CN212580928U

CN212580928U - Automatic magnetic steel separating device

Info

Publication number: CN212580928U
Application number: CN202020908037.5U
Authority: CN
Inventors: 张玉柱; 杨玉春; 张萌
Original assignee: Tianjin Hejiecheng Automation Technology Co ltd
Current assignee: Tianjin Hejiecheng Automation Technology Co ltd
Priority date: 2020-05-26
Filing date: 2020-05-26
Publication date: 2021-02-23
Anticipated expiration: 2030-05-26

Abstract

The utility model provides a magnet steel automatic separation device, install the frock including the base, set up magnet steel separator on the base and set up the space stop piece on the base, magnet steel separator includes magnet steel transport mechanism and ejection mechanism, be provided with synchronous drive mechanism between magnet steel transport mechanism and the ejection mechanism. Utilize the utility model discloses a magnet steel autosegregation device of technical scheme preparation, through synchronous drive mechanism, only rely on a power supply just can make the transport mechanism and the synchronous coordination work of ejection mechanism of magnet steel, energy resource consumption has been reduced on the whole, and simultaneously, still be provided with the magnet steel space bar and install the frock, can install the space bar additional on the magnet steel monomer that separates, and whole device only need an operator alright carry out the separation operation of magnet steel and the installation operation of space bar, workman's intensity of labour has been reduced, the cost of labor of enterprise has been saved.

Description

Automatic magnetic steel separating device

Technical Field

The utility model belongs to the technical field of the magnet steel splitter, especially, relate to a magnet steel autosegregation device.

Background

When having magnetic equipment to produce, need separate into the magnet steel monomer with strong magnet steel group, traditional separation mode is mostly manual separation, when separating some large size magnet steel groups, magnetic force is big between the magnet steel, the separation degree of difficulty is high, also cause the damage to the human body easily, and, need many people to cooperate the separation under the general condition, the inefficiency of separation, simultaneously, because magnetic force is huge after the magnet steel separation, the phenomenon of resorption appears easily, the light person damages the magnet steel, the heavy person can cause personnel to be injured.

However, along with the development of science and technology, it has also appeared gradually that the magnetic steel is separated through mechanical equipment instead of manual work, but, current magnetic steel separation equipment, degree of automation is lower, still needs many people to operate, and personnel dependence is big, and degree of automation is high, and holistic harmony is not enough again, and the energy consumption is big, and the fault rate is high, and the maintenance is also more difficult, often can delay production.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem, a magnet steel automatic separation device is designed.

Realize above-mentioned purpose the technical scheme of the utility model be, a magnet steel autosegregation device, install the frock including the base, set up the magnet steel separator on the base and set up the space stop piece on the base, magnet steel separator includes magnet steel transport mechanism and ejection mechanism, be provided with synchronous drive mechanism between magnet steel transport mechanism and the ejection mechanism.

The base is provided with a conveying channel, and the magnetic steel conveying mechanism comprises a conveying belt arranged in the conveying channel and pulleys arranged on two inner side walls of the conveying channel at the discharging end of the conveying belt.

The conveying channel is provided with an ejection channel extending downwards at the blanking end of the conveying belt, and the ejection mechanism comprises an ejection block slidably mounted in the ejection channel, an ejection rod with one end fixed at the bottom of the ejection block and an ejection wheel rotatably mounted at the other end of the ejection rod.

The base is vertically provided with a baffle at a position, close to one end of the pulley, of the conveying channel, a fixing plate is arranged on one side wall of the conveying channel, and a sliding fit plate is slidably mounted at the top of the fixing plate.

The center pin of conveyer belt one end is overlapped and is equipped with conveyer belt drive gear, the base is put on the shelf and is equipped with the secondary drive axle, the cover is equipped with secondary drive gear and the conveyer belt drive gear who meshes with conveyer belt drive gear on the secondary drive axle, conveyer belt drive gear and conveyer belt drive gear are the helical gear.

The synchronous transmission mechanism comprises a driving shaft, a cam rotating shaft and a primary transmission shaft, wherein the rotating frame is arranged in the base, the cam rotating shaft is sleeved with a cam and a cam transmission worm wheel, and the cam is positioned under the ejection wheel and clings to the ejection wheel.

Be provided with drive gear and drive worm in the drive shaft, the drive worm meshes with cam drive worm wheel mutually, the cover is equipped with one-level drive gear and sector gear on the one-level transmission shaft, one-level drive gear meshes with drive gear mutually, sector gear can mesh with secondary drive gear mutually.

The cam comprises an arc part and a convex part, and the joint of the arc part and the convex part is streamline.

The base is provided with a driving motor and a speed reducer, the output end of the driving motor is connected with the input end of the speed reducer, and the output end of the speed reducer is connected with a driving shaft.

The frock is installed to the space piece includes bottom plate and the vertical riser that sets up on the bottom plate, be provided with the magnet steel draw-in groove that extends to on the riser on the bottom plate, the riser back is provided with the guide way, slidable mounting has the depression bar in the guide way, the top of depression bar is provided with the handle.

Utilize the utility model discloses a magnet steel autosegregation device of technical scheme preparation, through synchronous drive mechanism, only rely on a power supply just can make the transport mechanism and the synchronous coordination work of ejection mechanism of magnet steel, energy resource consumption has been reduced on the whole, and simultaneously, still be provided with the magnet steel space bar and install the frock, can install the space bar additional on the magnet steel monomer that separates, and whole device only need an operator alright carry out the separation operation of magnet steel and the installation operation of space bar, workman's intensity of labour has been reduced, the cost of labor of enterprise has been saved.

Drawings

FIG. 1 is a front view of the overall structure;

FIG. 2 is a side view of the overall structure;

FIG. 3 is a view showing a spacer mounting tool;

fig. 4 is a cam shape diagram.

In the figure: 1. a base; 2. a delivery channel; 3. a conveyor belt; 4. a pulley; 5. ejecting a channel; 6. ejecting a block; 7. ejecting the rod; 8. an ejection wheel; 9. a baffle plate; 10. a fixing plate; 11. a sliding fit plate; 12. a conveyor belt transmission gear; 13. a secondary transmission shaft; 14. a secondary transmission gear; 15. a conveyor belt drive gear; 16. a drive shaft; 17. a cam shaft; 18. a primary transmission shaft; 19. a cam; 20. a cam driven worm gear; 21. a drive gear; 22. a drive worm; 23. a primary transmission gear; 24. a sector gear; 25. a circular arc portion; 26. a convex portion; 27. a drive motor; 28. a speed reducer; 29. a base plate; 30. a vertical plate; 31. a magnetic steel clamping groove; 32. a guide groove; 33. a pressure lever; 34. a handle.

Detailed Description

The following detailed description is made on the specific embodiments of the present invention with reference to the accompanying drawings, and as shown in fig. 1 and 2, an automatic magnetic steel separating device includes a base 1, a magnetic steel separating device disposed on the base 1, and a spacer disposed on the base 1, wherein the magnetic steel separating device includes a magnetic steel conveying mechanism and an ejection mechanism, and a synchronous transmission mechanism is disposed between the magnetic steel conveying mechanism and the ejection mechanism.

The utility model discloses in, carry the magnet steel group of treating the separation through magnet steel transport mechanism, ejection mechanism is used for ejecting with single magnet steel on the magnet steel group, makes it separate with the magnet steel group, and the spacer is installed the frock and is used for installing the device of spacer additional on the monomer magnet steel for the operator, and synchronous drive mechanism is the mechanism that is used for enough making the synchronous coordinated motion of magnet steel transport mechanism and ejection mechanism.

The magnetic steel conveying mechanism comprises a conveying channel 2 arranged on a base 1, a conveying belt 3 arranged in the conveying channel 2 and pulleys 4 arranged on two inner side walls of the conveying channel 2 at the blanking end of the conveying belt 3, a baffle 9 is vertically arranged at a position, close to one end of each pulley 4, of the conveying channel 2 on the base 1, a fixed plate 10 is arranged on one side wall of the conveying channel 2, a sliding fit plate 11 is slidably arranged at the top of the fixed plate 10, a conveying belt transmission gear 12 is sleeved on a central shaft at one end of the conveying belt 3, a secondary transmission shaft 13 is erected on the base 1, a secondary transmission gear 14 and a conveying belt driving gear 15 meshed with the conveying belt transmission gear 12 are sleeved on the secondary transmission shaft 13, the conveying belt driving gear 15 and the conveying belt transmission gear 12 are bevel gears, and the synchronous transmission mechanism comprises a driving shaft 16 and a primary transmission, be provided with drive gear 21 on the drive shaft 16, the cover is equipped with one-level drive gear 23 and sector gear 24 on the one-level transmission shaft 18, one-level drive gear 23 meshes with drive gear 21 mutually, sector gear 24 can mesh with secondary drive gear 14 mutually, be provided with driving motor 27 and speed reducer 28 on the base 1, driving motor 27's output meets with the input of speed reducer 28, the output of speed reducer 28 meets with drive shaft 16.

The utility model discloses in, magnet steel transport mechanism is used for carrying magnet steel group, can drive magnet steel transport mechanism work on the synchronous transmission mechanism, and its transmission flow is: the driving motor 27 rotates, the driving shaft 16 is driven to rotate after being decelerated by the speed reducer 28, because the driving shaft 16 is sleeved with the driving gear 21, and the driving gear 21 is meshed with the first-stage transmission gear 23 sleeved on the first-stage transmission shaft 18, the rotation of the driving gear 21 can drive the first-stage transmission shaft 18 to rotate through the first-stage transmission gear 23, the first-stage transmission shaft 18 is also sleeved with the sector gear 24, and the sector gear 24 can be meshed with the second-stage transmission gear 14 sleeved on the second-stage transmission shaft 13, the rotation of the first-stage transmission shaft 18 can periodically drive the second-stage transmission gear 14 to rotate through the sector gear 24, so that the second-stage transmission shaft 13 periodically rotates, the second-stage transmission shaft 13 is also sleeved with the conveyor belt driving gear 15, therefore, the periodic rotation of the secondary transmission shaft 13 can drive the transmission belt transmission gear 12 to periodically rotate through the transmission belt driving gear 15, so that the central shaft at one end of the transmission belt 3 periodically rotates, a workpiece on the transmission belt 3 is conveyed to the pulley 4, then the magnetic steel can be blocked by the baffle 9, the sliding fit plate 11 can slide on the fixed plate 10, and an operator can adjust the distance between the sliding fit plate 11 and the baffle 9 according to the thickness of the magnetic steel to enable the sliding fit plate to be matched with the magnetic steel.

As shown in fig. 1 and 4, the conveying channel 2 is located at the blanking end of the conveyor belt 3 and extends downwards to form an ejection channel 5, the ejection mechanism includes an ejection block 6 slidably mounted in the ejection channel 5, an ejection rod 7 with one end fixed to the bottom of the ejection block 6, and an ejection wheel 8 rotatably mounted at the other end of the ejection rod 7, the synchronous transmission mechanism further includes a cam rotating shaft 17 erected in the base 1, a cam 19 and a cam transmission worm wheel 20 are sleeved on the cam rotating shaft 17, the cam 19 is located right below the ejection wheel 8 and clings to the ejection wheel 8, a driving worm 22 is further arranged on the driving shaft 16, the driving worm 22 is meshed with the cam transmission worm wheel 20, the cam 19 includes an arc portion 25 and a convex portion 26, and the connection between the arc portion 25 and the convex portion 26 is streamline.

The utility model discloses in, driving motor 27 can also drive ejection mechanism simultaneously when rotating and carry out work, and its transmission flow is: the driving motor 27 rotates and drives the driving shaft 16 to rotate after being decelerated by the speed reducer 28, meanwhile, the driving worm 22 is sleeved on the driving shaft 16, and the driving worm 22 is meshed with the cam transmission worm wheel 20 sleeved on the cam rotating shaft 17, so that the driving shaft 16 can drive the cam transmission worm wheel 20 to rotate through the driving worm 22, so that the cam rotating shaft 17 rotates, at the moment, the cam 19 sleeved on the cam rotating shaft 17 rotates along with the driving worm, and as the cam 19 is positioned right below the ejection wheel 8 and clings to the ejection wheel 8, the distance between the center shaft of the ejection wheel 8 and the center shaft of the cam 19 can be periodically changed along with the rotation of the cam 19, so that the ejection block 6 can float up and down in the ejection channel 5, and the magnetic steel monomers conveyed to the pulley 4 can be ejected.

The cam 19 comprises an arc part 25 and a convex part 26, and the joint of the arc part 25 and the convex part 26 is streamline, so that the change fluctuation of the distance between the edge of the cam 19 and the central shaft is more stable when the cam 19 rotates due to the shape design, and the movement of the ejection block 6 is more regular and more stable, and is better matched with the magnetic steel conveying mechanism.

As shown in FIG. 3, the spacer installing tool comprises a bottom plate 29 and a vertical plate 30 vertically arranged on the bottom plate 29, a magnetic steel clamping groove 31 extending to the vertical plate 30 is formed in the bottom plate 29, a guide groove 32 is formed in the back of the vertical plate 30, a pressing rod 33 is slidably arranged in the guide groove 32, and a handle 34 is arranged at the top end of the pressing rod 33.

The spacer frock is that the operator is used for installing the mechanism of spacer additional on the free lateral wall of magnet steel, and its use flow is: the operator takes off the magnet steel monomer that separates, and in the dress card was in the magnet steel draw-in groove 34 on bottom plate 29, the slip magnet steel monomer made the magnet steel move until withstanding riser 30 along magnet steel draw-in groove 34, afterwards, the operator put into the guide way 32 on riser 30 with the space piece, finally, inserts depression bar 33 guide way 32 and presses the handle, presses the space piece, can accomplish the installation of space piece.

The utility model discloses in, can make magnet steel transport mechanism and ejection mechanism synchronous coordinated motion through synchronous drive mechanism, therefore its holistic work flow is: firstly, an operator places a magnetic steel group on a conveyor belt 3, then a driving motor 27 is started, when a sector gear 24 is meshed with a secondary transmission gear 14, the conveyor belt 3 works to drive the magnetic steel group to move, so that a magnetic steel single body on the magnetic steel group moves onto a pulley 4, then the sector gear 24 finishes the meshing with the secondary transmission gear 14, the conveyor belt 3 stops, the periodic movement of a cam 19 can enable an ejection block 6 to float upwards, the magnetic steel single body is ejected out, after the magnetic steel is ejected and separated, the operator takes down the magnetic steel, then the sector gear 24 is meshed with the secondary transmission gear 14, so that the conveyor belt 3 moves, the next magnetic steel single body is conveyed to the position of the pulley 4, the next working cycle is carried out, after the magnetic steel single body is separated and taken down, the operator can install a spacer on the spacer installing tool for the magnetic steel.

While one embodiment of the present invention has been described in detail, the description is only a preferred embodiment of the present invention, and should not be considered as limiting the scope of the present invention. All the equivalent changes and improvements made according to the application scope of the present invention should still fall within the patent coverage of the present invention.

Claims

1. The utility model provides a magnet steel autosegregation device which characterized in that: the magnetic steel separation device comprises a base (1), a magnetic steel separation device arranged on the base (1) and a spacer arranged on the base (1), wherein the magnetic steel separation device comprises a magnetic steel conveying mechanism and an ejection mechanism, and a synchronous transmission mechanism is arranged between the magnetic steel conveying mechanism and the ejection mechanism.

2. The automatic magnetic steel separating device according to claim 1, characterized in that: be provided with transfer passage (2) on base (1), magnet steel transport mechanism is including setting up conveyer belt (3) in transfer passage (2) and installing pulley (4) on two inside walls of transfer passage (2) of conveyer belt (3) unloading end department.

3. The automatic magnetic steel separating device according to claim 2, characterized in that: the conveying channel (2) is located at the blanking end of the conveying belt (3) and extends downwards to form an ejection channel (5), and the ejection mechanism comprises an ejection block (6) which is slidably mounted in the ejection channel (5), an ejection rod (7) of which one end is fixed to the bottom of the ejection block (6) and an ejection wheel (8) which is rotatably mounted at the other end of the ejection rod (7).

4. The automatic magnetic steel separating device according to claim 2, characterized in that: the base (1) is located the position department that conveying passageway (2) is close to pulley (4) one end and is vertically provided with baffle (9), be provided with fixed plate (10) on the lateral wall of conveying passageway (2), the top slidable mounting of fixed plate (10) has sliding fit board (11).

5. The automatic magnetic steel separating device according to claim 2, characterized in that: the center pin of conveyer belt (3) one end is gone up to overlap and is equipped with conveyer belt drive gear (12), base (1) is put on the shelf and is equipped with secondary drive shaft (13), the cover is equipped with secondary drive gear (14) and conveyer belt drive gear (15) with conveyer belt drive gear (12) looks meshing on secondary drive shaft (13), conveyer belt drive gear (15) are the helical gear with conveyer belt drive gear (12).

6. The automatic magnetic steel separating device according to claim 1, characterized in that: the synchronous transmission mechanism comprises a driving shaft (16), a cam rotating shaft (17) and a primary transmission shaft (18), wherein the rotating frame is arranged in the base (1), the cam rotating shaft (17) is sleeved with a cam (19) and a cam transmission worm wheel (20), and the cam (19) is positioned under the ejection wheel (8) and clings to the ejection wheel (8).

7. The automatic magnetic steel separating device according to claim 6, wherein: be provided with drive gear (21) and drive worm (22) on drive shaft (16), drive worm (22) and cam drive worm wheel (20) mesh mutually, the cover is equipped with one-level drive gear (23) and sector gear (24) on one-level transmission shaft (18), one-level drive gear (23) mesh mutually with drive gear (21), sector gear (24) can mesh mutually with secondary drive gear (14).

8. The automatic magnetic steel separating device according to claim 6, wherein: the cam (19) comprises a circular arc part (25) and a convex part (26), and the joint of the circular arc part (25) and the convex part (26) is streamline.

9. The automatic magnetic steel separating device according to claim 1, characterized in that: the base (1) is provided with a driving motor (27) and a speed reducer (28), the output end of the driving motor (27) is connected with the input end of the speed reducer (28), and the output end of the speed reducer (28) is connected with a driving shaft (16).

10. The automatic magnetic steel separating device according to claim 1, characterized in that: the frock is installed to spacer includes bottom plate (29) and vertical riser (30) that set up on bottom plate (29), be provided with on bottom plate (29) and extend to magnet steel draw-in groove (31) on riser (30), riser (30) back is provided with guide way (32), slidable mounting has depression bar (33) in guide way (32), the top of depression bar (33) is provided with handle (34).