CN112927918B - Production equipment and use method of high-performance permanent magnet element - Google Patents

Abstract

The invention discloses a high-performance permanent magnet element production device and a use method, which belong to the technical field of permanent magnet element production, and can realize the arrangement of a pressure seat capable of overturning, after the ferrite permanent magnet element is extruded, the pressure seat can drive the ferrite permanent magnet element to overturn, and is provided with two movably adjustable clamping plates, wherein the two clamping plates are respectively provided with a containing groove and an extruding lug, so that the clamping plates can play a role in supporting and fixing the pressure seat on the premise of not hindering the overturning of the pressure seat and the element, the rotation and the deviation of the pressure seat in the extruding process are prevented, the stability is improved, the extruding lugs on the clamping plates can be extruded to trigger an off-switch, the element is automatically separated from the pressure seat and falls into a cooling box for cooling and cooling, thereby being convenient for a worker to take the processed element and avoiding the worker from being scalded, the practicability is greatly improved, and the whole structure of the equipment is simple, the operation is convenient, and the popularization is suitable.

Description

Production equipment and use method of high-performance permanent magnet element

Technical Field

The invention relates to the technical field of permanent magnet element production, in particular to high-performance permanent magnet element production equipment and a use method.

Background

Permanent magnetic materials, also known as "hard magnetic materials," refer to materials that can maintain constant magnetic properties once magnetized. In practice, the permanent magnet material works in the second quadrant demagnetization part of the hysteresis loop after deep magnetic saturation and magnetization. Common permanent magnet materials include aluminum-nickel-cobalt permanent magnet alloys, iron-chromium-cobalt permanent magnet alloys, permanent magnetic ferrites, rare earth permanent magnet materials, composite permanent magnet materials, and the like.

The permanent magnetic ferrite is a kind of permanent magnetic material, the permanent magnetic element made of the permanent magnetic ferrite is called as a ferrite permanent magnetic element, and in the production process of the ferrite permanent magnetic element, a press is needed to extrude the ferrite permanent magnetic element. Therefore, a production device and a use method of the high-performance permanent magnet element are provided.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide high-performance permanent magnet element production equipment and a use method thereof, which can realize the arrangement of a pressure seat capable of overturning, after the ferrite permanent magnet element is extruded, the pressure seat can drive the ferrite permanent magnet element to overturn, and two clamp plates capable of being movably adjusted are arranged, a containing groove and an extrusion lug are respectively arranged on the two clamp plates, so that the clamp plates can play a role in supporting and fixing the pressure seat on the premise of not hindering the overturning of the pressure seat and the element, the rotation and the deviation of the pressure seat in the extrusion processing process are prevented, the stability is improved, the extrusion lug on the clamp plate can be extruded to trigger a power-off switch, the element is automatically separated from the pressure seat and falls into a cooling box for cooling and cooling, thereby being convenient for a worker to take the processed element and avoiding the scalding of the element worker, the practicability is greatly improved, and the whole structure of the equipment is simple, the operation is convenient, and the popularization is suitable.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

A high-performance permanent magnetic element production device comprises a processing table, wherein two supporting frames are fixedly connected to the top end of the processing table, a top plate is fixedly connected to the top end of each supporting frame, a hydraulic cylinder is fixedly connected to the middle of the bottom end of the top plate, a pressing plate is fixedly connected to the output end of the hydraulic cylinder, a turnover dropping groove is formed in the middle of the processing table, a turnover shaft is rotatably connected to the inner wall of the turnover dropping groove, a pressing seat is sleeved on the outer wall of the turnover shaft, a turnover motor is fixedly connected to the outer wall of one side of the front side of the processing table, an electromagnet is embedded and installed inside the pressing seat, a power-off switch is fixedly connected to the outer wall of one side of the pressing seat, adjusting grooves are formed in two sides of the turnover dropping groove, a sliding groove is formed between the adjusting grooves and the turnover dropping groove, and a linkage push rod is slidably connected to the sliding groove, the one end of linkage push rod runs through in the spout extends to linkage push rod to fixedly connected with splint, one of them set up on the outer wall of splint with the power-off switch assorted accomodate the groove, another fixedly connected with extrusion lug on the outer wall of splint, fixedly connected with prevents the eccentric bar on the bottom inner wall of adjustment tank, the slip cap is equipped with the linkage piece on preventing the outer wall of eccentric bar, the below of processing platform is provided with the cooling case, the cooling case passes through jib and processing platform fixed connection.

Furthermore, an adjusting motor is fixedly connected to the outer wall of one side of the support frame, a linkage gear is fixedly connected to the output end of the adjusting motor, an upper positioning rod, a middle positioning rod and a lower positioning rod which are fixedly connected to the support frame are arranged above the adjusting motor, and a linkage rack is connected to one side of the linkage gear in a meshed mode.

Furthermore, the bottom end of the linkage rack is fixedly connected with the linkage block, the top end of the linkage rack is fixedly connected with a positioning pointer, the upper positioning rod is positioned above the middle positioning rod, the lower positioning rod is positioned below the middle positioning rod, the adjusting motor is started through the setting of the adjusting motor, the linkage gear and the linkage rack, the adjusting motor drives the linkage gear to rotate forwards or reversely, the linkage rack can be driven to move up and down, the linkage rack can move up and down, the linkage block can be driven to move up and down, and the setting of the upper positioning rod, the middle positioning rod, the lower positioning rod and the positioning pointer can provide a positioning effect, so that the height of the linkage block can be conveniently controlled.

Furthermore, the one end activity of trip shaft runs through the outer wall in upset dropping groove to extend to with the output fixed connection of upset motor, thereby start the upset motor, can drive the trip shaft and rotate, and then drive and press the seat to overturn.

Further, the electro-magnet sets up to returning the font, the electro-magnet is connected with the power off switch electricity, the power off switch is from restoring to the throne formula normally closed switch for the electro-magnet normal condition is the on-state, and electro-magnet accessible magnetic attraction under the on-state adsorbs ferrite permanent magnetic element, thereby plays a fixed effect to the component, prevents that the component from sliding when extrusion processing, and receives the extrusion when the power off switch and triggers the back, can make the electro-magnet outage, thereby can be convenient for the component break away from and press the seat.

Furthermore, the accommodating groove is arranged in an arc shape taking the turnover shaft as the center, the accommodating groove and the extrusion convex block are both arranged on the outer wall of one side of the corresponding clamping plate close to the pressing seat, through the arrangement of the clamping plate, the accommodating groove and the extrusion convex block, when the positioning pointer is aligned with the upper positioning rod, the distance between the clamping plate and the pressing seat is far, thereby not interfering the overturn of the pressing seat and the element, when the positioning pointer is aligned with the lower positioning rod, the clamping plate is abutted against the pressing seat, the clamping plate can play a certain supporting and fixing role on the pressing seat at the moment, the pressing seat is prevented from rotating and deviating when the pressing plate extrudes the element, the stability is improved, when the positioning pointer is aligned with the middle positioning rod, the power-off switch is abutted against the clamping plate, at the moment, the pressing seat is turned over again, the extrusion convex block can extrude the power-off switch, therefore, the electromagnet is powered off, so that the electromagnet does not adsorb the element any more, and the element falls downwards.

Further, the one end that splint were kept away from to the linkage push rod runs through the spout and extends to the adjustment tank in to offset with the linkage piece, the linkage piece sets up to right angle trapezoidal form, the one end that adjustment tank and linkage piece offset sets up to the inclined plane form with linkage piece assorted, and adjustment tank and linkage piece sliding connection, fixedly connected with elasticity stay cord on the outer wall of linkage push rod, the other end of elasticity stay cord and the bottom inner wall fixed connection of adjustment tank, through the setting of spout, linkage push rod, anti-skewing pole, linkage piece, adjustment tank, elasticity stay cord for when linkage piece moves down, can promote the spout, drive splint and be close to pressing the seat, when linkage piece rebound, the spout can be drawn back to the elasticity stay cord, and the splint drive is kept away from and is pressed the seat.

Furthermore, the cooling box is arranged to be open, the cooling box is located under the overturning falling groove, and cooling water is contained in the cooling box, so that the element separated from the pressing seat can fall into the cooling box downwards, and the cooling box is cooled under the action of the cooling water in the cooling box.

The use method of the high-performance permanent magnet element production equipment comprises the following steps:

s1, placing the ferrite permanent magnet element to be processed on the top end of the pressing seat;

s2, starting the adjusting motor to drive the linkage block to move downwards until the positioning pointer points to the lower positioning rod;

s3, starting a hydraulic cylinder, driving a pressure plate to move downwards, extruding the element, and controlling the hydraulic cylinder to drive the pressure plate to reset after the element is processed;

s4, starting the adjusting motor to drive the linkage block to move upwards until the positioning pointer points to the upper positioning rod, and starting the turnover motor to rotate for half a turn, so as to drive the pressing seat and the element to turn for 180 degrees;

s5, starting the adjusting motor to drive the linkage block to move upwards until the positioning pointer points to the middle positioning rod, starting the turnover motor to rotate the semicircle, driving the pressing seat to turn over for 180 degrees again to reset the pressing seat, and enabling the processed element to fall into the cooling box;

and S6, after the element is cooled under the action of cooling water, taking out the element from the cooling box.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

(1) this scheme is provided with the seat of pressing that can overturn, carry out extrusion processing back to ferrite permanent magnetic element, press the seat to drive ferrite permanent magnetic element and overturn, and be equipped with the splint of two portable regulations, be provided with respectively on two splint and accomodate the groove, the extrusion lug, make splint can be at the prerequisite that does not hinder and press the seat, under the component upset, play a support to pressing the seat, the fixed action, prevent to press the seat to take place to rotate in extrusion processing process, the skew, stability is improved, and the extrusion lug on the splint can extrude and trigger the outage switch, make the component break away from automatically and press the seat, and fall to in the cooling box, cool off, thereby be convenient for the workman to take to the component after the processing, and can avoid the component scald the workman, the practicality is greatly improved, and equipment overall structure is simple, high durability and convenient operation, and is suitable for promoting.

(2) The adjusting motor is started through the arrangement of the adjusting motor, the linkage gear and the linkage rack, the adjusting motor drives the linkage gear to rotate forwards or reversely, the linkage rack can be driven to move up and down, the linkage rack can move up and down, the linkage block can be driven to move up and down, and the arrangement of the upper positioning rod, the middle positioning rod, the lower positioning rod and the positioning pointer can provide a positioning effect, so that the height of the linkage block can be conveniently controlled.

(3) One end activity of trip shaft runs through the outer wall in upset whereabouts groove to extend to with the output fixed connection of upset motor, thereby start the upset motor, can drive the trip shaft and rotate, and then drive and press the seat to overturn.

(4) The electro-magnet sets up to returning the font, and the electro-magnet is connected with the power off switch electricity, and the power off switch is from reset formula normally closed switch for be the on-state under the electro-magnet normal condition, electro-magnet accessible magnetic attraction under the on-state adsorbs ferrite permanent magnetic element, thereby plays a fixed effect to the component, prevents that the component from sliding when extrusion processing, and receives the extrusion when the power off switch and triggers the back, can make the electro-magnet outage, thereby can be convenient for the component break away from and press the seat.

(5) Through the splint, accomodate the groove, the setting of extrusion lug, when the positioning pointer aligns the last locating lever, splint and pressure seat are far away at a distance from, thereby do not hinder the upset of pressing seat and component, when the positioning pointer aligns down the locating lever, splint and pressure seat counterbalance, splint at this moment can play certain support to pressing the seat, the fixed action, prevent when clamp plate extrusion component, press the seat to take place to rotate, the skew, stability has been improved, when the positioning pointer aligns well locating lever, power-off switch offsets with splint, at this moment, the seat is pressed in the upset once more, can make the extrusion lug cause the extrusion to power-off switch, thereby to the electro-magnet outage, make the electro-magnet not adsorb the component again, and then make the component drop downwards.

(6) Through the setting of spout, linkage push rod, preventing inclined to one side pole, linkage piece, adjustment tank, elasticity stay cord for when linkage piece downstream, can promote the spout, drive splint and be close to pressing the seat, when linkage piece upward movement, the spout can be drawn back to the elasticity stay cord, drives splint and keeps away from pressing the seat.

(7) The cooling box is arranged to be open, the cooling box is located right below the overturning falling groove, and cooling water is contained in the cooling box, so that the element separated from the pressure seat can fall into the cooling box downwards, and the cooling box is cooled under the action of the cooling water in the cooling box.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is an enlarged view taken at A of FIG. 1 in accordance with the present invention;

FIG. 3 is a schematic cross-sectional view of the present invention at a processing station;

FIG. 4 is an enlarged view taken at B of FIG. 3 in accordance with the present invention;

FIG. 5 is a schematic view of the pressing seat of the present invention when the positioning pointer is aligned with the upper positioning rod;

FIG. 6 is a schematic view of the pressing seat of the present invention when the positioning pointer is aligned with the lower positioning rod;

FIG. 7 is a schematic view of the pressing seat when the positioning pointer is aligned with the middle positioning rod according to the present invention.

The reference numbers in the figures illustrate:

101. a processing table; 102. a support frame; 103. a top plate; 104. a hydraulic cylinder; 105. pressing a plate; 106. turning over the falling groove; 107. a turning shaft; 108. pressing a base; 109. turning over a motor; 110. an electromagnet; 111. a power-off switch; 112. a chute; 113. a linkage push rod; 114. a splint; 115. a receiving groove; 116. extruding the bump; 117. an anti-deviation rod; 118. a linkage block; 119. an adjustment groove; 120. an elastic pull rope; 201. adjusting the motor; 202. a linkage gear; 203. an upper positioning rod; 204. a middle positioning rod; 205. a lower positioning rod; 206. a linkage rack; 207. positioning a pointer; 301. a cooling box; 302. a boom.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is to be understood that the embodiments described are merely exemplary embodiments, rather than exemplary embodiments, and that all other embodiments may be devised by those skilled in the art without departing from the scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", etc. indicate orientations or positional relationships based on orientations or positional relationships shown in the drawings, which are merely for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1:

referring to fig. 1-7, a high performance permanent magnetic element production apparatus, includes a processing table 101, two supporting frames 102 are fixedly connected to a top end of the processing table 101, a top plate 103 is fixedly connected to a top end of the supporting frames 102, a hydraulic cylinder 104 is fixedly connected to a bottom middle portion of the top plate 103, a pressing plate 105 is fixedly connected to an output end of the hydraulic cylinder 104, a turnover dropping tank 106 is disposed at a middle portion of the processing table 101, a turnover shaft 107 is rotatably connected to an inner wall of the turnover dropping tank 106, a pressing seat 108 is sleeved on an outer wall of the turnover shaft 107, a turnover motor 109 is fixedly connected to an outer wall of the turnover dropping tank 106, one end of the turnover shaft 107 movably penetrates through the outer wall of the turnover dropping tank 106 and extends to be fixedly connected to an output end of the turnover motor 109, so as to start the turnover motor 109, the turnover shaft 107 can be driven to rotate, and further drive the pressing seat 108 to turn over, an electromagnet 110 is embedded in the pressing seat 108, a power-off switch 111 is fixedly connected on the outer wall of one side of the pressing seat 108, the electromagnet 110 is arranged in a shape like a Chinese character 'hui', the electromagnet 110 is electrically connected with the power-off switch 111, the power-off switch 111 is a self-reset normally closed switch, so that the electromagnet 110 is in a power-on state in a normal state, the electromagnet 110 in the power-on state can adsorb a ferrite permanent magnet element through magnetic attraction, thereby having a fixing effect on the element, preventing the element from sliding during extrusion processing, and after the power-off switch 111 is triggered by extrusion, the electromagnet 110 can be powered off, thereby facilitating the element to be separated from the pressing seat 108, adjusting grooves 119 are respectively arranged on two sides of the overturning falling groove 106, a sliding groove 112 is arranged between the adjusting groove 119 and the overturning falling groove 106, a linkage push rod 113 is slidably connected in the sliding groove 112, one end of the linkage push rod 113 extends into the linkage push rod 113 through the sliding groove 112, the cooling box 301 is arranged below the processing table 101, the cooling box 301 is fixedly connected with the processing table 101 through a hanger rod 302, the cooling box 301 is arranged in an open shape, the cooling box 301 is positioned right below the overturning falling groove 106, cooling water is contained in the cooling box 301, so that elements separated from the pressure seat 108 can fall into the cooling box 301 downwards, and the cooling box 301 is cooled and cooled under the action of the cooling water in the cooling box 301.

Referring to fig. 1-2, an adjusting motor 201 is fixedly connected to an outer wall of one side of the supporting frame 102, a linkage gear 202 is fixedly connected to an output end of the adjusting motor 201, an upper positioning rod 203, a middle positioning rod 204, and a lower positioning rod 205 are fixedly connected to the supporting frame 102 above the adjusting motor 201, a linkage rack 206 is engaged and connected to one side of the linkage gear 202, a bottom end of the linkage rack 206 is fixedly connected to the linkage block 118, a positioning pointer 207 is fixedly connected to a top end of the linkage rack 206, the upper positioning rod 203 is located above the middle positioning rod 204, the lower positioning rod 205 is located below the middle positioning rod 204, the adjusting motor 201 is started to drive the linkage gear 202 to rotate forward or backward through the arrangement of the adjusting motor 201, the linkage gear 202 is driven to move up and down, the linkage rack 206 moves up and down, and the linkage rack 206 moves up and down to drive the linkage block 118 to move up and down, The arrangement of the lower positioning rod 203, the middle positioning rod 204, the lower positioning rod 205 and the positioning pointer 207 provides a positioning effect, thereby facilitating the control of the height of the linkage block 118.

Referring to fig. 3-7, one end of the linkage push rod 113, which is far away from the clamp plate 114, penetrates through the sliding slot 112, extends into the adjusting slot 119, and abuts against the linkage block 118, the linkage block 118 is set to be in a right trapezoid shape, one end of the adjusting slot 119, which abuts against the linkage block 118, is set to be in an inclined plane shape matched with the linkage block 118, the adjusting slot 119 is slidably connected with the linkage block 118, an elastic pull rope 120 is fixedly connected to an outer wall of the linkage push rod 113, the other end of the elastic pull rope 120 is fixedly connected with an inner wall of the bottom of the adjusting slot 119, through the arrangement of the sliding slot 112, the linkage push rod 113, the anti-deviation rod 117, the linkage block 118, the adjusting slot 119, and the elastic pull rope 120, when the linkage block 118 moves downward, the sliding slot 112 is pushed, the clamp plate 114 is driven to approach the pressure seat 108, when the linkage block 118 moves upward, the elastic pull rope 120 can pull the sliding slot 112 back, the clamp plate 114 is driven away from the pressure seat 108, the accommodating slot 115 is set to be in an arc shape with the turnover shaft 107 as the center, the accommodating groove 115 and the extrusion protrusion 116 are disposed on the outer wall of the corresponding clamp plate 114 near the pressing base 108, through the arrangement of the clamp plate 114, the accommodating groove 115 and the extrusion protrusion 116, when the positioning pointer 207 is aligned with the upper positioning rod 203, as shown in fig. 5, the clamp plate 114 is far away from the pressing base 108, so as not to hinder the overturning of the pressing base 108 and the components, when the positioning pointer 207 is aligned with the lower positioning rod 205, as shown in fig. 6, the clamp plate 114 abuts against the pressing base 108, and at this time, the clamp plate 114 can play a certain supporting and fixing role on the pressing base 108, so as to prevent the pressing base 108 from rotating and shifting when the pressing plate 105 extrudes the components, when the positioning pointer 207 is aligned with the middle positioning rod 204, as shown in fig. 7, the power-off switch 111 abuts against the clamp plate 114, at this time, the pressing base 108 is overturned again, so that the extrusion protrusion 116 extrudes the power-off switch 111, thereby powering off the electromagnet 110 and no longer adsorbing the components, thereby dropping the component downward.

Referring to fig. 1-7, a method for using a high performance permanent magnetic device manufacturing apparatus includes the following steps:

s1, placing the ferrite permanent magnet element to be processed on the top end of the pressing seat 108;

s2, starting the adjusting motor 201 to drive the linkage block 118 to move downwards until the positioning pointer 207 points to the lower positioning rod 205;

s3, starting the hydraulic cylinder 104, driving the pressing plate 105 to move downwards, extruding the element, and controlling the hydraulic cylinder 104 to drive the pressing plate 105 to reset after the element is processed;

s4, starting the adjustment motor 201 to drive the linkage block 118 to move upward until the positioning pointer 207 points to the upper positioning rod 203, and starting the flipping motor 109 to rotate for half a turn, thereby driving the pressing base 108 and the element to flip 180 degrees;

s5, starting the adjusting motor 201, driving the linkage block 118 to move upwards until the positioning pointer 207 points to the middle positioning rod 204, starting the overturning motor 109 to rotate the semicircle, driving the pressing seat 108 to overturn for 180 degrees again, resetting the pressing seat 108, and enabling the processed element to fall into the cooling box 301;

and S6, after the element is cooled under the action of cooling water, taking out the element from the cooling box 301.

The invention is provided with a pressure seat 108 which can be overturned, after the ferrite permanent magnetic element is extruded, the pressure seat 108 can drive the ferrite permanent magnetic element to overturn, and is provided with two movably adjustable clamping plates 114, the two clamping plates 114 are respectively provided with a receiving groove 115 and an extruding lug 116, so that the clamping plates 114 can play a role of supporting and fixing the pressure seat 108 on the premise of not hindering the overturning of the pressure seat 108 and the element, the pressure seat 108 is prevented from rotating and deviating in the extruding process, the stability is improved, and the extruding lug 116 on the clamping plate 114 can extrude to trigger a power-off switch 111, so that the element is automatically separated from the pressure seat 108 and falls into a cooling box 301 for cooling and cooling, thereby being convenient for a worker to take the processed element, avoiding the element from scalding the worker, greatly improving the practicability, and the whole structure of the device is simple and convenient to operate, is suitable for popularization.

The foregoing is only a preferred embodiment of the present invention; the scope of the invention is not limited thereto. Any person skilled in the art should be able to cover the technical scope of the present invention by equivalent or modified solutions and modifications within the technical scope of the present invention.

Claims (10)

1. The utility model provides a high performance permanent magnetism component production facility, includes processing platform (101), two support frames (102) of top fixedly connected with of processing platform (101), the top fixedly connected with roof (103) of support frame (102), the bottom middle part fixedly connected with pneumatic cylinder (104) of roof (103), fixedly connected with clamp plate (105) on the output of pneumatic cylinder (104), its characterized in that: the middle part of the processing table (101) is provided with a turnover falling groove (106), the inner wall of the turnover falling groove (106) is rotatably connected with a turnover shaft (107), the outer wall of the turnover shaft (107) is sleeved with a pressing seat (108), the outer wall of one side of the front surface of the processing table (101) is fixedly connected with a turnover motor (109), an electromagnet (110) is embedded and installed inside the pressing seat (108), the outer wall of one side of the pressing seat (108) is fixedly connected with a power-off switch (111), the two sides of the turnover falling groove (106) are both provided with adjusting grooves (119), a sliding groove (112) is formed between the adjusting grooves (119) and the turnover falling groove (106), the sliding groove (112) is internally connected with a linkage push rod (113), one end of the linkage push rod (113) runs through the sliding groove (112) and extends into the linkage push rod (113) and is fixedly connected with a clamping plate (114), one of them seted up on the outer wall of splint (114) with outage switch (111) assorted accomodate groove (115), another fixedly connected with extrusion lug (116) on the outer wall of splint (114), fixedly connected with prevents eccentric rod (117) on the bottom inner wall of adjustment tank (119), the slip cover is equipped with linkage block (118) on the outer wall of preventing eccentric rod (117), the below of processing platform (101) is provided with cooling box (301), cooling box (301) are through jib (302) and processing platform (101) fixed connection.

2. The production equipment of the high-performance permanent magnetic element according to claim 1, characterized in that: fixedly connected with adjusting motor (201) on the outer wall of support frame (102) one side, fixedly connected with linkage gear (202) on the output of adjusting motor (201), the top of adjusting motor (201) is equipped with upper positioning rod (203), well locating rod (204), lower locating rod (205) of fixed connection on support frame (102), the meshing of one side of linkage gear (202) is connected with linkage rack (206).

3. The production equipment of the high-performance permanent magnetic element according to claim 2, characterized in that: the bottom end of the linkage rack (206) is fixedly connected with the linkage block (118), the top end of the linkage rack (206) is fixedly connected with a positioning pointer (207), the upper positioning rod (203) is positioned above the middle positioning rod (204), and the lower positioning rod (205) is positioned below the middle positioning rod (204).

4. The high-performance permanent magnet element production equipment according to claim 1, characterized in that: one end of the turning shaft (107) movably penetrates through the outer wall of the turning falling groove (106) and extends to be fixedly connected with the output end of the turning motor (109).

5. The production equipment of the high-performance permanent magnetic element according to claim 1, characterized in that: the electromagnet (110) is arranged in a shape of a Chinese character 'hui', the electromagnet (110) is electrically connected with a power-off switch (111), and the power-off switch (111) is a self-resetting normally closed switch.

6. The production equipment of the high-performance permanent magnetic element according to claim 1, characterized in that: the accommodating groove (115) is arranged to be arc-shaped with the turnover shaft (107) as the center, and the accommodating groove (115) and the extrusion bump (116) are arranged on the outer wall of one side, close to the pressing seat (108), of the corresponding clamping plate (114).

7. The production equipment of the high-performance permanent magnetic element according to claim 1, characterized in that: one end of the linkage push rod (113) far away from the clamping plate (114) penetrates through the sliding groove (112) to extend into the adjusting groove (119) and is abutted to the linkage block (118).

8. The production equipment of a high-performance permanent magnetic element according to claim 7, characterized in that: the linkage block (118) is arranged to be in a right-angle trapezoid shape, one end, abutted against the linkage block (118), of the linkage push rod (113) is arranged to be in an inclined plane shape matched with the linkage block (118), the linkage push rod (113) is connected with the linkage block (118) in a sliding mode, an elastic pull rope (120) is fixedly connected to the outer wall of the linkage push rod (113), and the other end of the elastic pull rope (120) is fixedly connected with the inner wall of the bottom of the adjusting groove (119).

9. The production equipment of the high-performance permanent magnetic element according to claim 1, characterized in that: the cooling box (301) is open, the cooling box (301) is located right below the overturning and dropping groove (106), and cooling water is contained in the cooling box (301).

10. Use of a high-performance permanent magnet element production plant according to any of claims 1-9, characterized in that: the method comprises the following steps:

s1, placing the ferrite permanent magnet element to be processed on the top end of the pressing seat (108);

s2, starting an adjusting motor (201) to drive a linkage block (118) to move downwards until a positioning pointer (207) points to a lower positioning rod (205);

s3, starting the hydraulic cylinder (104), driving the pressing plate (105) to move downwards, extruding the element, and controlling the hydraulic cylinder (104) to drive the pressing plate (105) to reset after the element is extruded;

s4, starting an adjusting motor (201), driving a linkage block (118) to move upwards until a positioning pointer (207) points to an upper positioning rod (203), and starting a turnover motor (109) to rotate for half a circle, so as to drive a pressing seat (108) and an element to turn for 180 degrees;

s5, starting an adjusting motor (201), driving a linkage block (118) to move upwards until a positioning pointer (207) points to a middle positioning rod (204), starting a turnover motor (109) to rotate a semicircle, driving a pressure seat (108) to turn over for 180 degrees again, resetting the pressure seat (108), and enabling the processed element to fall into a cooling box (301);

and S6, after the element is cooled under the action of cooling water, taking out the element from the cooling box (301).

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