CN214517011U - Ferrite magnetic steel processing equipment - Google Patents

Abstract

The utility model belongs to the technical field of the production of ferrite magnet steel, concretely relates to ferrite magnet steel processing equipment. The utility model discloses a ferrite magnet steel processing equipment compares with traditional ferrite magnet steel processing equipment and can suppress the ferrite magnet steel into semi-circular shape. The utility model provides a ferrite magnet steel processing equipment, includes semi-circular die holder, chassis, semi-circular die carrier and mounting bracket in, the setting of semi-circular die holder is on the chassis, and a semi-circular die carrier in is connected respectively at the both ends of mounting bracket, and semi-circular die carrier is located the upper end of semi-circular die holder in, and mounting bracket swing joint is on the chassis, and the mounting bracket can drive the direction removal of two semi-circular die carriers to semi-circular die holder and suppress the magnet steel.

Description

Ferrite magnetic steel processing equipment

Technical Field

The utility model belongs to the technical field of the production of ferrite magnet steel, concretely relates to ferrite magnet steel processing equipment.

Background

In a broad sense, all materials that can be magnetized by a magnetic field and mainly utilize the magnetic properties of the materials in practical applications are called magnetic materials, which include hard magnetic materials, soft magnetic materials, semi-hard magnetic materials, magnetostrictive materials, magneto-optical materials, bubble materials, magnetic refrigeration materials, and the like, wherein the most used amount of the materials is the hard magnetic materials and the soft magnetic materials; the main differences between the hard magnetic material and the soft magnetic material are that the hard magnetic material has high anisotropy field, high coercive force, large hysteresis loop area and large magnetic field required by technical magnetization to saturation; because the coercive force of the soft magnetic material is low, the soft magnetic material is easy to demagnetize after being technically magnetized to saturation and an external magnetic field is removed, and because the hard magnetic material is higher in bridge coercive force, the hard magnetic material still keeps very strong magnetism for a long time after being technically magnetized to saturation and removed, so the hard magnetic material is also called as a hydromagnetic material to be a constant magnetic material; in ancient times, people grind natural magnetite in ore into a required shape for guiding or attracting iron devices, and a compass is one of four inventions in ancient times in China and makes an important contribution to human civilization and social progress; recently, research and application of magnetic materials began after the industrial revolution and rapidly developed within a short time; nowadays, research and application of magnetic materials are incomparable in both width and depth, and development and application of various high-performance magnetic materials, especially ferrite materials, play a great role in promoting development of modern industry and high and new technology industry, but existing ferrite material pressing equipment has partial defects to be improved. But the ferrite magnetic steel can not be pressed into a semicircular shape by the current ferrite magnetic steel pressing equipment.

Disclosure of Invention

The utility model discloses a ferrite magnet steel processing equipment compares with traditional ferrite magnet steel processing equipment and can suppress the ferrite magnet steel into semi-circular shape.

The utility model provides a ferrite magnet steel processing equipment, includes semi-circular die holder, chassis, semi-circular die carrier and mounting bracket in, the setting of semi-circular die holder is on the chassis, and a semi-circular die carrier in is connected respectively at the both ends of mounting bracket, and semi-circular die carrier is located the upper end of semi-circular die holder in, and mounting bracket swing joint is on the chassis, and the mounting bracket can drive the direction removal of two semi-circular die carriers to semi-circular die holder and suppress the magnet steel.

The ferrite magnetic steel processing equipment further comprises a hydraulic cylinder, the hydraulic cylinder is fixedly connected to the bottom frame, and the telescopic end of the hydraulic cylinder is fixedly connected to the mounting frame.

The ferrite magnetic steel processing equipment further comprises an edge rod and a lower flat plate, wherein the edge rod is arranged at each of two ends of the semicircular lower die holder, and the two edge rods are respectively connected with the lower flat plate in a sliding mode.

The ferrite magnetic steel processing equipment is characterized in that a stop pin is arranged at the outer end of the side rod.

The ferrite magnet steel processing equipment further comprises a slot, a socket, vertical plates and a bidirectional screw rod, wherein the bidirectional screw rod is rotatably connected to the bottom frame, the two ends of the bidirectional screw rod are respectively in threaded connection with the vertical plates, the two vertical plates are respectively fixedly connected with the sockets, the two sockets are respectively in sliding connection with the two side rods, and the two lower flat plates are respectively fixedly connected to the two sockets. The two-way screw rod is rotated to drive the two lower flat plates to approach each other to realize closing, and the lower die body of the device is switched into a plane.

Two ear plates are symmetrically and fixedly connected between the two semicircular upper die frames. The upper flat plate is fixedly connected with a sliding frame, the sliding frame is connected to the upper flat plate in a sliding mode, the sliding frame is in threaded connection with a lead screw, the lead screw is rotatably connected to the mounting frame, and the upper flat plate is connected between the semicircular upper die frames of the two semicircular upper die frames in a sliding mode.

The rotary lead screw drives the sliding frame to move downwards, the sliding frame drives the upper flat plate to move downwards, when the upper flat plate moves between the two lug plates, the upper flat plate and the two lug plates form a plane, the two semicircular upper die frames are blocked, the upper die is switched into a plane, when the upper die and the lower die are both planes, the semicircular ferrite magnetic steel can be placed on the two lower flat plates, the mounting frame drives the upper flat plate and the two lug plates to move downwards, and the semicircular ferrite magnetic steel is pressed into horizontal ferrite magnetic steel.

The utility model relates to a ferrite magnet steel processing equipment's beneficial effect does:

the utility model discloses a moulding portion can press the ferrite magnet steel into semi-circular shape, and semi-circular die holder and two semi-circular upper die carriers are semi-circular shape to the realization presses the ferrite magnet steel into semi-circular shape, forms a plane when last flat board and two otic placodes, and two lower flat boards are close to each other and realize the closure, and when the last bed die of device all was the plane, can press semicircular ferrite magnet steel into a horizontally ferrite magnet steel.

Drawings

Fig. 1 is a first drawing of the ferrite magnetic steel processing device of the present invention;

FIG. 2 is a second drawing of the ferrite magnetic steel processing device of the present invention;

FIG. 3 is a view of a semicircular lower die holder;

FIG. 4 is a view of a semicircular upper mold frame;

FIG. 5 is a view of a mounting bracket;

FIG. 6 is a plan view;

fig. 7 is a lower panel view.

Description of reference numerals: 1-a semicircular lower die holder; 11-a chassis; 12-a slot; 13-side bar; 14-a hydraulic cylinder; 2-semicircular upper die carrier; an ear plate; 3-mounting a frame; 31-a lead screw; 4-upper flat plate; 41-a carriage; 5-lower flat plate; 51-a socket; 52-a riser; 53-two-way screw.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer and clearer, the present invention will be described in further detail below with reference to the accompanying drawings and examples.

Referring to fig. 1-2, a schematic diagram of an embodiment of pressing ferrite magnetic steel according to the present invention is shown, further, the ferrite magnetic steel is placed between a semicircular lower die holder 1 and two semicircular upper die holders 2, and an installation frame 3 drives the two semicircular upper die holders 2 to move downward, because the semicircular lower die holder 1 and the semicircular upper die holders 2 are both in a semicircular structure, and the semicircular lower die holder 1 and the semicircular upper die holders 2 can be engaged together after approaching, when the installation frame 3 drives the two semicircular upper die holders 2 thereon to move downward, the ferrite magnetic steel can be pressed to be deformed into a semicircular shape between the semicircular lower die holder 1 and the two semicircular upper die holders 2, thereby realizing pressing the ferrite magnetic steel into a semicircular shape.

Referring to fig. 3 and 5, there is shown a schematic view of an embodiment of the electrically driven mounting bracket movement according to the present invention,

further, after the hydraulic cylinder 14 on the bottom frame 11 is started, the mounting frame 3 is driven to slide up and down on the bottom frame 11, the mounting frame 3 drives the two semicircular upper die frames 2 to move up and down under the driving of the hydraulic cylinder 14, and therefore the semicircular upper die frames 2 are close to the semicircular lower die frames 1 to press the ferrite magnetic steel.

Referring to fig. 4-5, there is shown a schematic view of an embodiment of the present invention for switching the lower die bed to a flat plane,

further, the two lower flat plates 5 can slide on the side rods 13 at the two ends of the semicircular lower die holder 1 respectively, the two lower flat plates 5 are positioned at the upper end of the semicircular lower die holder 1, when the inner ends of the two lower flat plates 5 are closed, the semicircular lower die holder 1 is blocked, and at the moment, the lower die body of the device is switched to be a plane.

In this case, a stopper pin is attached to the outer end of the side bar 13 as necessary, thereby preventing the lower plate 5 from falling off the side bar 13.

Further, two-way screw 53 is installed on chassis 11, rotates two-way screw 53 and drives the riser 52 at both ends and be close to each other, and two risers 52 drive two lower flat plates 5 and be close to each other and realize the closure, and two sockets 51 slide to two slots 12 in simultaneously, and two lower flat plates 5 are opened when two-way screw 53 can the auto-lock avoid suppressing the ferrite magnet steel.

Referring to fig. 5, there is shown a schematic view of an embodiment of auxiliary pressing of both ends of the ferrite magnetic steel according to the present invention,

further, two otic placodes 21 of symmetry fixed connection between two semicircular upper die carriers 2 to make when two semicircular upper die carriers 2 move down, two otic placodes 21 assist the both ends of suppressing the ferrite magnet steel downwards, carry out supplementary suppression to the both ends of ferrite magnet steel.

Referring to fig. 6-7, there are shown schematic views of an embodiment of switching the upper mold to a flat surface according to the present invention,

further, the rotating screw rod 31 drives the sliding frame 41 to move downwards, the sliding frame 41 drives the upper flat plate 4 to move downwards, when the upper flat plate 4 moves between the two lug plates 21, the upper flat plate 4 and the two lug plates 21 form a plane, the two semicircular upper die frames 2 are blocked, and therefore the upper die is switched into the plane, when the upper die and the lower die are both planes, the semicircular ferrite magnetic steel can be placed on the two lower flat plates 5 at the moment, the mounting frame 3 drives the upper flat plate 4 and the two lug plates 21 to move downwards, and the semicircular ferrite magnetic steel is pressed into horizontal ferrite magnetic steel.

Referring to fig. 1-2, further, the bottom frame 11 is detachably connected with the semicircular lower die holder 1 through screws, so that the semicircular lower die holder 1 can be replaced conveniently.

Furthermore, the mounting frame 3 and the semicircular upper die carrier 2 are detachably connected through screws, so that the semicircular upper die carrier 2 can be conveniently replaced.

As described above, in order to avoid a gap between the planes formed between the upper flat plate 4 and the ear plates 21, the interval between the two ear plates 21 is made equal to the width of the upper flat plate 4.

Claims (10)

1. The utility model provides a ferrite magnet steel processing equipment, including semi-circular die holder (1), chassis (11), die carrier (2) and mounting bracket (3) in the semi-circle, semi-circular die holder (1) sets up on chassis (11), die carrier (2) in semi-circle are connected respectively at the both ends of mounting bracket (3), die carrier (2) are located the upper end of semi-circular die holder (1) in the semi-circle, mounting bracket (3) swing joint is on chassis (11), die carrier (2) are moved to the direction of semi-circular die holder (1) in two semi-circles can be driven in mounting bracket (3) and are suppressed the magnet steel.

2. The ferrite magnetic steel processing device according to claim 1, wherein: still include pneumatic cylinder (14), fixed connection pneumatic cylinder (14) on chassis (11), the flexible end fixed connection of pneumatic cylinder (14) is on mounting bracket (3).

3. The ferrite magnetic steel processing device according to claim 1, wherein: the die holder is characterized by further comprising a side rod (13) and a lower flat plate (5), wherein the side rod (13) is arranged at each of two ends of the semicircular lower die holder (1), and the two side rods (13) are respectively connected with the lower flat plate (5) in a sliding mode.

4. The ferrite magnetic steel processing device according to claim 3, wherein: and the outer end of the side rod (13) is provided with a stop pin.

5. The ferrite magnetic steel processing device according to claim 3, wherein: still include slot (12), socket (51), riser (52) and two-way screw rod (53), two-way screw rod (53) are rotated and are connected on chassis (11), riser (52) of threaded connection respectively in the both ends of two-way screw rod (53), socket (51) of fixed connection respectively on two riser (52), two socket (51) sliding connection respectively are on two limit poles (13), two dull and stereotyped (5) fixed connection respectively are on two sockets (51) down.

6. The ferrite magnetic steel processing device according to claim 1, wherein: the die-casting die also comprises ear plates (21), and the two semicircular upper die frames (2) are symmetrically and fixedly connected with the two ear plates (21).

7. The ferrite magnetic steel processing device according to claim 6, wherein: the die carrier is characterized by further comprising an upper flat plate (4), a sliding frame (41) and a lead screw (31), wherein the sliding frame (41) is fixedly connected to the upper flat plate (4), the sliding frame (41) is connected to the upper flat plate (4) in a sliding mode, the sliding frame (41) is connected with the lead screw (31) in a threaded mode, the lead screw (31) is rotatably connected to the mounting frame (3), and the upper flat plate (4) is connected between the two semicircular upper die carriers (2) and the semicircular upper die carriers (2) in a sliding mode.

8. The ferrite magnetic steel processing device according to claim 6, wherein: the underframe (11) is detachably connected with the semicircular lower die holder (1).

9. The ferrite magnetic steel processing device according to claim 4, wherein: the mounting frame (3) is detachably connected with the semicircular upper die frame (2).

10. The ferrite magnetic steel processing device according to claim 7, wherein: the distance between the two ear plates (21) is equal to the width of the upper flat plate (4).

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