CN116174099A - Magnetic fluid injection molding device - Google Patents

Abstract

The invention discloses a magnetic fluid injection molding processing device, which relates to the technical field of magnetic fluid processing and comprises a fixed seat grinding tank, a storage box, a first collecting box and a second collecting box, wherein the second collecting box is positioned at one side of the first collecting box, and a processing mechanism is further arranged. According to the invention, the processing mechanism is arranged, the output end of the driving motor rotates positively to drive the first spur gear and the second spur gear to rotate through mechanical transmission, the output end of the driving motor rotates reversely to drive the blocking block to move downwards through mechanical transmission, the ground material falls to the top end of the screen, and the second rotating rod rotates to drive the screen to vibrate through mechanical transmission, so that the grinding operation of magnetic fluid is facilitated, the screening operation of the ground magnetic fluid powder is facilitated, the magnetic fluid powder which does not reach the grinding specification is screened out, and the efficiency of the magnetic fluid processing is further improved.

Description

Magnetic fluid injection molding device

Technical Field

The invention relates to the technical field of magnetic fluid processing, in particular to a magnetic fluid injection molding processing device.

Background

The magnetic fluid is also called magnetic liquid, ferrofluid or magnetic liquid, is a novel functional material, has the fluidity of liquid and the magnetism of solid magnetic material, is a stable colloidal liquid formed by mixing magnetic solid particles with the diameter of nanometer magnitude (below 10 nanometers), base carrier liquid (also called medium) and surfactant, has no magnetic attraction when static and shows magnetism when an external magnetic field acts, has wide application in practice, has high academic value in theory, has excellent magnetic fluid performance produced by nano metal and alloy powder, and can be widely applied to the fields of magnetic fluid sealing, shock absorption, medical equipment, sound adjustment, optical display, magnetic fluid dressing and the like under various harsh conditions.

At present, when the magnetic fluid is processed by injection molding, the magnetic fluid is ground through tooth gaps among gears, and then the magnetic fluid is processed into the size of the required specification, but when the magnetic fluid is processed by the magnetic fluid processing device at present, only the magnetic fluid is ground, and then the ground magnetic fluid powder is manually screened by manpower, so that the processing procedure and the processing time of the magnetic fluid are increased, the processing efficiency of the magnetic fluid is greatly reduced, and meanwhile, the workload of workers is increased through the step of manual screening of workers.

Disclosure of Invention

The invention aims at: in order to solve the problem of low magnetic fluid processing efficiency caused by manual screening of magnetic fluid powder by a worker, the magnetic fluid injection molding device is provided.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a magnetic fluid processingequipment that moulds plastics, includes the fixing base, the one end of fixing base is through welded fastening has the grinding jar, the top of fixing base is through the bolt fastening has the storage case, the storage case is connected through the connecting pipe with the grinding jar, the one end of fixing base is provided with first collection box, first collection box is located the below of grinding jar, the one end of fixing base is provided with the second and collects the box, the second is collected the box and is located one side of first collection box, still including processing mechanism, processing mechanism is including the motor support that is fixed in the grinding jar top through the bolt fastening, the top of motor support is through the bolt fastening driving motor, driving motor's bottom is provided with first synchronizing wheel, the bottom of first synchronizing wheel is provided with first rotation post, the bottom of first rotation post runs through to the inside of grinding jar, the second rotation post has been cup jointed to the bottom of first rotation post, the outer wall engagement of first straight gear has the second straight gear, the bottom of first rotation post is provided with driving motor, the bottom of first rotation post is provided with first rotary knob through the inside the first rotary knob, the first rotary knob is provided with first rotary knob and the inside the first rotary knob.

As still further aspects of the invention: the processing mechanism further comprises a synchronous belt meshed with the outer wall of the first synchronous wheel, a second synchronous wheel is meshed with the inner wall of the synchronous belt, the second synchronous wheel is located at one end of the first synchronous wheel, a first rotating rod is arranged at the bottom end of the second synchronous wheel, the bottom end of the first rotating rod penetrates into the fixed seat, a second rotating rod is sleeved at the bottom end of the first rotating rod, a moving rod is sleeved on the outer wall of the second rotating rod, one end of the moving rod penetrates out of the fixed seat, a vertical rod is fixedly welded at the top end of the moving rod, a blocking block is fixedly welded at the top end of the vertical rod and located below the first straight gear, a boss is formed at the bottom end of the first rotating rod, a second extrusion block is arranged on the outer wall of the boss, a second sliding block is arranged inside the second rotating rod, the end of the second sliding block is provided with a second spring fixedly connected with the inner wall of the second rotating rod, the bottom end of the second rotating rod is fixedly provided with a third rotating rod through welding, the bottom end of the third rotating rod is fixedly provided with a first bevel gear through welding, one end of the first bevel gear is meshed with a second bevel gear, one end of the second bevel gear is fixedly provided with a third rotating column through welding, one end of the third rotating column penetrates through the outside of the fixed seat, one end of the third rotating column is fixedly provided with a rotating disc through welding, one end of the rotating disc is fixedly provided with an extrusion column through welding, the inside of the fixed seat is sleeved with a cross rod, the cross rod is positioned above the third rotating column, the top end of the cross rod is provided with a third spring fixedly connected with the inner wall of the fixed seat, one end of the cross rod is fixedly provided with an extrusion seat through welding, the top end of the extrusion seat is fixedly provided with a screen through a bolt, the screen mesh is located directly above the second collection box.

As still further aspects of the invention: the first rotating column is rotationally connected with the inner wall of the grinding tank through a bearing, the second rotating column is rotationally connected with the inner wall of the grinding tank through a bearing, and a sealing piece is arranged at the joint of the grinding tank and the second rotating column.

As still further aspects of the invention: the inside of second pivoted post is provided with the pivoted groove with round platform and first extrusion piece rotation orbit assorted, the one end of first sliding block sets up to the cambered surface form, just the inside of second pivoted post is provided with the removal groove with first sliding block movement orbit assorted.

As still further aspects of the invention: the second spur gears are provided with a plurality of, and the top ends of the second spur gears are fixedly connected with connecting columns through welding, and the connecting columns are rotationally connected with the inner wall of the grinding tank through bearings.

As still further aspects of the invention: the first synchronous wheel is rotationally connected with the inner wall of the fixed seat through a bearing, the outer wall of the second rotating rod is connected with a fixing plate through a bearing, and the fixing plate is fixedly connected with the inner wall of the fixed seat through a bolt.

As still further aspects of the invention: the inside of second dwang is provided with the rotatory groove with boss and second extrusion piece rotation orbit assorted, the one end of second sliding block sets up to the cambered surface form, just the inside of second dwang is provided with the sliding tray with second sliding block movement orbit assorted.

As still further aspects of the invention: the outer wall of second dwang is provided with two opposite spiral grooves, the inside of dwang is provided with the crescent moon round pin that cup joints mutually with second dwang outer wall spiral groove, just the one end of fixing base is provided with the removal logical groove with dwang moving track assorted, the bottom of grinding jar is provided with the row material logical groove with shutoff piece moving track assorted.

As still further aspects of the invention: the bottom of first bevel gear is through welded fastening there being the connecting rod, the connecting rod passes through the inner wall rotation of bearing and fixing base and is connected, the third rotates the post and passes through the inner wall rotation of bearing and fixing base and be connected, the one end of fixing base is provided with the slip logical groove with horizontal pole removal orbit assorted, the bottom shaping of extrusion seat has the semicylindrical lug.

Compared with the prior art, the invention has the beneficial effects that:

through setting up processing mechanism, driving motor output forward rotation drives first straight gear, second straight gear through mechanical transmission and rotates, driving motor output reverse rotation drives the shutoff piece through mechanical transmission and moves down, and the material after the grinding drops to the top of screen cloth, and the second dwang rotates and drives the operation that the screen cloth vibrates through mechanical transmission simultaneously, is favorable to carrying out the operation of grinding processing to the magnetic fluid through this structure, carries out the operation of screening to the magnetic fluid powder after the grinding simultaneously, is favorable to sieving out the magnetic fluid powder that does not reach the grinding specification, and then has improved the efficiency when the magnetic fluid processing.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic view of the internal structure of the grating tank of the present invention;

FIG. 3 is a schematic view of the inner structure of a second rotary column according to the present invention;

FIG. 4 is a schematic view of the internal structure of the fixing base of the present invention;

FIG. 5 is a schematic view of the internal structure of a second rotary lever according to the present invention;

FIG. 6 is a schematic view of another view angle inside the fixing base of the present invention;

fig. 7 is an enlarged schematic view of the structure of fig. 6 at a in accordance with the present invention.

In the figure: 1. a fixing seat; 2. a milling tank; 3. a storage bin; 4. a processing mechanism; 401. a driving motor; 402. a first synchronizing wheel; 403. a first rotating column; 404. a second rotating column; 405. a first straight gear; 406. a second spur gear; 407. a first extrusion block; 408. a first slider; 409. a first spring; 410. a synchronous belt; 411. a second synchronizing wheel; 412. a first rotating lever; 413. a second rotating lever; 414. a moving rod; 415. a vertical rod; 416. a block; 417. a second extrusion block; 418. a second slider; 419. a second spring; 420. a third rotating lever; 421. a first bevel gear; 422. a second bevel gear; 423. a third rotating column; 424. a rotating disc; 425. an extrusion column; 426. a cross bar; 427. a third spring; 428. extruding a base; 429. a screen; 5. a first collection box; 6. and a second collection box.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" 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 explicitly specified and limited otherwise, the terms "mounted," "connected," and "configured" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art. Hereinafter, an embodiment of the present invention will be described in accordance with its entire structure.

Referring to fig. 1-7, in an embodiment of the present invention, a magnetic fluid injection molding device includes a fixing base 1, one end of the fixing base 1 is fixed with a grinding tank 2 through welding, a top end of the fixing base 1 is fixed with a storage tank 3 through a bolt, the storage tank 3 is connected with the grinding tank 2 through a connecting pipe, one end of the fixing base 1 is provided with a first collecting box 5, the first collecting box 5 is located below the grinding tank 2, one end of the fixing base 1 is provided with a second collecting box 6, the second collecting box 6 is located at one side of the first collecting box 5, further includes a processing mechanism 4, the processing mechanism 4 includes a motor bracket fixed at the top end of the grinding tank 2 through a bolt, a driving motor 401 is fixed at the top end of the motor bracket through a bolt, a first synchronizing wheel 402 is arranged at the bottom end of the driving motor 401, a first rotating column 403 is arranged at the bottom end of the first synchronizing wheel 402, a second rotating column 404 is sleeved at the bottom end of the first rotating column 403, a first spur gear 405 is fixed at the bottom end of the second rotating column 404 through welding, an outer wall 406 is meshed with a first spur gear 405, a first pressing block 408 is arranged at the bottom end of the first rotating column 404 is connected with a first rotating column 408 through a first sliding block 408, and a first sliding block is fixed at the bottom end of the first rotating column 408 is arranged inside the first rotating column 408.

In this embodiment: the grinding operation of the magnetic fluid is facilitated by the processing mechanism 4, and meanwhile, the screening operation of the ground magnetic fluid powder is facilitated, the magnetic fluid powder which does not reach the grinding specification is conveniently screened out, and therefore the efficiency of the magnetic fluid processing is improved.

Referring to fig. 1 to 7, the processing mechanism 4 further includes a synchronous belt 410 engaged with the outer wall of the first synchronous wheel 402, a second synchronous wheel 411 is engaged with the inner wall of the synchronous belt 410, the second synchronous wheel 411 is located at one end of the first synchronous wheel 402, a first rotating rod 412 is disposed at the bottom end of the second synchronous wheel 411, the bottom end of the first rotating rod 412 penetrates into the fixed seat 1, a second rotating rod 413 is sleeved at the bottom end of the first rotating rod 412, a moving rod 414 is sleeved at the outer wall of the second rotating rod 413, one end of the moving rod 414 penetrates out of the fixed seat 1, a vertical rod 415 is fixedly welded at the top end of the moving rod 414, a blocking block 416 is fixedly welded at the top end of the vertical rod 415, the blocking block 416 is located below the first straight gear 405, a boss is formed at the bottom end of the first rotating rod 412, a second extruding block 417 is disposed at the outer wall of the boss, a second sliding block 418 is disposed inside the second rotating rod 413, one end of the second sliding block 418 is provided with a second spring 419 fixedly connected with the inner wall of the second rotating rod 413, the bottom end of the second rotating rod 413 is fixedly provided with a third rotating rod 420 through welding, the bottom end of the third rotating rod 420 is fixedly provided with a first bevel gear 421 through welding, one end of the first bevel gear 421 is meshed with a second bevel gear 422, one end of the second bevel gear 422 is fixedly provided with a third rotating column 423 through welding, one end of the third rotating column 423 penetrates to the outside of the fixed seat 1, one end of the third rotating column 423 is fixedly provided with a rotating disc 424 through welding, one end of the rotating disc 424 is fixedly provided with a squeezing column 425 through welding, the inside of the fixed seat 1 is sleeved with a cross rod 426, the cross rod 426 is positioned above the third rotating column 423, the top end of the cross rod 426 is provided with a third spring 427 fixedly connected with the inner wall of the fixed seat 1, one end of the cross rod 426 is fixedly provided with a squeezing seat 428 through welding, the top end of the extrusion seat 428 is fixed with a screen 429 through a bolt, and the screen 429 is positioned right above the second collecting box 6; the first rotating column 403 is rotationally connected with the inner wall of the grinding tank 2 through a bearing, the second rotating column 404 is rotationally connected with the inner wall of the grinding tank 2 through a bearing, and a sealing piece is arranged at the joint of the grinding tank 2 and the second rotating column 404; a rotating groove matched with the rotating track of the round table and the first extrusion block 407 is formed in the second rotating column 404, one end of the first sliding block 408 is in a cambered surface shape, and a moving groove matched with the moving track of the first sliding block 408 is formed in the second rotating column 404; the second spur gears 406 are provided with a plurality of connecting columns, and the top ends of the second spur gears 406 are fixedly connected with connecting columns through welding, and the connecting columns are rotationally connected with the inner wall of the grinding tank 2 through bearings; the first synchronous wheel 402 is rotationally connected with the inner wall of the fixed seat 1 through a bearing, the outer wall of the second rotating rod 413 is connected with a fixed plate through a bearing, and the fixed plate is fixedly connected with the inner wall of the fixed seat 1 through a bolt; a rotating groove matched with the rotating track of the boss and the second extrusion block 417 is arranged in the second rotating rod 413, one end of the second sliding block 418 is arranged in a cambered surface shape, and a sliding groove matched with the moving track of the second sliding block 418 is arranged in the second rotating rod 413; the outer wall of the second rotating rod 413 is provided with two spiral grooves with opposite directions, a crescent pin sleeved with the spiral groove of the outer wall of the second rotating rod 413 is arranged in the moving rod 414, one end of the fixed seat 1 is provided with a moving through groove matched with the moving track of the moving rod 414, and the bottom end of the grinding tank 2 is provided with a discharging through groove matched with the moving track of the plugging block 416; the bottom of first bevel gear 421 is through welded fastening having the connecting rod, and the connecting rod passes through the bearing to be connected with the inner wall rotation of fixing base 1, and the third rotates post 423 and is connected with the inner wall rotation of fixing base 1 through the bearing, and fixing base 1's one end is provided with the slip logical groove with horizontal pole 426 moving trajectory assorted, and the bottom shaping of extrusion seat 428 has the semicylindrical lug.

In this embodiment: when the magnetic fluid is processed, firstly, materials stored in the storage tank 3 are conveyed to the grinding tank 2 through the connecting pipe, then the driving motor 401 works, the output end of the driving motor 401 rotates positively to drive the first straight gear 405 to rotate through mechanical transmission, the first straight gear 405 rotates to drive the second straight gear 406 to rotate, the operation of grinding the magnetic fluid is carried out through the tooth gaps between the first straight gear 405 and the plurality of second straight gears 406, after the magnetic fluid in the grinding tank 2 is grinded, the output end of the driving motor 401 rotates reversely and drives the plugging block 416 to move downwards through mechanical transmission, at the moment, the discharge groove at the bottom end of the grinding tank 2 is opened, the ground materials in the grinding tank 2 drop to the top end of the screen mesh 429 through the discharge groove, the second rotating rod 413 rotates to drive the extrusion seat 428 to move upwards through mechanical transmission, after the bottom ends of the extrusion column 425 and the extrusion seat 428 are separated, the screen mesh 429 resets and moves under the self gravity and the spring restoring force of the third spring 427, namely, the operation of grinding the magnetic fluid is carried out by the screen mesh 429, the operation of grinding the magnetic fluid is facilitated, the operation of grinding the magnetic fluid is carried out, and the operation of grinding the magnetic fluid is carried out simultaneously, the magnetic fluid is not processed, and the magnetic fluid efficiency is improved.

Working principle: when the magnetic fluid is processed, firstly, the material stored in the storage box 3 is conveyed into the grinding tank 2 through the connecting pipe, then the driving motor 401 works, the output end of the driving motor 401 rotates positively to drive the first synchronous wheel 402 to rotate, the first synchronous wheel 402 rotates to drive the first rotating column 403 to rotate, the first rotating column 403 rotates to drive the round table at the bottom end to rotate, the round table rotates to drive the first extruding block 407 to rotate, the first extruding block 407 rotates to extrude one side of the first sliding block 408, the first sliding block 408 rotates to drive the second rotating column 404 to rotate, the second rotating column 404 rotates to drive the first straight gear 405 to rotate, the first straight gear 405 rotates to drive the second straight gear 406 to rotate, the magnetic fluid is ground through the tooth gaps between the first straight gear 405 and the plurality of second straight gears 406, the first synchronous wheel 402 rotates to drive the synchronous belt 410 to rotate, the synchronous belt 410 rotates to drive the second synchronous wheel 411 to rotate, the second synchronous wheel 411 rotates to drive the first rotating rod 412 to rotate, the first rotating rod 412 rotates to drive the boss at the bottom end to rotate, the boss rotates to drive the second extrusion block 417 to rotate, at the moment, the second extrusion block 417 rotates and extrudes the cambered surface at one end of the second sliding block 418, further, the second sliding block 418 moves, the second spring 419 is stressed to extrude, when the second sliding block 418 is separated from the second extrusion block 417, the second sliding block 418 is reset to move under the action of reset elastic force of the second spring 419, at the moment, the first rotating rod 412 rotates to not drive the second rotating rod 413 to rotate, after the magnetic fluid in the grinding tank 2 is ground, the output end of the driving motor 401 reversely rotates to drive the first extrusion block 407 reversely through mechanical transmission, at the moment, the first extrusion block 407 extrudes the cambered surface at one end of the first sliding block 408, and then the first sliding block 408 is driven to move, the first spring 409 is forced to squeeze, after the first squeezing block 407 is separated from the first sliding block 408, the first spring 409 is restored and drives the first sliding block 408 to move in a resetting manner, at this time, the first rotating column 403 does not drive the second rotating column 404 to rotate, and the first synchronous wheel 402 rotates reversely and drives the second squeezing block 417 to rotate reversely through mechanical transmission, the second squeezing block 417 rotates reversely and squeezes one side of the second sliding block 418, the second sliding block 418 rotates under the squeezing of the second squeezing block 417, the second sliding block 418 rotates to drive the second spring 419 to rotate, the second spring 419 rotates to drive the second rotating rod 413 to rotate, the second rotating rod 413 rotates to drive the moving rod 414 to move downwards, the moving rod 414 moves to drive the vertical rod 415 to move downwards, the sealing block 416 moves downwards, at this time, the discharge chute at the bottom end of the grinding pot 2 is opened, the ground material in the grinding tank 2 falls to the top end of the screen 429 through the discharge groove, the second rotating rod 413 rotates and drives the third rotating rod 420 to rotate, the third rotating rod 420 rotates and drives the first bevel gear 421 to rotate, the first bevel gear 421 rotates and drives the second bevel gear 422 to rotate, the second bevel gear 422 rotates and drives the third rotating column 423 to rotate, the third rotating column 423 rotates and drives the rotating disc 424 to rotate, the rotating disc 424 rotates the bottom extrusion column 425 rotates, when the extrusion column 425 rotates to be in contact with the bottom end of the extrusion seat 428, the extrusion column 425 continues to rotate and drives the extrusion seat 428 to move upwards, the extrusion seat 428 moves and drives the cross rod 426 to move, the third spring 427 is stressed to extrude, the extrusion seat 428 moves and drives the screen 429 to move upwards, after the extrusion column 425 is separated from the bottom end of the extrusion seat 428, the screen 429 moves in a reset manner under the self gravity and the spring restoring force of the third spring 427, that is, the screen 429 performs a vibration operation, when the movable rod 414 moves to the bottom end of the outer wall of the second rotating rod 413, the movable rod 414 resets under the action of the inner crescent pin and the spiral groove of the outer wall of the second rotating rod 413, the movable rod 414 moves to drive the blocking block 416 to reset and move through mechanical transmission, when the blocking block 416 blocks the discharge groove at the bottom end of the grinding tank 2, the driving motor 401 can stop working, and at the moment, the magnetic fluid powder reaching the grinding specification falls into the second collecting box 6, and does not fall into the first collecting box 5, so that the operation of grinding the magnetic fluid is facilitated, and meanwhile, the operation of screening the ground magnetic fluid powder is facilitated, so that the efficiency of the magnetic fluid processing is improved.

The foregoing description is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical solution of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (9)

1. The utility model provides a magnetic fluid injection molding processing device, includes fixing base (1), the one end of fixing base (1) is through welded fastening has grinding jar (2), the top of fixing base (1) is through bolt fastening has storage case (3), storage case (3) are connected through the connecting pipe with grinding jar (2), the one end of fixing base (1) is provided with first collection box (5), first collection box (5) are located the below of grinding jar (2), the one end of fixing base (1) is provided with second collection box (6), second collection box (6) are located one side of first collection box (5), a serial communication port, still include processing mechanism (4), processing mechanism (4) are including the motor bracket that is fixed in grinding jar (2) top through the bolt fastening, the top of motor bracket is through bolt fastening driving motor (401), the bottom of driving motor (401) is provided with first synchronous wheel (402), the bottom of first synchronous wheel (402) is provided with first rotation post (403), the bottom of first rotation post (403) is located one side of first collection box (5), the bottom of second rotation post (403) is passed through first rotation post (404) and is connected through the welding of first rotation post (404), the outer wall meshing of first straight gear (405) has second straight gear (406), the bottom of first pivoted post (403) is provided with the round platform, the outer wall of round platform is through welded fastening has first extrusion piece (407), the inside of second pivoted post (404) is provided with first sliding block (408), the one end of first sliding block (408) is provided with first spring (409) with second pivoted post (404) inner wall fixed connection.

2. The magnetic fluid injection molding processing device according to claim 1, wherein the processing mechanism (4) further comprises a synchronous belt (410) meshed with the outer wall of the first synchronous wheel (402), a second synchronous wheel (411) is meshed with the inner wall of the synchronous belt (410), the second synchronous wheel (411) is positioned at one end of the first synchronous wheel (402), a first rotating rod (412) is arranged at the bottom end of the second synchronous wheel (411), the bottom end of the first rotating rod (412) penetrates into the fixed seat (1), a second rotating rod (413) is sleeved at the bottom end of the first rotating rod (412), a moving rod (414) is sleeved at the outer wall of the second rotating rod (413), one end of the moving rod (414) penetrates out of the fixed seat (1), a blocking block (416) is fixedly arranged at the top end of the vertical rod (414) through welding, the blocking block (416) is positioned below the first straight gear (405), a second pressing block (418) is arranged at the bottom end of the first rotating rod (412), a second pressing block (418) is fixedly arranged at the inner wall of the second rotating rod (418), a sliding block (418) is fixedly arranged at the inner wall of the second rotating rod (418), the bottom of second dwang (413) is through welded fastening has third dwang (420), welded fastening has first bevel gear (421) in the bottom of third dwang (420), the one end meshing of first bevel gear (421) has second bevel gear (422), the one end of second bevel gear (422) is through welded fastening has third rotation post (423), the one end of third rotation post (423) runs through to the outside of fixing base (1), the one end of third rotation post (423) is through welded fastening has rolling disc (424), the one end of rolling disc (424) is through welded fastening has extrusion post (425), the inside of fixing base (1) has cup jointed horizontal pole (426), horizontal pole (426) are located the top of third rotation post (423), the top of horizontal pole (426) is provided with third spring (427) with fixing base (1) inner wall fixed connection, the one end of horizontal pole (426) is through welded fastening has extrusion seat (428), the top of extrusion seat (428) is through being fixed with (429), directly over screen cloth (429) are located second screen cloth (6).

3. The magnetic fluid injection molding device according to claim 1, wherein the first rotating column (403) is rotatably connected with the inner wall of the grinding tank (2) through a bearing, the second rotating column (404) is rotatably connected with the inner wall of the grinding tank (2) through a bearing, and a sealing member is arranged at the connection part of the grinding tank (2) and the second rotating column (404).

4. The magnetic fluid injection molding device according to claim 1, wherein a rotating groove matched with the rotating track of the round table and the first extrusion block (407) is arranged in the second rotating column (404), one end of the first sliding block (408) is arranged to be arc-shaped, and a moving groove matched with the moving track of the first sliding block (408) is arranged in the second rotating column (404).

5. The magnetic fluid injection molding device according to claim 1, wherein a plurality of second spur gears (406) are provided, and a connecting column is fixedly welded to the top end of the second spur gears (406), and the connecting column is rotatably connected with the inner wall of the grinding tank (2) through a bearing.

6. The magnetic fluid injection molding device according to claim 2, wherein the first synchronous wheel (402) is rotatably connected with the inner wall of the fixed seat (1) through a bearing, the outer wall of the second rotating rod (413) is connected with a fixing plate through a bearing, and the fixing plate is fixedly connected with the inner wall of the fixed seat (1) through a bolt.

7. The magnetic fluid injection molding device according to claim 2, wherein a rotating groove matching with the rotating track of the boss and the second extrusion block (417) is provided in the second rotating rod (413), one end of the second sliding block (418) is provided in a cambered surface shape, and a sliding groove matching with the moving track of the second sliding block (418) is provided in the second rotating rod (413).

8. The magnetic fluid injection molding device according to claim 2, wherein two spiral grooves with opposite directions are formed in the outer wall of the second rotating rod (413), a crescent pin sleeved with the spiral groove of the outer wall of the second rotating rod (413) is arranged in the moving rod (414), a moving through groove matched with the moving track of the moving rod (414) is formed in one end of the fixing seat (1), and a discharging through groove matched with the moving track of the plugging block (416) is formed in the bottom end of the grinding tank (2).

9. The magnetic fluid injection molding device according to claim 2, wherein a connecting rod is fixed at the bottom end of the first bevel gear (421) through welding, the connecting rod is rotationally connected with the inner wall of the fixed seat (1) through a bearing, the third rotating column (423) is rotationally connected with the inner wall of the fixed seat (1) through a bearing, a sliding through groove matched with the moving track of the cross rod (426) is arranged at one end of the fixed seat (1), and a semi-cylindrical protruding block is formed at the bottom end of the extrusion seat (428).

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