CN212905396U - Neodymium iron boron weak magnetic sheet automatic detection machine - Google Patents
Neodymium iron boron weak magnetic sheet automatic detection machine Download PDFInfo
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- CN212905396U CN212905396U CN202021175866.3U CN202021175866U CN212905396U CN 212905396 U CN212905396 U CN 212905396U CN 202021175866 U CN202021175866 U CN 202021175866U CN 212905396 U CN212905396 U CN 212905396U
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- adjusting mechanism
- sliding
- weak magnetic
- test probe
- gear
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Abstract
The utility model discloses a neodymium iron boron weak magnetic sheet automated inspection machine, include: the conveying mechanism is used for conveying a product to be detected; the test probe is positioned above the conveying mechanism and used for detecting the magnetic strength of the product to be detected; and the adjusting mechanism is used for adjusting the position of the test probe. The adjusting mechanism comprises an X-direction adjusting mechanism, a Y-direction adjusting mechanism and a Z-direction adjusting mechanism which are respectively used for adjusting the positions of the test probe in the X direction, the Y direction and the Z direction. The utility model discloses can carry out the magnetic strength detection of magnetic sheet, can detect out the magnetic sheet of no magnetism, weak magnetism, diamagnetism in real time, compare in other artifical measuring mode need separately detect a magnetic sheet piece then the manual work makes up together again, efficiency improves, convenient operation moreover, and follow-up processing of being convenient for avoids follow-up doing over again.
Description
Technical Field
The utility model belongs to the technical field of the magnetic sheet processing, concretely relates to neodymium iron boron weak magnetic sheet automated inspection machine.
Background
Magnetizing means magnetizing a magnetic substance or increasing magnetism of a magnet having insufficient magnetism, and generally, a magnetic field force is generated by placing a magnetically chargeable object to be magnetized in a coil through which a dc power supply passes. The existing magnetizing machines are divided into a constant-current magnetizing machine and a pulse magnetizing machine, wherein the constant-current magnetizing machine enables a coil to generate a constant magnetic field by passing constant-current direct current in the coil, and then a product to be magnetized is placed in the secondary field to complete magnetizing instantly. The pulse magnetizing apparatus has no limitation to power supply configuration, is fast and efficient to use, and is suitable for magnetizing parts and components of permanent magnetic materials.
After the magnetism is charged, the magnetic sheets are assembled, and the weak magnetic sheets can be detected and reflected after the assembly, but the reworking consumes time and labor at the moment.
SUMMERY OF THE UTILITY MODEL
The utility model provides a neodymium iron boron weak magnetic sheet automated inspection machine for detect the magnetic strength of magnetic sheet.
The technical scheme of the utility model is that: neodymium iron boron weak magnetic sheet automated inspection machine includes:
the conveying mechanism is used for conveying a product to be detected;
the test probe is positioned above the conveying mechanism and used for detecting the magnetic strength of the product to be detected;
and the adjusting mechanism is used for adjusting the position of the test probe.
The utility model discloses in carry the magnetic sheet to test probe test department through conveying mechanism, then adjust the position of test probe through adjustment mechanism, detect the magnetic strength of magnetic sheet, and then test and select the weak magnetic sheet.
The utility model discloses well adjustment mechanism's structural style has a plurality ofly, as preferred, adjustment mechanism is including being used for adjusting respectively the test probe is in X of the position of X direction, Y direction and Z direction to adjustment mechanism, Y to adjustment mechanism and Z to adjustment mechanism. The utility model discloses in can carry out the ascending regulation in X direction, Y direction and Z direction to the test probe to the magnetism of test probe to the magnetic sheet is measured.
The utility model discloses well Z direction adjustment mechanism's structural style has a plurality ofly, as preferred, Z includes vertical support plate, with vertical support plate sliding connection and can be for the sliding support that vertical support plate moved in vertical direction to adjustment mechanism, and be used for driving the power unit that sliding support moved in vertical support plate, the test probe set up in on the sliding support. The utility model discloses in can move on vertical support plate through power unit drive sliding support, and then realize the regulation of Z direction, wherein power unit has the multiple, can adopt structural style such as cylinder for example.
Preferably, the sliding support comprises a sliding plate, a sliding rail is arranged on the vertical supporting plate, and a sliding part connected with the sliding rail in a sliding manner is arranged on the sliding plate. The utility model discloses well slider's structural style has the multiple, can be for example for structures such as slider or pulley.
Preferably, the sliding support comprises a first fixed block fixed on the sliding plate and a second fixed block connected with the first fixed block and capable of moving relatively, and the test probe is fixed on the second fixed block.
Preferably, the Y-direction adjusting mechanism comprises a gear, a rack matched with the gear and a Y-direction knob for rotating the gear. When adjusting test probe position in Y side, can rotate Y to the knob, the utility model discloses in can be so that Y to the rotation axis of knob with the gear cooperation, when Y rotates to the knob, the gear rotates together, and gear and rack cooperation, and then realize rack and pinion's relative motion, the utility model discloses in can be so that the rack sets up on the second fixed block, the gear sets up on first fixed block, and then realized test probe's Y to adjusting. The utility model discloses of course the utility model discloses can also other regulative modes, for example can set up the screw thread section on the rotation axis of Y knob, realize the regulation of Y direction through modes such as screw thread section and first fixed block screw-thread fit, the utility model discloses the regulative mode of well Y direction has multiple structural style, and it can to adopt current multiple structural style.
Preferably, the X-direction adjusting mechanism comprises a gear, a rack matched with the gear and an X-direction knob for rotating the gear. The utility model discloses well X can refer to above-mentioned Y to adjustment mechanism principle to adjustment mechanism's principle for the relative second fixed block of test probe removes.
Preferably, the conveying mechanism comprises a conveyor belt.
Preferably, the test probes are arranged along the conveying direction of the conveyor belt, and the adjusting mechanisms are in one-to-one correspondence with the test probes. The utility model discloses can set up a plurality of test probes, realize the test of the magnetic strength of a plurality of magnetic sheets, improve work efficiency.
Compared with the prior art, the beneficial effects of the utility model are embodied in:
the utility model discloses can carry out the magnetic strength detection of magnetic sheet, can detect out the magnetic sheet of no magnetism, weak magnetism, diamagnetism in real time, compare in other artifical measuring mode need separately detect a magnetic sheet piece then the manual work makes up together again, efficiency improves, convenient operation moreover, and follow-up processing of being convenient for avoids follow-up doing over again.
Drawings
Fig. 1 is a schematic structural diagram of the present invention.
Fig. 2 is a schematic structural view of another view angle of the present invention.
Fig. 3 is a schematic structural view of another view angle of the present invention.
Reference numerals:
1. testing the probe; 2. a conveying mechanism; 3. a vertical support plate; 4. a Y-direction knob; 5. an X-direction knob; 6. a first fixed block; 7. a second fixed block; 8. a slide rail; 9. a slide board.
Detailed Description
In order to make the technical field personnel understand the utility model discloses the scheme, will combine the drawing in the embodiment of the utility model below, to the technical scheme in the embodiment of the utility model carries out clear, complete description.
As shown in fig. 1 to 3, the present embodiment is an automatic detecting machine for weak magnetic sheets of ndfeb, including:
a conveying mechanism 2 for conveying a product to be detected;
the test probe 1 is positioned above the conveying mechanism 2 and used for detecting the magnetic strength of a product to be detected;
an adjusting mechanism for adjusting the position of the test probe 1.
Carry the magnetic sheet to test probe 1 test department through conveying mechanism 2 in this embodiment, then adjust test probe 1's position through adjustment mechanism, detect the magnetic strength of magnetic sheet, and then test and select the weak magnetic sheet.
In addition, the conveying mechanism 2 in this embodiment may include a conveyor belt. The test probes 1 may be plural ones arranged along the conveying direction of the conveyor belt, and the adjusting mechanisms may be plural ones in one-to-one correspondence with the test probes 1. This embodiment can set up a plurality of test probe 1, realizes the test of the magnetic strength of a plurality of magnetic sheets, improves work efficiency.
The structure of the adjusting mechanism in this embodiment is various, for example, the adjusting mechanism includes an X-direction adjusting mechanism, a Y-direction adjusting mechanism, and a Z-direction adjusting mechanism for adjusting the positions of the test probes 1 in the X direction, the Y direction, and the Z direction, respectively. In this embodiment, the test probe 1 can be adjusted in the X direction, the Y direction, and the Z direction, so that the test probe 1 can measure the magnetism of the magnetic sheet.
In this embodiment, the Z-direction adjusting mechanism has various structural forms, for example, the Z-direction adjusting mechanism includes a vertical support plate 3, a sliding support slidably connected to the vertical support plate 3 and capable of moving in a vertical direction relative to the vertical support plate 3, and a power mechanism for driving the sliding support to move on the vertical support plate 3, and the test probe 1 is disposed on the sliding support. In this embodiment, the sliding bracket may be driven by a power mechanism to move on the vertical support plate 3, so as to achieve adjustment in the Z direction, wherein the power mechanism may have various structures, for example, an air cylinder may be adopted.
In addition, the sliding support in this embodiment includes a sliding plate 9, a sliding rail 8 is disposed on the vertical support plate 3, and a sliding member slidably connected to the sliding rail 8 is disposed on the sliding plate. The sliding member in this embodiment has various structural forms, and may be a sliding block or a pulley, for example.
In this embodiment, the sliding bracket includes a first fixing block 6 fixed on the sliding plate and a second fixing block 7 connected to the first fixing block 6 and capable of moving relatively, and the test probe 1 is fixed on the second fixing block 7.
The Y-direction adjusting mechanism in this embodiment may include a gear, a rack engaged with the gear, and a Y-direction knob 4 for rotating the gear. When adjusting test probe 1 in the ascending position of Y side, can rotate Y to knob 4, can make Y in this embodiment to knob 4's rotation axis with the gear cooperation, when Y rotates to knob 4, the gear rotates together, and gear and rack cooperation, and then realize rack and pinion's relative motion, the utility model discloses in can be so that the rack sets up on second fixed block 7, the gear sets up on first fixed block 6, and then realized test probe 1's Y to adjusting. Certainly, other adjusting modes can be adopted in this embodiment, for example, a threaded section can be arranged on a rotating shaft of the Y knob, and the adjustment in the Y direction is realized in a threaded fit mode between the threaded section and the first fixing block 6.
The X-direction adjusting mechanism in this embodiment may include a gear, a rack engaged with the gear, and an X-direction knob 5 for rotating the gear. The principle of the X-direction adjusting mechanism in this embodiment can refer to the principle of the Y-direction adjusting mechanism, so that the test probe 1 moves relative to the second fixed block 7.
It is obvious that the described embodiments are only some of the embodiments of the present invention, and not all of them. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts shall belong to the protection scope of the present invention.
Claims (10)
1. Neodymium iron boron weak magnetic sheet automated inspection machine, its characterized in that includes:
the conveying mechanism is used for conveying a product to be detected;
the test probe is positioned above the conveying mechanism and used for detecting the magnetic strength of the product to be detected;
and the adjusting mechanism is used for adjusting the position of the test probe.
2. The automatic detector for the weak magnetic sheets of neodymium iron boron according to claim 1, wherein the adjusting mechanism comprises an X-direction adjusting mechanism, a Y-direction adjusting mechanism and a Z-direction adjusting mechanism for adjusting the position of the test probe in the X-direction, the Y-direction and the Z-direction, respectively.
3. The automatic detector for the weak magnetic sheets of neodymium iron boron according to claim 2, wherein the Z-direction adjusting mechanism comprises a vertical support plate, a sliding support slidably connected with the vertical support plate and capable of moving in a vertical direction relative to the vertical support plate, and a power mechanism for driving the sliding support to move on the vertical support plate, and the test probe is disposed on the sliding support.
4. The automatic detecting machine for the neodymium-iron-boron weak magnetic sheets as claimed in claim 3, wherein the sliding bracket comprises a sliding plate, the vertical supporting plate is provided with a sliding rail, and the sliding plate is provided with a sliding part which is slidably connected with the sliding rail.
5. The automatic detecting machine for the neodymium-iron-boron weak-magnetic sheets according to claim 4, wherein the sliding support comprises a first fixed block fixed on the sliding plate and a second fixed block connected with the first fixed block and capable of moving relatively, and the test probe is fixed on the second fixed block.
6. The automatic detector for the weak magnetic sheets of neodymium iron boron as claimed in claim 5, wherein the Y-direction adjusting mechanism comprises a gear, a rack engaged with the gear and a Y-direction knob for rotating the gear.
7. The automatic detector for the weak magnetic sheets of neodymium iron boron as claimed in claim 5, wherein the X-direction adjusting mechanism comprises a gear, a rack matched with the gear and an X-direction knob for rotating the gear.
8. The automatic detector for the neodymium-iron-boron weak magnetic sheets according to any one of claims 3 to 7, wherein the conveying mechanism comprises a conveyor belt.
9. The automatic testing machine for the weak magnetic sheets of neodymium iron boron according to claim 8, wherein the testing probes are arranged along the conveying direction of the conveyor belt, and the adjusting mechanisms are arranged in a one-to-one correspondence with the testing probes.
10. The automatic detecting machine for the neodymium-iron-boron weak magnetic sheets as claimed in claim 8, wherein the power mechanism is a cylinder.
Priority Applications (1)
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CN202021175866.3U CN212905396U (en) | 2020-06-22 | 2020-06-22 | Neodymium iron boron weak magnetic sheet automatic detection machine |
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CN202021175866.3U CN212905396U (en) | 2020-06-22 | 2020-06-22 | Neodymium iron boron weak magnetic sheet automatic detection machine |
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CN212905396U true CN212905396U (en) | 2021-04-06 |
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CN202021175866.3U Active CN212905396U (en) | 2020-06-22 | 2020-06-22 | Neodymium iron boron weak magnetic sheet automatic detection machine |
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2020
- 2020-06-22 CN CN202021175866.3U patent/CN212905396U/en active Active
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