CN218799507U - Slicing machine capable of improving neodymium iron boron magnet - Google Patents

Abstract

The utility model relates to a neodymium iron boron magnetism iron machining equipment technical field especially relates to an improve neodymium iron boron magnetism iron's slicer. The technical scheme comprises the following steps: the base, first guiding mechanism, second guiding mechanism, third guiding mechanism and second pneumatic cylinder are from left to right installed in proper order to the upper surface of base, the second hydraulic telescopic rod is installed at the top of second pneumatic cylinder, the cutting bed is installed on the top of second hydraulic telescopic rod, first guiding mechanism, second guiding mechanism and third guiding mechanism all include leading wheel, second connecting axle, bearing frame, curb plate, first movable plate, fifth connecting plate, screw hole, through-hole, left-handed screw thread, pivot, right-handed screw thread, guide bar, second movable plate and rotation regulation board. The utility model discloses not only can the fixed length cut neodymium iron boron magnet, still be convenient for carry out spacing direction to the neodymium iron boron magnet cylinder of different external diameters size and carry, operation convenient to use, the practicality is strong.

Description

Slicing machine capable of improving neodymium iron boron magnet

Technical Field

The utility model relates to a neodymium iron boron magnetism iron machining equipment technical field specifically is an improve neodymium iron boron magnetism iron's slicer.

Background

Neodymium iron boron magnetic materials, which are the latest result of the development of rare earth permanent magnetic materials, are called "maga" due to their excellent magnetic properties. The neodymium-iron-boron magnetic material is an alloy of praseodymium-neodymium metal, ferroboron and the like. Also known as magnetic steel. The neodymium iron boron has extremely high magnetic energy and correction power, and meanwhile, the neodymium iron boron permanent magnet material is widely applied to modern industry and electronic technology due to the advantage of high energy density, so that miniaturization, light weight and thinning of instruments and meters, electro-acoustic motors, magnetic separation and magnetization equipment and the like are possible.

Through retrieval, patent publication No. CN206811482U is disclosed. The utility model provides an intelligent slicer of neodymium iron boron, includes the frame, and the frame includes base, grudging post and roof-rack. The fixed a plurality of plate bodies that set up on the base, a plurality of plate bodies evenly arrange along the length direction of base, and the middle part of each plate body all sets up one and wears the material hole and wear the material hole and all be located same axis, and the diameter that wears the material hole cooperatees with the diameter of waiting to process the rod. The device also comprises an installation block, and the position of the installation block and the material penetrating hole are arranged.

The existing slicing machine for improving the neodymium iron boron magnet is generally used for carrying out cutting operation after the cylindrical neodymium iron boron magnet is fixed through a fixed structure when the cylindrical neodymium iron boron magnet is actually sliced, operation steps are complex, working efficiency is low, and therefore the slicing machine for improving the neodymium iron boron magnet is provided for solving the existing problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an improve slicer of neodymium iron boron magnetism iron to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an improve slicer of neodymium iron boron magnet, includes the base, first guiding mechanism, second guiding mechanism, third guiding mechanism and second hydraulic cylinder are from left to right installed in proper order to the upper surface of base, the second hydraulic telescopic rod is installed at the top of second hydraulic cylinder, the cutting bed is installed on the top of second hydraulic telescopic rod, first guiding mechanism, second guiding mechanism and third guiding mechanism all include leading wheel, second connecting axle, bearing frame, curb plate, first movable plate, fifth connecting plate, screw hole, through-hole, left-hand thread, pivot, right-hand thread, guide bar, second movable plate and rotatory regulating plate, first movable plate and second movable plate are installed respectively to the outer wall both sides of pivot, the fifth connecting plate is all installed at the top movable plate of first movable plate and second movable plate, the bearing frame is installed at the top of fifth connecting plate, install the second connecting axle in the bearing frame, the bottom at the leading wheel is installed to the second connecting axle, first connecting axle is installed at the top of leading wheel on one side of third guiding mechanism, the other end of first connecting axle passes through the shaft coupling with the second motor, the output shaft of second connecting plate runs through the motor and the output shaft of second connecting plate, and the motor surface connection roof.

Through the matching arrangement of a series of structures, when an operator slices the cylindrical neodymium-iron-boron magnet, the operator positions one end of the cylindrical neodymium-iron-boron magnet between adjacent guide wheels on the third guide mechanism, and the operator can drive the rotating shaft to rotate forward or backward when rotating the rotating adjusting plate forward or backward, because the left-handed thread on the outer wall of the rotating shaft is in threaded engagement with the threaded hole on the first moving plate and the right-handed thread on the outer wall of the rotating shaft is in threaded engagement with the threaded hole on the second moving plate, the first moving plate and the second moving plate can make leftward or rightward linear motion on the outer wall of the rotating shaft when the rotating shaft rotates forward or backward, and the moving directions of the first moving plate and the second moving plate are opposite, so that the space between the adjacent guide wheels can be indirectly adjusted, make cylinder form neodymium iron boron magnet be located carry on spacing fixedly between the adjacent leading wheel, the staff starts second gear motor, second gear motor can indirect leading wheel that drives on the third guiding mechanism rotates, can make cylinder form neodymium iron boron magnet remove, the number of turns of rotation sensor real-time detection leading wheel pivoted, when the number of turns that the rotation detection sensor detected the leading wheel pivoted reaches predetermined number of turns data value, controller control second gear motor closes, first pneumatic cylinder and first gear motor are started to the controller, slice cylinder form neodymium iron boron magnet, thereby know from the above-mentioned, the utility model discloses not only can cut neodymium iron boron magnet by the fixed length, still be convenient for carry on spacing direction to the neodymium iron boron magnet cylinder of different external diameter sizes and carry.

Preferably, the both ends of pivot are all installed in the bearing on the curb plate outer wall, and the one end of pivot runs through the bearing on the curb plate outer wall and is connected with rotatory regulating plate, both ends around the upper surface at the base are installed to the curb plate.

Preferably, threaded holes are formed in the center positions of the outer walls of the first moving plate and the second moving plate, left-handed threads and right-handed threads are arranged on two sides of the outer wall of the rotating shaft respectively, the left-handed threads on the outer wall of the rotating shaft are in threaded engagement with the threaded holes in the first moving plate, and the right-handed threads on the outer wall of the rotating shaft are in threaded engagement with the threaded holes in the second moving plate.

Preferably, through holes are formed in the upper portions and the lower portions of the outer walls of the first moving plate and the second moving plate, guide rods are installed in the through holes, the outer walls of the guide rods are in clearance connection with the hole walls of the through holes, and the two ends of each guide rod are installed on the outer wall of one side of the side plate.

Preferably, the first connecting plate is connected with the fourth connecting plate through the first connecting rod, the upper surface of the fourth connecting plate is provided with a sliding block, the top of the sliding block is arranged on the sliding rail, the sliding block is connected with the sliding rail in a sliding mode, and the sliding rail is arranged on one side of the upper surface of the top plate.

Preferably, first pneumatic cylinder is installed to upper surface one side of roof, first hydraulic telescoping rod is installed to the bottom of first pneumatic cylinder, the surface that roof was run through to first hydraulic telescoping rod's bottom is connected with the third connecting plate, the third connecting plate passes through the second connecting rod and is connected with the second connecting plate, the last surface mounting of second connecting plate has first gear motor, install cutting blade on first gear motor's the output shaft.

Preferably, the control box is installed to the upper surface opposite side of roof, the preceding terminal surface of control box is provided with display screen and control panel, and the display screen is located control panel's top, the last control button that is provided with of control panel, the inside of control box is provided with analog-to-digital conversion module and controller.

Preferably, a rotation sensor is arranged on an output shaft of the second speed reduction motor, an output end of the rotation sensor is electrically connected with an input end of the analog-to-digital conversion module, an output end of the analog-to-digital conversion module is electrically connected with an input end of the controller, and an output end of the controller is electrically connected with input ends of the first speed reduction motor, the second speed reduction motor, the first hydraulic cylinder, the second hydraulic cylinder and the display screen respectively.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses a cooperation setting of a series of structures, when the staff section cylinder form neodymium iron boron magnet, the staff is located between the adjacent leading wheel on the third guiding mechanism with the one end of cylinder form neodymium iron boron magnet, can drive the pivot when staff carries out corotation or reversal and carry out corotation or reversal, be connected for threaded engagement between the screw hole on levogyration screw thread on the pivot outer wall and the first movable plate, be connected for threaded engagement between the right-handed thread on the pivot outer wall and the screw hole on the second movable plate, thereby the pivot can make first movable plate and second movable plate be left or right linear motion on the outer wall of pivot when carrying out corotation or reversal, and the direction of movement of first movable plate and second movable plate is opposite, thereby interval between the adjacent leading wheel of adjustment indirectly, make cylinder form neodymium iron boron magnet be located carry out spacing fixed between the adjacent leading wheel, the staff starts second gear motor, second gear motor can be indirect drive the leading wheel on the third guiding mechanism and rotate, can make cylinder form neodymium iron boron magnet remove, the number of turns that the rotation detects when the sensor reaches the leading wheel rotation and predetermine the volume of the control practicality and carry out the different control of the utility model practicality to the first motor of the first pole of the control, thereby it carries out the practical control to carry out the utility model practicality from the utility model practicality to the second magnet, thereby it carries out the utility model.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the connection structure of the third guiding mechanism of the present invention;

fig. 3 is a schematic structural diagram of the first guide mechanism, the second guide mechanism and the third guide mechanism of the present invention;

fig. 4 is a front view of the present invention.

In the figure: 1. a control box; 2. a display screen; 3. a first connecting plate; 4. a coupling; 5. a first connecting rod; 6. a top plate; 7. a first hydraulic cylinder; 8. a first hydraulic telescopic rod; 9. a control button; 10. a control panel; 11. a second connecting plate; 12. a support pillar; 13. a first guide mechanism; 1301. a guide wheel; 1302. a second connecting shaft; 1303. a bearing seat; 1304. a side plate; 1305. a first moving plate; 1306. a fifth connecting plate; 1307. a threaded hole; 1308. a through hole; 1309. left-handed threads; 1310. a rotating shaft; 1311. right-hand threads; 1312. a guide bar; 1313. a second moving plate; 1314. rotating the adjusting plate; 14. a second guide mechanism; 15. a first connecting shaft; 16. a base; 17. a third guide mechanism; 18. a cutting blade; 19. a second hydraulic telescopic rod; 20. cutting table; 21. a third connecting plate; 22. a second connecting rod; 23. a first reduction motor; 24. a second hydraulic cylinder; 25. a slider; 26. a slide rail; 27. a fourth connecting plate; 28. a second gear motor.

Detailed Description

The following describes the technical solution of the present invention with reference to the accompanying drawings and specific embodiments.

Example one

As shown in fig. 1-4, the utility model provides a slicer for improving neodymium iron boron magnet, including base 16, first guiding mechanism 13, second guiding mechanism 14, third guiding mechanism 17 and second hydraulic cylinder 24 are installed from left to right in proper order to the upper surface of base 16, second hydraulic telescopic rod 19 is installed at the top of second hydraulic cylinder 24, cutting table 20 is installed at the top of second hydraulic telescopic rod 19, first guiding mechanism 13, second guiding mechanism 14 and third guiding mechanism 17 all include leading wheel 1301, second connecting axle 1302, bearing frame 1303, curb plate 1304, first movable plate 1305, fifth connecting plate 1306, screw hole 1307, through-hole 1308, left-handed screw thread 1309, pivot 1310, right-handed screw thread 1311, guide rod 1312, second connecting axle 1313 and rotation regulating plate, first movable plate 1305 and second movable plate 1313 are installed respectively to the outer wall both sides of pivot 1310, fifth connecting plate 1306 is installed to the top of first movable plate 1305 and second movable plate 1313, bearing frame 1303 is installed to the top of first connecting plate 1306, the top of fifth connecting plate 1305, second connecting axle 1303 is installed to the top of second connecting plate 1313, the motor output shaft 28 passes through the motor connecting shaft 15 of first connecting shaft 1301 and the motor output shaft 28, the motor output shaft 28 of the second connecting shaft 1301 passes through the motor connecting shaft 15, the top connecting plate 1302 of the first connecting shaft connecting plate 15 and the second connecting plate 1302, and the second connecting plate 28.

Improve slicer theory of operation of neodymium iron boron magnet based on embodiment one is: when the rotating adjusting plate 1314 is rotated forward or reversely, the rotating shaft 1310 is rotated forward or reversely, because the left-handed threads 1309 on the outer wall of the rotating shaft 1310 are in threaded engagement with the threaded holes 1307 on the first moving plate 1305, and the right-handed threads 1311 on the outer wall of the rotating shaft 1310 are in threaded engagement with the threaded holes 1307 on the second moving plate 1313, when the rotating shaft 1310 is rotated forward or reversely, the first moving plate 1305 and the second moving plate 1313 can move linearly leftwards or rightwards on the outer wall of the rotating shaft 1310, and the moving directions of the first moving plate 1313 and the second moving plate 1313 are opposite, so that the distance between the adjacent guide wheels 1301 can be indirectly adjusted, the cylindrical ndfeb magnet is positioned between the adjacent guide wheels 1301 for limiting and fixing, the second speed reduction motor 28 is started by a worker, the second speed reduction motor 28 can indirectly drive the guide wheels 1301 on the third guide mechanism 17 to rotate, the cylindrical ndfeb magnet can be moved, the rotation sensor detects the number of turns of the rotation of the guide wheels 1301 in real time, when the rotation detection sensor detects that the number of turns of the guide wheels 1301 reaches a preset number of turns data value, the controller controls the second speed reduction motor 28 to be closed, the controller starts the first hydraulic cylinder 7 and the first speed reduction motor 23 to slice the cylindrical ndfeb magnet, and therefore, the utility model can cut the ndfeb magnet at a fixed length, and is convenient for limiting, guiding and conveying the ndfeb magnets with different outer diameters, convenient operation and use and strong practicability.

Example two

As shown in fig. 1-4, the utility model provides an improve slicer of neodymium iron boron magnet, compare in embodiment one, this embodiment still includes: both ends of a rotating shaft 1310 are installed in bearings on the outer wall of the side plate 1304, one end of the rotating shaft 1310 penetrates through the bearings on the outer wall of the side plate 1304 to be connected with the rotary adjusting plate 1314, the side plate 1304 is installed at the front end and the rear end of the upper surface of the base 16, threaded holes 1307 are respectively formed in the center positions of the outer walls of the first moving plate 1305 and the second moving plate 1313, left-handed threads 1309 and right-handed threads 1311 are respectively arranged on both sides of the outer wall of the rotating shaft 1310, the left-handed threads 1309 on the outer wall of the rotating shaft 1310 are in threaded engagement with the threaded holes 1307 on the first moving plate 1305, the right-handed threads 1311 on the outer wall of the rotating shaft 1310 are in threaded engagement with the threaded holes 1307 on the second moving plate 1313, through holes 1308 are respectively formed above and below the outer walls of the first moving plate 1305 and the second moving plate 1313, a guide rod 1312 is installed in the through hole 1308, and a gap is formed between the outer wall of the guide rod 1312 and the hole wall of the through hole 1308, two ends of the guide rod 1312 are mounted on the outer wall of one side of the side plate 1304, the first connecting plate 3 is connected with the fourth connecting plate 27 through the first connecting rod 5, the upper surface of the fourth connecting plate 27 is provided with the slide block 25, the top of the slide block 25 is mounted on the slide rail 26, the slide rail 25 is in sliding connection with the slide rail 26, the slide rail 26 is mounted on one side of the upper surface of the top plate 6, one side of the upper surface of the top plate 6 is provided with the first hydraulic cylinder 7, the bottom of the first hydraulic cylinder 7 is provided with the first hydraulic telescopic rod 8, the bottom end of the first hydraulic telescopic rod 8 penetrates through the surface of the top plate 6 to be connected with the third connecting plate 21, the third connecting plate 21 is connected with the second connecting plate 11 through the second connecting rod 22, the upper surface of the second connecting plate 11 is provided with the first speed reducing motor 23, the output shaft of the first speed reducing motor 23 is provided with the cutting blade 18, the other side of the upper surface of the top plate 6 is provided with the control box 1, the preceding terminal surface of control box 1 is provided with display screen 2 and control panel 10, and display screen 2 is located control panel 10's top, the last control button 9 that is provided with of control panel 10, the inside of control box 1 is provided with analog-to-digital conversion module and controller, be provided with rotary sensor on the output shaft of second gear motor 28, rotary sensor's output and analog-to-digital conversion module's input electric connection, analog-to-digital conversion module's output and the input electric connection of controller, the output of controller respectively with first gear motor 23, second gear motor 28, first pneumatic cylinder 7, the input electric connection of second pneumatic cylinder 24 and display screen 2.

In this embodiment, through holes 1308 are formed above and below the outer walls of the first moving plate 1305 and the second moving plate 1313, guide rods 1312 are installed in the through holes 1308, and the outer walls of the guide rods 1312 are in clearance connection with the hole walls of the through holes 1308, so that the movement of the first moving plate 1305 and the second moving plate 1313 can be limited and guided, the situation that the first moving plate 1305 and the second moving plate 1313 rotate along with the rotating shaft 1310 is avoided, the slider 25 and the sliding rail 26 are arranged in a matched manner, and when the guide wheel 1301 on the third guide mechanism 17 moves, the second reduction motor 28 is indirectly driven to move.

The above embodiments are merely some preferred embodiments of the present invention, and many alternative modifications and combinations can be made to the above embodiments by those skilled in the art based on the technical solution of the present invention and the related teachings of the above embodiments.

Claims (8)

1. The utility model provides an improve slicer of neodymium iron boron magnet, includes base (16), its characterized in that: the upper surface of the base (16) is sequentially provided with a first guide mechanism (13), a second guide mechanism (14), a third guide mechanism (17) and a second hydraulic cylinder (24) from left to right, the top of the second hydraulic cylinder (24) is provided with a second hydraulic telescopic rod (19), the top end of the second hydraulic telescopic rod (19) is provided with a cutting table (20), the first guide mechanism (13), the second guide mechanism (14) and the third guide mechanism (17) respectively comprise a guide wheel (1301), a second connecting shaft (1302), a bearing seat (1303), a side plate (1304), a first moving plate (1305), a fifth connecting plate (1306), a threaded hole (1307), a through hole (1308), a left-handed thread (1309), a rotating shaft (1310), a right-handed thread (1311), a guide rod (1312), a second moving plate (1313) and a rotary adjusting plate (1314), the two sides of the outer wall of the rotating shaft (1310) are respectively provided with a first moving plate (1305) and a second moving plate (1305), the top of the first moving plate (1313) and the second connecting plate (1303) is provided with a second connecting plate (1306), the second connecting shaft (1306), the second connecting plate (1306) is provided with a second adjusting plate (1303), the top end of the second connecting plate (1306), the second connecting plate (1306) is provided with the second connecting plate (1306), the second connecting plate (1306) and the second connecting plate (1306) is provided with the second connecting plate (1306), the top end of the bearing seat (1306) is provided with the second connecting plate (1303), first connecting shaft (15) are installed at the top of leading wheel (1301) on third guiding mechanism (17) one side, the other end of first connecting shaft (15) passes through shaft coupling (4) and the output shaft of second gear motor (28), the upper surface at first connecting plate (3) is installed in second gear motor (28), and the output shaft of second gear motor (28) runs through the surface of first connecting plate (3), base (16) are connected with roof (6) through support column (12).

2. The slicer for increasing the efficiency of ndfeb magnets as claimed in claim 1, wherein: both ends of the rotating shaft (1310) are installed in bearings on the outer wall of the side plate (1304), one end of the rotating shaft (1310) penetrates through the bearings on the outer wall of the side plate (1304) to be connected with the rotary adjusting plate (1314), and the side plate (1304) is installed at the front end and the rear end of the upper surface of the base (16).

3. The slicer for increasing the efficiency of ndfeb magnets as claimed in claim 1, wherein: threaded holes (1307) are formed in the center positions of the outer walls of the first moving plate (1305) and the second moving plate (1313), left-handed threads (1309) and right-handed threads (1311) are respectively arranged on two sides of the outer wall of the rotating shaft (1310), the left-handed threads (1309) on the outer wall of the rotating shaft (1310) are in threaded engagement connection with the threaded holes (1307) on the first moving plate (1305), and the right-handed threads (1311) on the outer wall of the rotating shaft (1310) are in threaded engagement with the threaded holes (1307) on the second moving plate (1313).

4. The slicer for increasing the efficiency of ndfeb magnets as claimed in claim 1, wherein: through holes (1308) are formed above and below the outer walls of the first moving plate (1305) and the second moving plate (1313), guide rods (1312) are installed in the through holes (1308), the outer walls of the guide rods (1312) are in clearance connection with the hole walls of the through holes (1308), and two ends of each guide rod (1312) are installed on the outer wall of one side of the side plate (1304).

5. The slicer for increasing the efficiency of ndfeb magnets as claimed in claim 1, wherein: first connecting plate (3) are connected with fourth connecting plate (27) through head rod (5), the last surface mounting of fourth connecting plate (27) has slider (25), install on slide rail (26) the top of slider (25), and be sliding connection between slider (25) and slide rail (26), install on one side of the upper surface of roof (6) slide rail (26).

6. The slicer for increasing the efficiency of ndfeb magnets as claimed in claim 1, wherein: first pneumatic cylinder (7) are installed to the upper surface one side of roof (6), first hydraulic telescoping rod (8) are installed to the bottom of first pneumatic cylinder (7), the surface that roof (6) were run through to the bottom of first hydraulic telescoping rod (8) is connected with third connecting plate (21), third connecting plate (21) are connected with second connecting plate (11) through second connecting rod (22), the last surface mounting of second connecting plate (11) has first gear motor (23), install cutting blade (18) on the output shaft of first gear motor (23).

7. The slicer for increasing the efficiency of ndfeb magnets as claimed in claim 1, wherein: control box (1) is installed to the upper surface opposite side of roof (6), the preceding terminal surface of control box (1) is provided with display screen (2) and control panel (10), and display screen (2) are located the top of control panel (10), be provided with control button (9) on control panel (10), the inside of control box (1) is provided with analog-to-digital conversion module and controller.

8. The slicer for increasing the efficiency of ndfeb magnets as claimed in claim 1, wherein: the output shaft of the second speed reducing motor (28) is provided with a rotary sensor, the output end of the rotary sensor is electrically connected with the input end of the analog-to-digital conversion module, the output end of the analog-to-digital conversion module is electrically connected with the input end of the controller, and the output end of the controller is electrically connected with the input ends of the first speed reducing motor (23), the second speed reducing motor (28), the first hydraulic cylinder (7), the second hydraulic cylinder (24) and the display screen (2) respectively.

Images