CN210038133U - Magnetic orientation full-detection equipment for blank - Google Patents

Abstract

The utility model discloses equipment is examined entirely to blank magnetic orientation relates to the mechanical equipment field. The blank magnetic orientation full-detection equipment is simple in structure, low in cost and simple and convenient to operate. The utility model discloses equipment is examined entirely to blank magnetic orientation, including orientation determine module and blank conveying subassembly, the orientation detects and is connected with support frame and magnetism detection piece, magnetism detection piece with the relative swing of support frame, the blank conveying subassembly conveying awaits measuring the blank and removes, blank conveying subassembly with be equipped with the interval between the magnetism detection piece.

Description

Magnetic orientation full-detection equipment for blank

Technical Field

The utility model relates to the field of mechanical equipment, especially, relate to blank magnetic orientation examines equipment entirely.

Background

Neodymium iron boron is an anisotropic magnet, and the alloy powder needs to be oriented in a magnetic field to form an oriented structure, so that the magnet has high magnetic performance. The neodymium iron boron blank is manufactured with magnetic orientation when the blank is pressed in a blank factory, the blank is processed according to the magnetic orientation in later processing, if the orientation is wrong, the whole blank is unqualified to be processed, and therefore the magnetic orientation of the blank needs to be fully detected, and then the blank enters a machining process. However, in the existing equipment, there is no special equipment for detecting the magnetic orientation of the neodymium iron boron blank, and the magnetic orientation of the neodymium iron boron blank cannot be effectively distinguished, which may affect the subsequent processing procedures.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a blank magnetic orientation examines equipment entirely that simple structure, with low costs, easy and simple to handle.

The utility model discloses equipment is examined entirely to blank magnetic orientation, including orientation determine module and blank conveying subassembly, the orientation detects and is connected with support frame and magnetism detection piece, magnetism detection piece with the relative swing of support frame, the blank conveying subassembly conveying awaits measuring the blank and removes, blank conveying subassembly with be equipped with the interval between the magnetism detection piece.

The utility model discloses equipment is examined entirely to blank magnetic orientation, wherein be equipped with first fender spare between magnetism detection piece and the blank that awaits measuring.

The utility model discloses equipment is examined entirely to blank magnetic orientation, wherein first separation keeps off the piece can dismantle the connection on the blank conveying component.

The utility model discloses equipment is examined entirely to blank magnetic orientation, wherein be connected with the connecting rod on the support frame, the connecting rod with support frame relative oscillation, magnetism detects the piece and connects the connecting rod.

The utility model discloses equipment is examined entirely to blank magnetic orientation, wherein be connected with the fixed block on the support frame, be connected with the switching piece on the connecting rod, the switching piece rotates to be connected the fixed block.

The utility model discloses equipment is examined entirely to blank magnetic orientation, wherein be connected with the fifth wheel on the fixed block, the switching piece rotates to be connected the fifth wheel.

The utility model discloses equipment is examined entirely to blank magnetic orientation, wherein orientation detection subassembly sets up on work platform, the last protection platform that is equipped with of work platform, the last second that is equipped with of protection platform separates and keeps off the piece.

The utility model discloses equipment is examined entirely to blank magnetic orientation, wherein blank conveying assembly includes conveyer belt, driver and drive wheel, the driver is connected the drive wheel, the drive wheel is connected the conveyer belt, be connected with the speed regulator on the driver.

The utility model discloses equipment is examined entirely to blank magnetic orientation, wherein blank conveying subassembly still includes the guard plate, the conveyer belt sets up two between the guard plate, two be equipped with the backup pad between the guard plate, the conveyer belt butt the backup pad.

The utility model discloses equipment is examined entirely to blank magnetic orientation, wherein orientation detection subassembly with blank conveying assembly all sets up on work platform, the last runner that is connected with of work platform.

The utility model discloses equipment is examined entirely to blank magnetic orientation lies in with prior art difference: the utility model discloses equipment is examined entirely to blank magnetic orientation, it is big to utilize the blank at orientation direction appeal, the little principle of non-orientation direction appeal detects, when the blank that awaits measuring passes through magnetism detection piece, magnetism force and the blank that awaits measuring of magnetism detection piece mutual induction, if the orientation is correct, the blank that awaits measuring can attract magnetism detection piece to produce a tiny removal, if the orientation is incorrect, magnetism detection piece can not remove, judge from this whether the orientation of the blank that awaits measuring is correct, can be used for the big batch magnetic orientation of the blank that awaits measuring to detect fast whether correct, improve detection efficiency, save the labour cost, and the simple structure of equipment, low cost, easy operation;

when the magnetic orientation of the blank to be detected is correct, the magnetic detection piece slightly moves, the magnetic detection piece and the support frame swing relatively, and after the blank moves away, the magnetic detection piece returns to the initial position under the action of restoring force so as to detect the next blank to be detected.

The utility model discloses a blank magnetic orientation examines equipment entirely and is explained in detail below with the accompanying drawing.

Drawings

Fig. 1 is the structure schematic diagram of the utility model discloses blank magnetic orientation examines equipment entirely.

The attached drawings are marked as follows: 1. an orientation detection assembly; 11. a magnetic detection member; 12. a connecting rod; 13. a transfer block; 14. a connecting wheel; 15. a fixed block; 16. a support frame; 17. a second barrier member; 2. a blank conveying assembly; 21. a speed regulator; 22. a driver; 23. a conveyor belt; 24. a protection plate; 25. a support plate; 3. a first barrier member; 4. a blank to be tested; 5. a working platform; 6. a protection platform; 7. a rotating wheel.

Detailed Description

As shown in fig. 1, the utility model discloses equipment is examined entirely to blank magnetic orientation, including orientation detection subassembly 1 and blank transfer module 2, orientation detects and is connected with support frame 16 and magnetism detection piece 11, magnetism detection piece 11 and the 16 relative oscillations of support frame, and blank transfer module 2 conveying awaits measuring blank 4 and removes, is equipped with the interval between blank transfer module 2 and the magnetism detection piece 11.

The utility model discloses equipment is examined entirely to blank magnetic orientation utilizes the blank big at orientation direction appeal, and the principle that non-orientation direction appeal is little detects. When the blank 4 to be detected passes through the magnetic detection piece 11, the magnetic force of the magnetic detection piece 11 and the blank 4 to be detected are mutually induced, if the orientation is correct, the blank 4 to be detected can attract the magnetic detection piece 11 to generate a small movement, if the orientation is incorrect, the magnetic detection piece 11 cannot move, and therefore whether the orientation of the blank 4 to be detected is correct is judged, the magnetic detection device can be used for rapidly detecting whether the magnetic orientation of the blank 4 to be detected is correct in a large scale, the detection efficiency is improved, the labor consumption cost is saved, and the device is simple in structure, low in cost and simple to operate.

When the magnetic orientation of the blank 4 to be detected is correct, the magnetic detection piece 11 slightly moves, the magnetic detection piece 11 and the support frame 16 swing relatively, and the magnetic detection piece 11 returns to the initial position under the action of restoring force so as to detect the next blank 4 to be detected.

The distance between the blank 4 to be detected and the magnetic detection piece 11 is kept as large as possible, so that the magnetic field interference of the magnetic detection piece 11 on the blank 4 to be detected is reduced, and the blank 4 to be detected is prevented from being magnetized. However, the magnetic field of the magnet is as small as possible, otherwise the blank is magnetized, and subsequent processing is affected.

Specifically, magnetism detects piece 11 and can chooses for use magnet, and magnet can be permanent magnet or electro-magnet, selects suitable magnet according to actual need.

Furthermore, a first barrier member 3 is arranged between the magnetic detection member 11 and the blank 4 to be detected, and the first barrier member 3 is made of wood, plastic, rubber and the like, so that the magnetic field isolation effect is achieved, and the blank 4 to be detected is prevented from being magnetized.

Further, first partition piece 3 can be dismantled and connect on blank conveying component 2, and first partition piece 3 can the card clamp on blank conveying component 2, conveniently adjusts the position that first partition piece 3 kept off, realizes accurately keeping off.

Further, blank conveying assembly 2 includes conveyer belt 23, driver 22 and drive wheel, and driver 22 connects the drive wheel, and conveyer belt 23 is connected to the drive wheel, is connected with governor 21 on the driver 22. The speed regulator 21 is used for regulating the rotating speed of the driver 22, so as to regulate the rotating speed of the driving wheel and regulate and control the conveying speed of the conveying belt 23, so as to adapt to different blanks 4 to be measured.

Further, blank transport module 2 still includes guard plate 24, and guard plate 24 plays the effect of protection conveyer belt 23, also plays the effect of isolation magnetic field, also plays the effect of strutting conveyer belt 23. Be connected with backup pad 25 between two adjacent guard plates 24, backup pad 25 is used for supporting conveyer belt 23 and the blank 4 that awaits measuring, prevents that conveyer belt 23 from sinking under the pressure effect of the blank 4 that awaits measuring, guarantees the accuracy of the conveying position of the blank 4 that awaits measuring, and then guarantees the response precision between magnetism detection piece 11 and the blank 4 that awaits measuring.

Specifically, the first barrier 3 is detachably attached to the support plate 25 or the two protection plates 24, the first barrier 3 is attached to the two protection plates 24 when the support plate 25 is disposed between the two protection plates 24, and the first barrier 3 is attached to the support plate 25 when the support plate 25 is covered on the two protection plates 24.

Furthermore, a connecting rod 12 is connected to the support frame 16, the connecting rod 12 and the support frame 16 swing relatively, the magnetic detection piece 11 is connected to the connecting rod 12, and the magnetic detection piece 11 is connected to the support frame 16 through the connecting rod 12, so that the swinging movement of the magnetic detection piece 11 can be observed and detected conveniently, and the observation and detection precision is improved.

Furthermore, a fixing block 15 is connected to the support frame 16, a transfer block 13 is connected to the connecting rod 12, the transfer block 13 is rotatably connected to the fixing block 15, the connecting rod 12 rotates relative to the support frame 16 through the transfer block 13, the magnetic detection piece 11 swings, and the magnetic detection device is simple in structure and low in cost.

Furthermore, the fixed block 15 is connected with a connecting wheel 14, the switching block 13 is connected with the connecting wheel 14 in a rotating mode, the connecting wheel 14 rotates more accurately and flexibly, and detection precision is improved. The connecting wheel 14 and the fixed block 15 are relatively fixed, and the transfer block 13 drives the connecting rod 12 to rotate relative to the connecting wheel 14, so that the magnetic detection piece 11 swings.

Further, the orientation detecting assembly 1 is disposed on the working platform 5, the working platform 5 is provided with a protection platform 6, and the protection platform 6 is provided with a second barrier member 17. The second barrier member 17 may be disposed between the blank conveying assembly 2 and the magnetic detection member 11, and also plays a role of blocking the magnetic field to prevent the blank 4 to be detected from being magnetized, and the second barrier member 17 and the first barrier member 3 may be disposed at the same time, or only one of them may be disposed. The second barrier member 17 can also be detachably connected, and is convenient to replace so as to adapt to magnetic environments with different strengths.

In particular, the second screen 17 is provided with one or two on the protection platform 6. When one second barrier member 17 is arranged, the second barrier member 17 is arranged between the blank conveying assembly 2 and the magnetic detection member 11, and plays a role in blocking magnetic force and limiting the magnetic detection member 11; when two second blocking parts 17 are provided, the two second blocking parts 17 are respectively arranged at two sides of the swing direction of the magnetic detection part 11, so as to play a role of limiting the magnetic detection part 11 and prevent the influence of too large swing amplitude of the magnetic detection part 11 on the recovery period.

Further, orientation detection subassembly 1 and blank transfer module 2 all set up on work platform 5, are connected with runner 7 on work platform 5, conveniently remove work platform 5, detect blank 4 to await measuring of different positions.

The utility model discloses equipment is examined entirely to blank magnetic orientation, concrete working process: the conveying belt 23 of the blank conveying assembly 2 conveys the blank 4 to be detected, when the blank 4 to be detected moves to a position opposite to the magnetic detection part 11, the magnetic detection part 11 senses the magnetic orientation of the blank 4 to be detected, when the magnetic orientation of the blank 4 to be detected is correct, the magnetic detection part 11 drives the connecting rod 12 to swing, and when the magnetic orientation of the blank 4 to be detected is incorrect, the magnetic detection part 11 does not move so as to detect or observe the magnetic orientation of the blank 4 to be detected. After the blank is conveyed away, the magnetic detection piece 11 swinging along with the connecting rod 12 returns to the initial position to detect the next blank 4 to be detected.

The above-mentioned embodiments are only for describing the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and various modifications and improvements made by those skilled in the art without departing from the design spirit of the present invention should fall into the protection scope defined by the claims of the present invention.

Claims (10)

1. The utility model provides a blank magnetic orientation examines equipment entirely which characterized in that: including orientation detection subassembly and blank conveying subassembly, orientation detects and is connected with support frame and magnetism detection piece, magnetism detection piece with the support frame relative oscillation, blank conveying subassembly conveying awaiting measuring the blank and removing, blank conveying subassembly with be equipped with the interval between the magnetism detection piece.

2. The blank magnetic orientation full inspection equipment of claim 1, characterized in that: a first barrier piece is arranged between the magnetic detection piece and the blank to be detected.

3. The blank magnetic orientation full inspection device of claim 2, wherein: the first barrier member is removably attached to the blank transport assembly.

4. The blank magnetic orientation full inspection equipment of claim 1, characterized in that: the support frame is connected with a connecting rod, the connecting rod and the support frame swing relatively, and the magnetic detection piece is connected with the connecting rod.

5. The blank magnetic orientation full inspection equipment of claim 4, characterized in that: the supporting frame is connected with a fixed block, the connecting rod is connected with a switching block, and the switching block is rotatably connected with the fixed block.

6. The blank magnetic orientation full inspection device of claim 5, characterized in that: the fixed block is connected with a connecting wheel, and the switching block is rotatably connected with the connecting wheel.

7. The blank magnetic orientation full inspection equipment of claim 1, characterized in that: the orientation detection assembly is arranged on the working platform, a protection platform is arranged on the working platform, and a second barrier piece is arranged on the protection platform.

8. The blank magnetic orientation full inspection equipment of claim 1, characterized in that: blank conveying assembly includes conveyer belt, driver and drive wheel, the driver is connected the drive wheel, the drive wheel is connected the conveyer belt, be connected with the speed regulator on the driver.

9. The apparatus for full inspection of magnetic orientation of blanks as claimed in claim 8, wherein: blank conveying unit still includes the guard plate, the conveyer belt sets up two between the guard plate, two be equipped with the backup pad between the guard plate, the conveyer belt butt the backup pad.

10. The blank magnetic orientation full inspection equipment of claim 1, characterized in that: the orientation detection assembly and the blank conveying assembly are both arranged on a working platform, and the working platform is connected with a rotating wheel.

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