CN220709335U - Induction magnetite magnetic pole detection mechanism - Google Patents

Abstract

The utility model relates to the technical field of magnetizing equipment, in particular to an induction magnet magnetic pole detection mechanism. According to the utility model, whether the magnet is magnetized or not is automatically detected, and the number of magnetized magnetic poles is automatically detected, so that the number of magnetic poles can be accurately confirmed, when the magnet is detected to be magnetized abnormally, the magnet which is not magnetized can be detected and put into a defective product box, so that the defective products can be conveniently and intensively treated in the later period, the error probability is further reduced, and the overall working efficiency of the magnet detection device is improved.

Description

Induction magnetite magnetic pole detection mechanism

Technical Field

The utility model relates to the technical field of magnetizing equipment, in particular to an induction magnet magnetic pole detection mechanism.

Background

The magnet needs artificial processing that magnetizes in the production course of working of industry, and then makes the magnet have the magnetism of certain intensity, at present, all adopts the manual work to carry out the detection of magnet after the inductance magnetic ring magnetizes, and the magnetic pole quantity also can only rely on the equipment of magnetizing of earlier stage selection to confirm, and the error appears easily, and the defective products that the very easy non-magnetization completed appear, and then reduced the yields of magnet factory production, later stage still need carry out the screening of qualification products and defective products to the magnet, has reduced the machining efficiency of magnet.

In view of this, we propose an induction magnet magnetic pole detection mechanism to solve the existing problems.

Disclosure of Invention

The present utility model is directed to an induction magnet magnetic pole detection mechanism, which solves the problems set forth in the above-mentioned background art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an induction magnetite magnetic pole detection mechanism, includes transport module, magnetic pole detection tool, mount table and first carousel, first carousel is installed to top one side of mount table, and the second carousel is installed to the top opposite side of mount table, transport module is installed to top central point department of mount table, upper and lower cylinder is installed to one side of transport module, clamping jaw cylinder is installed in the front of upper and lower cylinder, and clamping jaw cylinder's one side installs magnetite clamping jaw, the detection table is installed in transport module's front, the magnetic pole detection tool is installed at the top of detection table, the magnetic pole detection inductor is installed at the top of magnetic pole detection tool, rotating electrical machines is installed to the bottom of detection table.

Preferably, the carrier table is installed in the first turntable, and the mounting grooves are formed in the first turntable at equal intervals.

Preferably, a plurality of groups of transfer tables are installed in the second turntable at equal intervals, and the specification of the transfer tables is consistent with that of the carrier table.

Preferably, a defective product slide way is installed on one side of the detection table, and a defective product box is installed on the front surface of the defective product slide way.

Compared with the prior art, the utility model has the beneficial effects that:

according to the utility model, whether the magnet is magnetized or not is automatically detected, and the number of magnetized magnetic poles is automatically detected, so that the number of magnetic poles can be accurately confirmed, when the magnet is detected to be magnetized abnormally, the magnet which is not magnetized can be detected and put into a defective product box, so that the defective products can be conveniently and intensively treated in the later period, the error probability is further reduced, and the overall working efficiency of the magnet detection device is improved.

Drawings

FIG. 1 is a schematic three-dimensional perspective view of the present utility model;

fig. 2 is a schematic diagram of the front structure of the present utility model.

In the figure: 1. a carrier stage; 2. a magnet clamping jaw; 3. a clamping jaw cylinder; 4. an upper cylinder and a lower cylinder; 5. a carrying module; 6. a rotating electric machine; 7. a magnetic pole detection jig; 8. a magnetic pole detection sensor; 9. defective product slide ways; 10. a defective product box; 11. a mounting table; 12. a detection table; 13. a first turntable; 14. and a second turntable.

Detailed Description

The technical scheme of the utility model is further described below with reference to the attached drawings and specific embodiments.

Example 1

As shown in fig. 1 and 2, the induction magnet magnetic pole detection mechanism provided by the utility model comprises a carrying module 5, a magnetic pole detection jig 7, an installation table 11 and a first rotary table 13, wherein the first rotary table 13 is installed on one side of the top of the installation table 11, the second rotary table 14 is installed on the other side of the top of the installation table 11, the installation table 11 can provide the installation position for the components at the top, the first rotary table 13 can rotate so as to drive the magnets to change positions, so as to be matched with other components for processing the magnets, the second rotary table 14 can transport the qualified magnets, the carrying module 5 is installed at the central position of the top of the installation table 11, the carrying module 5 can drive the upper cylinder 4 and the components around the upper cylinder 4 so as to replace manual movement of the magnets, the upper cylinder 4 and the lower cylinder 4 can drive the cylinder 3 to longitudinally move, further, after the magnets are clamped by the cylinders, the height of the magnets is adjusted, the clamping jaw cylinders 3 are installed on the front faces of the upper cylinder 4, the clamping jaw 2 are installed on one side of the cylinder 3 so as to be convenient for matching with other components at the other sides of the magnets, the clamping jaw 3 can drive the clamping jaw 2, the clamping jaw 2 can be installed on the clamping jaw 2 so as to detect the top, the magnetic pole can be installed on the clamping jaw 2, the clamping jaw 12 can be conveniently, the top is installed on the clamping jaw 7 can be installed to be convenient for detecting the top, and the magnetic pole is installed on the clamping jaw 12, the clamping jaw 12 can be installed to be convenient for the top, and can be installed to be used for detecting the top, and can move, and can be used for detecting the position 12, and can be installed for the clamping position to be installed for the clamping position 12, and can and can be installed for the front order to be convenient to be used for the front and convenient, the magnetic pole detection inductor 8 can detect magnetic poles when the magnet rotates, and then whether the magnet is qualified or not is automatically judged, the rotary motor 6 is installed at the bottom of the detection table 12, the rotary motor 6 can adopt YE3-100W type, and the magnetic pole detection jig 7 can be driven to rotate after the rotary motor 6 is electrified, so that the magnet is driven to synchronously rotate at a constant speed.

Further, the carrier table 1 is installed inside the first turntable 13, and the mounting grooves are formed in the first turntable 13 at equal intervals, so that the carrier table 1 can provide a placement position for the magnets, and further can be matched with the carrying module 5 to move the magnets.

Further, a plurality of groups of transfer tables are installed in the second turntable 14 at equal intervals, the specification of the transfer tables is consistent with that of the carrier table 1, and the transfer tables can provide positions for placing magnets on the second turntable 14, so that the magnets after being qualified in detection can be conveniently processed in subsequent procedures.

Further, a defective slide 9 is mounted on one side of the detection table 12, and a defective box 10 is mounted on the front side of the defective slide 9, and the defective magnets which are unqualified in detection are guided by the defective slide 9, so that defective products can slide into the defective box 10 for centralized processing.

The working principle of the induction magnet magnetic pole detection mechanism based on the first embodiment is as follows: after magnetizing, the carrier table 1 is rotated to a preset position, the upper and lower cylinders 4 move the magnet clamping jaw 2 downwards to the preset position, the clamping jaw cylinders 3 work to enable the magnet clamping jaw 2 to clamp the magnet, the upper and lower cylinders 4 drive the clamping jaw cylinders 3 to move upwards to the original position, the carrying module 5 moves the magnet clamping jaw 2 to the position above the magnetic pole detection jig 7, the magnet clamping jaw 2 moves downwards to the preset position through the upper and lower cylinders 4, the clamping jaw cylinders 3 work to enable the magnet clamping jaw 2 to loosen, the magnet falls on the magnetic pole detection jig 7, the rotating motor 6 works to enable the magnet to rotate, the magnetic pole detection sensor 8 detects the number of magnet poles in the magnet rotating process, if the detection result is incorrect, the upper and lower cylinders 4 move the magnet clamping jaw 2 downwards to the preset position, the clamping jaw cylinders 3 work to enable the magnet clamping jaw 2 to clamp the magnet, the upper and lower cylinders 4 drive the clamping jaw cylinders 3 to move upwards to the original position, the carrying module 5 moves the magnet clamping jaw 2 to the position above the defective slide 9, the magnet clamping jaw 2 is loosened, and then the defective slide into the defective slide 9; if the detection result is correct, the carrying module 5 moves the magnet clamping jaw 2 to the upper part of the magnetic pole detection jig 7, the upper cylinder 4 and the lower cylinder 4 move the magnet clamping jaw 2 to the preset position, the clamping jaw cylinder 3 works to enable the magnet clamping jaw 2 to be loosened, the magnet falls into the upper part of the second rotary table 14, the next procedure is carried out, the above-mentioned actions are repeated in sequence, and the equipment automatically operates.

The above-described embodiments are merely a few preferred embodiments of the present utility model, and many alternative modifications and combinations of the above-described embodiments will be apparent to those skilled in the art based on the technical solutions of the present utility model and the related teachings of the above-described embodiments.

Claims (4)

1. The utility model provides an induction magnet magnetic pole detection mechanism, includes transport module (5), magnetic pole detection tool (7), mount table (11) and first carousel (13), its characterized in that: first carousel (13) are installed to top one side of mount table (11), and second carousel (14) are installed to the top opposite side of mount table (11), transport module (5) are installed in top central point department of mount table (11), cylinder (4) about one side of transport module (5) is installed, clamping jaw cylinder (3) are installed in the front of cylinder (4) about, and one side of clamping jaw cylinder (3) installs magnetite clamping jaw (2), detection platform (12) are installed in the front of transport module (5), magnetic pole detection tool (7) are installed at the top of detection platform (12), magnetic pole detection inductor (8) are installed at the top of magnetic pole detection tool (7), rotating electrical machines (6) are installed to the bottom of detection platform (12).

2. The induction magnet pole detection mechanism according to claim 1, wherein: the carrier table (1) is arranged in the first rotating disc (13), and mounting grooves are formed in the first rotating disc (13) at equal intervals.

3. The induction magnet pole detection mechanism according to claim 1, wherein: a plurality of groups of transfer tables are installed in the second turntable (14) at equal intervals, and the specification of the transfer tables is consistent with that of the carrier table (1).

4. The induction magnet pole detection mechanism according to claim 1, wherein: defective product slide ways (9) are installed on one side of the detection table (12), and defective product boxes (10) are installed on the front surfaces of the defective product slide ways (9).