vertically movable mechanism 31, the first magnetic force
Mechanism for testing 32, test suite 33, vertical accurate slide unit 331, floating clamping mechanism component 332, fixing piece 3321, body flange 3322,
Positioning bead 3323, convex edge 3325, mounting plate 3326, pushes the test of element 3327, second mould group 4, sample movement at connector 3324
Device 5, sample grasping mechanism 51, transverse moving mechanism 52, first longitudinal direction mobile mechanism 6, second longitudinal direction mobile mechanism 7.
Specific embodiment
The utility model is described in further detail in the following with reference to the drawings and specific embodiments, so that those skilled in the art
The utility model may be better understood and can be practiced, but illustrated embodiment is not as the restriction to the utility model.
As shown in Figure 1 to Figure 3, a kind of big face magnet suction measurement equipment, including rack, are wherein provided with first in rack
Jig 1 and the second jig 2, wherein for placing sample to be tested, the first jig 1 and second on the first jig 1 and the second jig 2
Crossbeam is installed, the crossbeam side is equipped with the first test mould group 3 and the second test mould group 4, wherein first above jig 2
Test mould group 3 is used to test to being placed in sample on the first jig 1, and the second test mould group 4 is used to control to being placed in second
Sample is tested on tool 2;The another side of crossbeam is equipped with for grabbing sample on the first jig 1 to the second jig 2
Sample mobile device 5.
As shown in Figure 1 to Figure 3, in this application, the first test mould group 3 includes vertically movable mechanism 31, and vertical
The first magnetic force mechanism for testing 32 that mobile mechanism 31 connects, vertically movable mechanism 31 is for driving the first magnetic force mechanism for testing 32
Lower movement, so as to test sample, the first magnetic force mechanism for testing 32 includes several test suites 33.
As shown in Figure 1 to Figure 3, the second test mould group 4 includes vertically movable mechanism 31, is connected with vertically movable mechanism 31
The the second magnetic force mechanism for testing connect, the second magnetic force mechanism for testing include several test suites 33, vertically movable 31 band of mechanism
Dynamic second magnetic force mechanism for testing moves up and down to test sample.
As shown in Figure 1 to Figure 3, in this application, to keep magnetic force test result more comprehensive, the first magnetic force mechanism for testing
The arrangement position of test suite 33 is different from the arrangement position of test suite 33 on the second magnetic force mechanism for testing on 32.
As shown in Figure 1 to Figure 3, the test suite 33 includes vertical accurate slide unit 331, is connected with vertical accurate slide unit 331
The floating clamping mechanism component 332 connect, vertical precision slide unit 331 is for driving the vertically small-scale shifting of floating clamping mechanism component 332
Dynamic, 332 end of floating clamping mechanism component is connected with testing element.
As shown in Figure 1 to Figure 3, wherein the floating clamping mechanism component 332 includes mounting plate 3326, and mounting plate 3326 is fixed
Connect with vertical accurate slide unit 331, fixing piece 3321 is connected with below mounting plate 3326, wherein in the fixing piece 3321
It is provided with through-hole, one week body flange 3322 is provided on the inside of the through-hole, groove body is provided on the body flange 3322, in this Shen
Please in, opened up on 3322 upper surface of body flange only there are four equally spaced rectangular groove body, be provided with positioning bead in the groove body
3323, the lower end of connector 3324 is inserted into the through-hole, and the upper end-face edge of the connector 3324 is provided with one week
Convex edge 3325, the convex edge 3325 are integrated with connector 3324, and the diameter of the convex edge 3325 is greater than the internal diameter of body flange 3322, institute
The upper end for stating positioning bead 3323 is resisted against the lower section of the convex edge 3325, and pushing member is additionally provided with above the connector 3324
Part 3327, specifically falls that the pushing element 3327 is fixed to be installed on mounting plate 3326, in this application the pushing element 3327
For cylinder, connector 3324 is inserted into one end in through-hole for connecting test element.
As shown in Figure 1 to Figure 3, the testing element includes the tension sensor connecting with floating clamping mechanism component 332, with drawing
The testing element of force snesor bottom end connection, wherein testing element is magnet assembly, when testing element reaches test position, is led to
Pull-up testing element is crossed, then data of available distance and suction during this.
In test, testing element is located above sample, and pushing element 3327 at this time is not apply pressure to connector 3324
Power, thus connector 3324 being moved in horizontal plane by a small margin in the through-hole in fixing piece 3321 again, so as to
Testing element is finely adjusted, testing element automatic alignment is made by the mutual attractive force of magnet, when testing element reaches
When test position, pushes element 3327 and pressure is applied to connector 3324, push connector 3324 by positioning bead 3323, from
And connector 3324 is made to be bonded body flange 3322, so that connector 3324 can not continue the carry out level shifting in groove body
It is dynamic, so that test is more accurate.
Wherein, as shown in Figure 1 to Figure 3, the first longitudinal direction mobile mechanism 6 and second that is equipped in rack laterally side by side indulges
To mobile mechanism 7, the first jig 1 is installed in first longitudinal direction mobile mechanism 6, and the second jig 2 is installed on second longitudinal direction moving machine
On structure 7, the first longitudinal direction mobile mechanism 6 and second longitudinal direction mobile mechanism 7 are respectively used to that the first jig 1 and second is driven to be controlled
2 longitudinal movement of tool, in this application, first longitudinal direction mobile mechanism 6 is consistent with the structure of second longitudinal direction mobile mechanism 7, with first
For longitudinal moving mechanism 6, including along longitudinal direction and being arranged in parallel in longitudinal rectilinear orbit in rack and longitudinal transplanting mould group, the
One jig, 1 bottom is provided with sliding block and is slidably matched with longitudinal rectilinear orbit, it is longitudinal transplant be provided in mould group longitudinal movement block with
The connection of first jig 1, first longitudinal direction movable block are connect by transmission mechanism with longitudinal driving mechanism, and longitudinal rectilinear orbit is used for pair
The movement of first jig 1 is oriented to, and longitudinal mould group of transplanting drives the first jig 1 to move in the longitudinal direction.
Wherein, as shown in Figure 1 to Figure 3, the sample mobile device 5 includes sample grasping mechanism 51 and transverse moving mechanism
52, the transverse moving mechanism 52 is for driving 51 transverse shifting of sample grasping mechanism, specifically, transverse moving mechanism 52
Including transversal driving mechanism and transverse shifting track, sample grasping mechanism 51 is slidably matched with transverse shifting track, laterally driven
Mechanism is connect by transmission mechanism with sample grasping mechanism 51, and transversal driving mechanism drives the transversely rail of sample grasping mechanism 51
Road is mobile, and sample grasping mechanism 51 includes fixture, in the clamp fixing column vertical rails, and is driven by vertical driving mechanism
Dynamic fixture moves up and down, and so as to realize the crawl to sample, in this application, fixture is sucker.
The concrete operating principle of the application is that sample is placed on the first jig 1 first, and the first jig 1 is moved at this time
First test mould group, 3 lower section, the first test mould group 3 test the sample on the first jig 1, and then the first jig 1 is longitudinal
It is moved to the lower section of sample mobile device 5,5 device of sample mobile device grabs sample from the first jig 1 to the second jig 2
On, the second jig 2 is moved to 4 lower section of the second test mould group, is tested by the second mould group the point that do not test on sample.
Since the area of test sample is larger, the result and test point often once tested are not comprehensive enough, and the application passes through
First test mould group 3 and the second test mould group 4 respectively test point different in test sample, so as to realize to big
Area magnet sample carries out accurate comprehensive test.
The application tests mould group 4 by being provided with the first jig 1 and the second jig 2 and the first test mould group 3 and second,
And sample is moved to the first jig 1 by the second jig 2 by sample mobile device 5, so as to large area magnet into
Row suction measurement is provided with floating clamping mechanism component 332, so as to be finely adjusted during the test to testing element.
Embodiment described above is only the preferred embodiment lifted to absolutely prove utility model, the guarantor of utility model
It is without being limited thereto to protect range.Those skilled in the art made equivalent substitute or transformation on the basis of utility model, exist
Within the protection scope of utility model.The protection scope of utility model is subject to claims.
Claims (8)
1. a kind of big face magnet suction measurement equipment characterized by comprising the first jig (1) and the second jig (2);
For to being placed on the first jig (1) the first test mould group (3) that sample is tested, for controlling to being placed in second
The second test mould group (4) that sample is tested on tool (2);And
For grabbing sample on the first jig (1) to the sample mobile device (5) on the second jig (2).
2. a kind of big face magnet suction measurement equipment as described in claim 1, which is characterized in that the first test mould group
It (3) include vertically movable mechanism (31), the first magnetic force mechanism for testing (32) being connect with vertically movable mechanism (31), described first
Magnetic force mechanism for testing (32) includes several test suites (33).
3. a kind of big face magnet suction measurement equipment as described in claim 1, which is characterized in that the second test mould group
It (4) include vertically movable mechanism (31), the second magnetic force mechanism for testing being connect with vertically movable mechanism (31), second magnetic force
Mechanism for testing includes several test suites (33).
4. a kind of big face magnet suction measurement equipment as claimed in claim 2 or claim 3, which is characterized in that the test suite
It (33) include vertical accurate slide unit (331), the floating clamping mechanism component (332) being connect with vertical accurate slide unit (331), the floating
Clamping component (332) end is connected with testing element.
5. a kind of big face magnet suction measurement equipment as claimed in claim 4, which is characterized in that the floating clamping mechanism component
(332) include the fixing piece (3321) being connect with vertical accurate slide unit (331), be provided with through-hole in the fixing piece (3321),
It is provided with one week body flange (3322) on the inside of the through-hole, is provided with positioning bead (3323) in the body flange (3322), connects
Part (3324) one end is inserted into the through-hole, and one week convex edge (3325) is provided on the connector (3324), described fixed
The upper end of position pearl (3323) is resisted against below the convex edge (3325), and the floating clamping mechanism component (332) further includes pushing element
(3327), the pushing element (3327) is for depressing connector (3324).
6. a kind of big face magnet suction measurement equipment as claimed in claim 5, which is characterized in that the testing element include with
The tension sensor of connector (3324) bottom end connection, the tension sensor bottom end is connected with testing element.
7. a kind of big face magnet suction measurement equipment as described in claim 1, which is characterized in that first jig (1) and
Second jig (2) is arranged laterally side by side, first jig (1) and the second jig (2) respectively with first longitudinal direction mobile mechanism
(6) and second longitudinal direction mobile mechanism (7) connects, the first longitudinal direction mobile mechanism (6) and second longitudinal direction mobile mechanism (7) point
The first jig (1) and the second jig (2) Yong Yu not be driven to vertically move.
8. a kind of big face magnet suction measurement equipment as claimed in claim 7, which is characterized in that the sample mobile device
(5) it is set to the side of the first test mould group (3) and second test mould group (4) longitudinal direction, the sample mobile device (5) includes sample
Product grasping mechanism (51) and transverse moving mechanism (52), the transverse moving mechanism (52) is for driving the sample grasping mechanism
(51) transverse shifting.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821178005.3U CN208654303U (en) | 2018-07-24 | 2018-07-24 | A kind of big face magnet suction measurement equipment |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821178005.3U CN208654303U (en) | 2018-07-24 | 2018-07-24 | A kind of big face magnet suction measurement equipment |
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CN208654303U true CN208654303U (en) | 2019-03-26 |
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CN201821178005.3U Active CN208654303U (en) | 2018-07-24 | 2018-07-24 | A kind of big face magnet suction measurement equipment |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108680881A (en) * | 2018-07-24 | 2018-10-19 | 苏州佳祺仕软件技术有限公司 | A kind of big face magnet suction measurement equipment |
CN111896899A (en) * | 2020-07-06 | 2020-11-06 | 苏州佳祺仕信息科技有限公司 | Gaussian detection probe |
-
2018
- 2018-07-24 CN CN201821178005.3U patent/CN208654303U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108680881A (en) * | 2018-07-24 | 2018-10-19 | 苏州佳祺仕软件技术有限公司 | A kind of big face magnet suction measurement equipment |
CN111896899A (en) * | 2020-07-06 | 2020-11-06 | 苏州佳祺仕信息科技有限公司 | Gaussian detection probe |
CN111896899B (en) * | 2020-07-06 | 2021-06-11 | 苏州佳祺仕信息科技有限公司 | Gaussian detection probe |
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