CN205404777U - Space magnetic field tester - Google Patents
Space magnetic field tester Download PDFInfo
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- CN205404777U CN205404777U CN201620124587.1U CN201620124587U CN205404777U CN 205404777 U CN205404777 U CN 205404777U CN 201620124587 U CN201620124587 U CN 201620124587U CN 205404777 U CN205404777 U CN 205404777U
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Abstract
The utility model relates to a technical field of magnetic field test specifically is a space magnetic field tester, including the test platform who supplies the measured object to place, around test platform's the sky has relative set up and along about the direction extend set up can the direction make a round trip to convey the front rail roof beam and the rear rail roof beam of operation about, set up between front rail roof beam and the rear rail roof beam and can make a round trip to convey the transverse guide roof beam of operation at the fore -and -aft direction with front rail roof beam and the equal vertically of rear rail roof beam, be equipped with on the transverse guide roof beam to extend along upper and lower direction rather than the vertically and set up and can make a round trip to convey the longitudinal rail roof beam of operation in upper and lower direction, install a test mounting panel on the longitudinal rail roof beam, set up the probe that is located the lower extreme along the hall probe of upper and lower direction setting on the test mounting panel, operation safety and stability, the high just long service life of measuring accuracy.
Description
Technical field
This utility model relates to the technical field of measurement of magnetic field, is specially a kind of space magnetic field tester.
Background technology
Existing measurement of magnetic field instrument of a great variety, wherein, some equipment about space magnetic field test are also increasing gradually, can be used for the detection in the magnetic field of the various industry products with magnetic, and carry out three-dimensional three-dimensional effective detection, but the stabilization of equipment performance of existing space magnetic field is also bad, bad interference factor in test process is more, the precision of test, analog simulation degree are all not high enough, and fault rate is high, it is easy to damage.
Utility model content
A purpose of the present utility model is to provide a kind of space magnetic field tester running safety and stability, measuring accuracy height and long service life.
Above-mentioned technical purpose of the present utility model has the technical scheme that a kind of space magnetic field tester, including the test platform placed for measured object, the overhead of test platform is oppositely arranged and along extended leading beam-and-rail and the rear rail beam that can transmit operation at left and right directions back and forth of left and right directions before and after having, between leading beam-and-rail and rear rail beam, erection has the cross slide way beam that can at fore-and-aft direction back and forth transmit operation all vertical with leading beam-and-rail and rear rail beam, cross slide way beam is provided with perpendicular extended along above-below direction and can transmit operation back and forth at above-below direction longitudinal rail beam, described longitudinal rail beam is provided with one piece of test installing plate, described test installing plate arranges the hall probe arranged along above-below direction and is positioned at the probe of lower end.
In technique scheme, leading beam-and-rail and rear rail beam coordinate the structural design of cross slide way beam and longitudinal rail beam, the stability making whole framework is higher, run and also more stablize safe procedures, reduce the problems such as undesirable element and stress not optimization such as bad vibration, the precision making test is greatly improved, it is possible to meeting the demand of high-precision magnetic field space test, the impaired probability of equipment is greatly reduced.
nullAs to of the present utility model preferably,Leading beam-and-rail has the front conveyer belt that can transmit operation at left and right directions back and forth,Rear rail beam has the rear conveyer belt relative with before and after described front conveyer belt,It is connected to synchronizing shaft between driven wheel that front conveyer belt left end is connected to and the driven wheel that rear conveyer belt left end is connected to or between the driven wheel that is connected to of the driven wheel that is connected to of front conveyer belt right-hand member and rear conveyer belt right-hand member,Driven wheel that is that front conveyer belt or afterwards conveyer belt are connected to and that be connected with described synchronizing shaft is additionally coupled to the first drive motor,Cross slide way beam has the transverse conveyor that can transmit operation at fore-and-aft direction back and forth,The driven wheel that described transverse conveyor wherein one end is connected to is connected to the second drive motor,Longitudinal rail beam has the longitudinal conveyer belt that can transmit operation at above-below direction back and forth,The driven wheel that described longitudinal conveyer belt wherein one end is connected to is connected to the 3rd drive motor.Optimizing structure, optimization distribution of force so that the factors such as the stability of test jobs is higher, the bad vibration that impact is tested greatly reduce further, the fault rate of machinery is substantially reduced, and service life extends, and certainly, the precision of test, fidelity etc. can be greatly improved.
As to of the present utility model preferably, the top that front transmission band carries out transmitting in operation process faces up as transmission side and band, rear conveyer belt carries out the top transmitted in operation process and also serves as transmission side and band faces up, the transmission side of front conveyer belt is fixed with front connecting plate, the transmission side of rear conveyer belt is fixed with rear connecting plate, adjustable plate is installed before being connected in the top of front connecting plate, adjustable plate is installed after being connected in the top of rear connecting plate, and cross slide way erection is on front installation adjustable plate and rear installation adjustable plate.Optimize structure further, optimize distribution of force, the stability making test jobs is higher, the factors such as the bad vibration of impact test greatly reduce, the fault rate of machinery is substantially reduced, service life extends, certainly, the precision of test, fidelity etc. can be greatly improved, forward and backward connecting plate uses as connector, it can also be ensured that the stability of operation, and forward and backward installation adjustable plate can be also used for regulating the position of cross slide way beam, height etc., to reach a best position, it is beneficial to high-precision test.
As to of the present utility model preferably, transverse conveyor carries out the left part in transmission operation process or right part faces a left side or towards the right side as transmission side and band, the transmission side of transverse conveyor is fixed with cross connecting plate, cross connecting plate is connected to transversely mounted adjustable plate back to transverse conveyor side, and longitudinal rail beam is arranged on transversely mounted adjustable plate on cross connecting plate side.Optimize structure further, optimize distribution of force so that the stability of test jobs is higher, the factors such as the bad vibration of impact test greatly reduce, the fault rate of machinery is substantially reduced, and service life extends, certainly, the precision of test, fidelity etc. can be greatly improved, cross connecting plate uses as connector, it can also be ensured that the stability of operation, and transversely mounted adjustable plate can be also used for regulating the position etc. of longitudinal rail beam, to reach a best position, it is beneficial to high-precision test.
As to of the present utility model preferably, longitudinal conveyer belt carry out transmitting in operation process back to transversely mounted adjustable plate side partly as transmitting side and band faces back to direction, transversely mounted adjustable plate side, being fixed with longitudinally guiding installing plate on the transmission side of longitudinal conveyer belt, longitudinally guiding installing plate is provided with test installing plate back to longitudinal conveyer belt side.Optimize structure further, optimize distribution of force, the stability making test jobs is higher, the factors such as the bad vibration of impact test greatly reduce, the fault rate of machinery is substantially reduced, service life extends, certainly, the precision of test, fidelities etc. can be greatly improved, longitudinally guiding installing plate uses as connector, the stability run can also be ensured, corresponding gathering sill and guide pad portion can be set at longitudinally guiding installing plate and longitudinal rail beam, if aforesaid structure arranges rationally, then longitudinally guiding installing plate need not be configured adjustment structure, equally, test installing plate also can arrange more optimal position, it is beneficial to high-precision test.
As to of the present utility model preferably, test installing plate and synchronizing shaft be positioned at test installing plate the same side.Optimizing structure, optimization distribution of force so that the factors such as the stability of test jobs is higher, the bad vibration that impact is tested greatly reduce further, the fault rate of machinery is substantially reduced, and service life extends, and certainly, the precision of test, fidelity etc. can be greatly improved.
As to of the present utility model preferably, cross slide way beam is provided with back to cross connecting plate side along the extended equalizer bar of fore-and-aft direction, and the cross section of equalizer bar is L-shaped.Equalizer bar can against cross slide way beam and be fixed installation, and L-shaped some electric wires etc. can placed in the groove of this L-type on whole instrument, not only attractive in appearance succinctly, moreover it is possible to reduce a lot of interference factor, total optimizes further, optimization distribution of force so that the factors such as the stability of test jobs is higher, the bad vibration that impact is tested greatly reduce, the fault rate of machinery is substantially reduced, service life extends, and certainly, the precision of test, fidelity etc. can be greatly improved.
As to of the present utility model preferably, the guiding that probe inserts that is available for that test installing plate offers back to longitudinal rail beam side along above-below direction is extended shelves groove, and guiding shelves the cross section semicircular in shape of groove.Total optimizes further; optimize distribution of force; the factors such as the stability making test jobs is higher, the bad vibration of impact test greatly reduce, and the fault rate of machinery is substantially reduced; service life extends; certainly, the precision of test, fidelity etc. can be greatly improved, additionally; when fortuitous event occurs; probe withstands some measured objects, owing to probe is very crisp, and also expensive; just in case damaging; loss can be very big, and guiding shelves groove good protective effect to probe, certainly; during placement, probe had better not be fixed extremely.
As to of the present utility model preferably, probe position by the top wrapped one layer parcel stabilized zone.Parcel stabilized zone can select some flexibilities or elastic material layer; first; may be used for being stuck in guiding and shelve in groove; certainly there is certain protective effect; and; there is certain space relatively freely to probe, when occurring unexpected, have individual cushioning effect; optimize structure; optimization distribution of force so that the factors such as the stability of test jobs is higher, the bad vibration that impact is tested greatly reduce; the fault rate of machinery is substantially reduced; service life extends, and certainly, the precision of test, fidelity etc. can be greatly improved.
As to of the present utility model preferably, test installing plate is provided with the position in the portion on the lower, side that guiding shelves groove and is provided with the splice plate merging and having the outer gathering sill offered along above-below direction with it, outer gathering sill cross section semicircular in shape, guiding shelves the position in groove portion on the lower and outer gathering sill is oppositely arranged and can the conglobate complete cell body inserted for probe of shape.The location of probe there is is the reinforcement carried out, but simultaneously for also certain cushion space of probe, does not only affect high-precision test, and probe, probe are had good protective action.
The beneficial effects of the utility model: the stability of total is higher, run also more stable safety smooth, reduce the problems such as undesirable element and stress not optimization such as bad vibration, the precision making test is greatly improved, fidelity is higher, the demand of high-precision magnetic field space test can be met, the impaired probability of equipment is greatly reduced, and service life extends.
Accompanying drawing explanation
Fig. 1 is perspective view of the present utility model;
Fig. 2 is the enlarged drawing at I place in Fig. 1.
In figure: 1, test platform, 21, leading beam-and-rail, 22, rear rail beam, 3, cross slide way beam, 4, longitudinal rail beam, 5, test installing plate, 60, hall probe, 6, probe, 71, front conveyer belt, 72, rear conveyer belt, 77, synchronizing shaft, 81, first drive motor, 73, transverse conveyor, 82, second drive motor, 74, longitudinal conveyer belt, 83, 3rd drive motor, 711, front connecting plate, 721, rear connecting plate, 7111, front installation adjustable plate, 7211, rear installation adjustable plate, 731, cross connecting plate, 7311, transversely mounted adjustable plate, 741, longitudinally guiding installing plate, 33, equalizer bar, 66, guiding shelves groove, 61, parcel stabilized zone, 67, outer gathering sill, 666, splice plate.
Detailed description of the invention
Specific examples below is only to explanation of the present utility model; it is not to restriction of the present utility model; the present embodiment can be made the amendment not having creative contribution as required by those skilled in the art after reading this specification, but as long as being affected by the protection of Patent Law in right of the present utility model.
Embodiment, such as Fig. 1, shown in 2, a kind of space magnetic field tester, including the test platform 1 placed for measured object, the overhead of test platform 1 is oppositely arranged and along extended leading beam-and-rail 21 and the rear rail beam 22 that can transmit operation at left and right directions back and forth of left and right directions before and after having, between leading beam-and-rail 21 and rear rail beam 22, erection has the cross slide way beam 3 that can at fore-and-aft direction back and forth transmit operation all vertical with leading beam-and-rail 21 and rear rail beam 22, cross slide way beam 3 is provided with perpendicular extended along above-below direction and can transmit operation back and forth at above-below direction longitudinal rail beam 4, described longitudinal rail beam 4 is provided with one piece of test installing plate 5, described test installing plate 5 arranges the hall probe 60 arranged along above-below direction and is positioned at the probe 6 of lower end.One dust-proof glass cover body etc. can also be set above test platform 1, not only reduce the accumulation of dust, and the interference to test such as dust, air can be reduced, improve measuring accuracy, test platform 1 bottom can according to a support, for supporting, it is also possible to be used for regulating height, it is simple to the carrying out of various test jobs.Leading beam-and-rail 21, rear rail beam 22, cross slide way beam 3 and longitudinal rail beam 4 should arrange some stops, it is ensured that the safety of operation.The top of test platform 1 can connect and arranges support beam, and leading beam-and-rail 21 and rear rail beam 22 can be arranged on support beam.It addition, longitudinal rail beam 4 can arrange the rule that an above-below direction extends, it is simple to location, record data etc..
nullLeading beam-and-rail 21 has the front conveyer belt 71 that can transmit operation at left and right directions back and forth,Rear rail beam 22 has the rear conveyer belt 72 relative with before and after described front conveyer belt 71,It is connected to synchronizing shaft 77 between driven wheel that front conveyer belt 71 left end is connected to and the driven wheel that rear conveyer belt 72 left end is connected to or between the driven wheel that is connected to of the driven wheel that is connected to of front conveyer belt 71 right-hand member and rear conveyer belt 72 right-hand member,Driven wheel that is that front conveyer belt 71 or afterwards conveyer belt 72 are connected to and that be connected with described synchronizing shaft 77 is additionally coupled to the first drive motor 81,Cross slide way beam 3 has the transverse conveyor 73 that can transmit operation at fore-and-aft direction back and forth,The driven wheel that described transverse conveyor 73 wherein one end is connected to is connected to the second drive motor 82,Longitudinal rail beam 4 has the longitudinal conveyer belt 74 that can transmit operation at above-below direction back and forth,The driven wheel that described longitudinal conveyer belt 74 wherein one end is connected to is connected to the 3rd drive motor 83.
The top that front conveyer belt 71 carries out transmitting in operation process faces up as transmission side and band, rear conveyer belt 72 carries out the top transmitted in operation process and also serves as transmission side and band faces up, the transmission side of front conveyer belt 71 is fixed with front connecting plate 711, the transmission side of rear conveyer belt 72 is fixed with rear connecting plate 721, adjustable plate 7111 is installed before being connected in the top of front connecting plate 711, adjustable plate 7211 is installed after being connected in the top of rear connecting plate 721, and cross slide way beam 3 is erected on front installation adjustable plate 7111 and rear installation adjustable plate 7211.
Transverse conveyor 73 carries out the left part in transmission operation process or right part faces a left side or towards the right side as transmission side and band, the transmission side of transverse conveyor 73 is fixed with cross connecting plate 731, cross connecting plate 731 is connected to transversely mounted adjustable plate 7311 back to transverse conveyor 73 side, and longitudinal rail beam 4 is arranged on transversely mounted adjustable plate 7311 on cross connecting plate 731 side.
Longitudinal conveyer belt 74 carry out transmitting in operation process back to transversely mounted adjustable plate 7311 side partly as transmitting side and band faces back to direction, transversely mounted adjustable plate 7311 side, being fixed with longitudinally guiding installing plate 741 on the transmission side of longitudinal conveyer belt 74, longitudinally guiding installing plate 741 is provided with test installing plate 5 back to longitudinal conveyer belt 74 side.
Test installing plate 5 and synchronizing shaft 77 are positioned at the same side of test installing plate 5.
Cross slide way beam 3 is provided with back to cross connecting plate 731 side along the extended equalizer bar 33 of fore-and-aft direction, and the cross section of equalizer bar 33 is L-shaped.
The guiding that probe 6 inserts that is available for that test installing plate 5 offers back to longitudinal rail beam 4 side along above-below direction is extended shelves groove 66, and guiding shelves the cross section semicircular in shape of groove 66.
Probe 6 position by the top has wrapped one layer of parcel stabilized zone 61.
Test installing plate 5 is provided with the position in the portion on the lower, side that guiding shelves groove 66 and is provided with the splice plate 666 merging and having the outer gathering sill 67 offered along above-below direction with it, outer gathering sill 67 cross section semicircular in shape, guiding shelves the position in groove 66 portion on the lower and outer gathering sill 67 is oppositely arranged and can the conglobate complete cell body inserted for probe 6 of shape.Splice plate 666 size is less than test installing plate 5, and is arranged on the position by test installing plate 5 bottom, splice plate 666 highly preferred less than test installing plate 5 highly 1/2nd.
Hall probe 60 should be electrically connected to Gaussmeter, then, Gaussmeter, each drive motor, stop etc. can be unified to be connected in automatic controlling device, carry out unifying Automated condtrol management, and export data and the image etc. of test, moreover it is possible to carry out the data record of some, simulation test etc..
Claims (10)
- null1. a space magnetic field tester,It is characterized in that: include the test platform (1) placed for measured object,The overhead of test platform (1) is oppositely arranged and along extended leading beam-and-rail (21) and the rear rail beam (22) that can transmit operation at left and right directions back and forth of left and right directions before and after having,Between leading beam-and-rail (21) and rear rail beam (22), erection has the cross slide way beam (3) that can at fore-and-aft direction back and forth transmit operation all vertical with leading beam-and-rail (21) and rear rail beam (22),Cross slide way beam (3) is provided with perpendicular extended along above-below direction and can transmit operation back and forth at above-below direction longitudinal rail beam (4),Described longitudinal rail beam (4) is provided with one piece of test installing plate (5),The upper setting of described test installing plate (5) is positioned at the probe (6) of lower end along the hall probe (60) that above-below direction is arranged.
- null2. a kind of space magnetic field tester according to claim 1,It is characterized in that: leading beam-and-rail (21) has the front conveyer belt (71) that can transmit operation at left and right directions back and forth,Rear rail beam (22) has the rear conveyer belt (72) relative with before and after described front conveyer belt (71),It is connected to synchronizing shaft (77) between driven wheel that front conveyer belt (71) left end is connected to and the driven wheel that rear conveyer belt (72) left end is connected to or between the driven wheel that is connected to of the driven wheel that is connected to of front conveyer belt (71) right-hand member and rear conveyer belt (72) right-hand member,Driven wheel that is that front conveyer belt (71) or afterwards conveyer belt (72) are connected to and that be connected with described synchronizing shaft (77) is additionally coupled to the first drive motor (81),Cross slide way beam (3) has the transverse conveyor (73) that can transmit operation at fore-and-aft direction back and forth,The driven wheel that described transverse conveyor (73) wherein one end is connected to is connected to the second drive motor (82),Longitudinal rail beam (4) has the longitudinal conveyer belt (74) that can transmit operation at above-below direction back and forth,The driven wheel that described longitudinal conveyer belt (74) wherein one end is connected to is connected to the 3rd drive motor (83).
- 3. a kind of space magnetic field tester according to claim 2, it is characterized in that: the top that front conveyer belt (71) carries out transmitting in operation process faces up as transmission side and band, rear conveyer belt (72) carries out the top transmitted in operation process and also serves as transmission side and band faces up, the transmission side of front conveyer belt (71) is fixed with front connecting plate (711), the transmission side of rear conveyer belt (72) is fixed with rear connecting plate (721), adjustable plate (7111) is installed before being connected in the top of front connecting plate (711), adjustable plate (7211) is installed after being connected in the top of rear connecting plate (721), cross slide way beam (3) is erected on front installation adjustable plate (7111) and rear installation adjustable plate (7211).
- 4. a kind of space magnetic field tester according to claim 3, it is characterized in that: transverse conveyor (73) carries out the left part in transmission operation process or right part faces a left side or towards the right side as transmission side and band, the transmission side of transverse conveyor (73) is fixed with cross connecting plate (731), cross connecting plate (731) is connected to transversely mounted adjustable plate (7311) back to transverse conveyor (73) side, and longitudinal rail beam (4) is arranged on transversely mounted adjustable plate (7311) on cross connecting plate (731) side.
- 5. a kind of space magnetic field tester according to claim 4, it is characterized in that: longitudinal conveyer belt (74) carry out transmitting in operation process back to transversely mounted adjustable plate (7311) side partly as transmitting side and band faces back to transversely mounted adjustable plate (7311) direction, side, being fixed with longitudinally guiding installing plate (741) on the transmission side of longitudinal conveyer belt (74), longitudinally guiding installing plate (741) is provided with test installing plate (5) back to longitudinal conveyer belt (74) side.
- 6. a kind of space magnetic field tester according to claim 5, it is characterised in that: test installing plate (5) and synchronizing shaft (77) are positioned at the same side of test installing plate (5).
- 7. a kind of space magnetic field tester according to claim 4, it is characterised in that: cross slide way beam (3) is provided with back to cross connecting plate (731) side along the extended equalizer bar (33) of fore-and-aft direction, and the cross section of equalizer bar (33) is L-shaped.
- 8. a kind of space magnetic field tester according to claim 1, it is characterized in that: the guiding that probe (6) inserts that is available for that test installing plate (5) offers back to longitudinal rail beam (4) side along above-below direction is extended shelves groove (66), and guiding shelves the cross section semicircular in shape of groove (66).
- 9. a kind of space magnetic field tester according to claim 8, it is characterised in that: probe (6) position by the top has wrapped one layer of parcel stabilized zone (61).
- 10. a kind of space magnetic field tester according to claim 8, it is characterized in that: test installing plate (5) is provided with the position in the portion on the lower, side that guiding shelves groove (66) and is provided with the splice plate (666) merging and having the outer gathering sill (67) offered along above-below direction with it, outer gathering sill (67) cross section semicircular in shape, guiding shelves the position in groove (66) portion on the lower and outer gathering sill (67) is oppositely arranged and can shape conglobate confession probe (6) the complete cell body inserted.
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CN201620124587.1U CN205404777U (en) | 2016-02-17 | 2016-02-17 | Space magnetic field tester |
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CN201620124587.1U CN205404777U (en) | 2016-02-17 | 2016-02-17 | Space magnetic field tester |
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CN205404777U true CN205404777U (en) | 2016-07-27 |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105527592A (en) * | 2016-02-17 | 2016-04-27 | 浙江和也健康科技有限公司 | Spatial magnetic field tester |
CN107765196A (en) * | 2017-09-27 | 2018-03-06 | 东北大学 | A kind of experimental rig for being used to measure magnetic matrix induced field |
CN109782199A (en) * | 2019-02-12 | 2019-05-21 | 鞍钢股份有限公司 | Auxiliary device and method for measuring magnetic induction intensity |
-
2016
- 2016-02-17 CN CN201620124587.1U patent/CN205404777U/en active Active
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105527592A (en) * | 2016-02-17 | 2016-04-27 | 浙江和也健康科技有限公司 | Spatial magnetic field tester |
CN105527592B (en) * | 2016-02-17 | 2018-08-24 | 浙江和也健康科技有限公司 | A kind of space magnetic field tester |
CN107765196A (en) * | 2017-09-27 | 2018-03-06 | 东北大学 | A kind of experimental rig for being used to measure magnetic matrix induced field |
CN109782199A (en) * | 2019-02-12 | 2019-05-21 | 鞍钢股份有限公司 | Auxiliary device and method for measuring magnetic induction intensity |
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Address after: 313300 Bamboo Industry Science and Technology Venture Center, Xiaofeng Town, Anji County, Huzhou City, Zhejiang Province, 6, 7, 8, 9 and 10 Patentee after: Heye Health Technology Co., Ltd. Address before: 313300 Anji Zhejiang Economic Development Zone, Zhejiang health and Health Industry Park, and Health Technology Co., Ltd. Patentee before: Zhejiang Heye Health Technology Co., Ltd. |