CN113333325B - Neodymium iron boron magnet waste material remove device - Google Patents

Abstract

The invention relates to a taking-out device, in particular to a neodymium iron boron magnet waste material taking-out device. The technical problem to be solved by the invention is to provide a neodymium iron boron magnet waste material taking device which does not need to manually carry out magnetism test on a Ru iron boron magnet, automatically takes down and collects Ru iron boron with strong magnetism, saves time and labor and has high efficiency. The invention provides a neodymium iron boron magnet waste material taking device, which comprises: the supporting frame is connected with a supporting rod; the blanking frame is connected to the supporting rod; the supporting plate is connected to the supporting rod; a rodless cylinder mounted on the support frame; the box body is connected to the rodless cylinder sliding block; the iron block is connected to the box body; the separating mechanism is connected to the blanking frame; and the bearing mechanism is connected between the support frame and the blanking frame. Thereby carry out waste material to Ru indisputable boron magnet and take out the collection through the cooperation of separating mechanism and supporting mechanism.

Description

Neodymium iron boron magnet waste material remove device

Technical Field

The invention relates to a taking-out device, in particular to a neodymium iron boron magnet waste material taking-out device.

Background

The neodymium magnet is also called a neodymium-iron-boron magnet, and is a tetragonal crystal formed of neodymium, iron, and boron. In 1982, the neodymium magnet was discovered by Zuochuan adults of special metals of Sumitomo. The magnetic energy product of the magnet is larger than that of a samarium cobalt magnet, and the magnet is the substance with the largest magnetic energy product all over the world at that time. Later, sumitomo successfully developed powder metallurgy and general automotive successfully developed rotary spray smelting to produce NdFeB magnets.

At present, people carry out the waste material to Ru ferroboron and take out and usually be artifical and separate a large amount of Ru ferroboron, artifical carry out magnetism test to Ru ferroboron through holding the iron plate, distinguish it and categorised the depositing collection with eyes through artifical, take out Ru ferroboron waste material like this and need artifical one always carry out magnetism test to Ru ferroboron magnet, work load is big, it is tired easily, and when testing Ru ferroboron magnet, the strong meeting of magnetism adsorbs on the iron plate, it wastes time and energy to take off to it artifical.

Consequently need not design one kind and need not artifically carry out magnetism test to Ru indisputable boron magnet, and take off the collection, labour saving and time saving efficient neodymium iron boron waste material remove device automatically to the Ru indisputable boron that magnetism is strong.

Disclosure of Invention

(1) Technical problem to be solved

The invention aims to overcome the defects that manual magnetic testing is required to be carried out on a Ru ferroboron magnet at all times, the workload is high, fatigue is easy to occur, and when the Ru ferroboron magnet is tested, the Ru ferroboron magnet with strong magnetism can be adsorbed on an iron block, and manual taking off of the Ru ferroboron magnet is time-consuming and labor-consuming.

(2) Technical scheme

In order to solve the above technical problem, the present invention provides an apparatus for taking out waste ndfeb magnet, comprising: the supporting frame is connected with a supporting rod; the blanking frame is connected to the supporting rod; the supporting plate is connected to the supporting rod; a rodless cylinder mounted on the support frame; the box body is connected to the rodless cylinder sliding block; the iron block is connected to the box body; the separating mechanism is connected to the blanking frame; and the bearing mechanism is connected between the support frame and the blanking frame.

Preferably, the separating mechanism comprises: a connecting rod rotatably connected to the blanking frame; the first rotating plate is rotatably connected to the connecting rod and matched with the blanking frame; and the first torsion spring is connected between the first rotating plate and the connecting rod.

Preferably, the holding mechanism comprises: the first rotating shaft is rotatably connected to the supporting frame; the second rotating plate is connected to the first rotating shaft; the sliding rail is connected to the blanking frame; the sliding block is connected to the sliding rail in a sliding manner and is matched with the second rotating plate; and the return spring is sleeved between the sliding block and the sliding rail.

Preferably, still include the extracting mechanism, the extracting mechanism includes: the first rack is connected to the box body; the third rotating plate is rotatably connected to the supporting frame; the first one-way gear is connected to the third rotating plate and matched with the first rack; the scroll spring is connected between the third rotating plate and the supporting frame; and the limiting plate is connected to the supporting frame and is positioned on the right side of the third rotating plate.

Preferably, the device further comprises a transmission mechanism, wherein the transmission mechanism comprises: the first rotating rod is connected to the third rotating plate; the second rotating rod is connected to the first rotating shaft and matched with the first rotating rod; the second torsion spring is connected between the second rotating rod and the first rotating shaft; and the action rod is connected to the first rotating shaft and matched with the second rotating rod.

Preferably, still include stop gear, stop gear includes: the limiting frame is connected to the supporting plate in a sliding manner; the second rack is connected to the limiting frame; the second rotating shaft is rotatably connected to the blanking frame and is in transmission connection with the connecting rod; the third rotating shaft is rotatably connected to the blanking frame; the first bevel gear set is connected between the third rotating shaft and the second rotating shaft; and the second one-way gear is connected to the third rotating shaft and meshed with the second rack.

Preferably, the device further comprises a reset mechanism, wherein the reset mechanism comprises: the third rack is connected to the sliding block; a fourth rotating shaft which is rotatably connected to the supporting plate; the third one-way gear is connected to the fourth rotating shaft and meshed with the third rack; a fifth rotating shaft which is rotatably connected to the supporting plate; the second bevel gear set is connected between the fifth rotating shaft and the fourth rotating shaft; the full gear is rotatably connected to the supporting plate and is in transmission connection with the fifth rotating shaft; and the fourth rack is connected to the limiting frame and meshed with the full gear.

Preferably, the inner side of the blanking frame is provided with a blanking groove, and the blanking groove is matched with the first rotating plate.

(3) Advantageous effects

1. Thereby carry out waste material to Ru indisputable boron magnet and take out the collection through the cooperation of separating mechanism and supporting mechanism.

2. Thereby stop qualified Ru ferroboron magnet on the third revolving stage through feeding agencies, pour out the collection with qualified Ru ferroboron magnet when making the third revolving stage rotate.

3. Thereby need not the manual work to rotate first pivot through drive mechanism and take out the collection to unqualified Ru iron boron magnet waste material, use manpower sparingly.

4. Thereby through stop gear need not artifical manual blocking qualified Ru ferroboron magnet silo down when collecting unqualified Ru ferroboron magnet waste material, use manpower sparingly.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the separating mechanism of the present invention.

Figure 3 is a perspective view of a portion of the support mechanism of the present invention.

Fig. 4 is an enlarged view of a portion a of the present invention.

Fig. 5 is a schematic perspective view of a material taking mechanism and a transmission mechanism according to the present invention.

Fig. 6 is a schematic perspective view of a part of the limiting mechanism of the present invention.

Fig. 7 is an enlarged view of part B of the present invention.

Fig. 8 is a schematic perspective view of the reset mechanism of the present invention.

The labels in the figures are: 1-support frame, 2-support rod, 3-blanking frame, 4-support plate, 5-rodless cylinder, 6-box, 7-iron block, 8-separation mechanism, 81-connecting rod, 82-first rotating plate, 83-first torsion spring, 9-bearing mechanism, 91-first rotating shaft, 92-second rotating plate, 93-sliding rail, 94-sliding block, 95-return spring, 10-material taking mechanism, 101-first rack, 102-third rotating plate, 103-first one-way gear, 104-volute spring, 105-limiting plate, 11-transmission mechanism, 111-first rotating rod, 112-second rotating rod, 113-second torsion spring, 114-action rod, 12-limiting mechanism, 121-limiting frame, 122-second rack, 123-second rotating shaft, 124-third rotating shaft, 125-first bevel gear set, 126-second one-way gear, 13-return mechanism, 131-third rack, 132-fourth rotating shaft, 133-third one-way gear, 134-third rotating shaft, 134-fifth rotating shaft, 137-second bevel gear set, and fourth bevel gear set, 133-fourth bevel gear set.

Detailed Description

The invention is further described below with reference to the figures and examples.

Example 1

The utility model provides a neodymium iron boron magnetism iron magnetism waste material remove device, as shown in fig. 1-4, including support frame 1, bracing piece 2, unloading frame 3, layer board 4, rodless cylinder 5, box 6, iron plate 7, separating mechanism 8 and bearing mechanism 9, both sides all are connected with bracing piece 2 around the 1 left part of support frame, be connected with unloading frame 3 between 2 upper portions of bracing piece of both sides, be connected with layer board 4 between the 2 middle parts of bracing piece of both sides, install rodless cylinder 5 in the middle of the 1 lower part of support frame, rodless cylinder 5 sliding block upper portion is connected with box 6, 6 inboard boxes are equipped with iron plate 7, 3 lower part right sides of unloading frame are connected with separating mechanism 8, be connected with bearing mechanism 9 between 1 upper portion of support frame and 3 lower parts of unloading frame.

The separating mechanism 8 comprises a connecting rod 81, a first rotating plate 82 and a first torsion spring 83, the right side of the lower part of the blanking frame 3 is rotatably connected with a plurality of connecting rods 81, the lower parts of the connecting rods 81 are rotatably connected with the first rotating plate 82, the first rotating plate 82 is matched with the blanking frame 3, and the first torsion spring 83 is connected between the first rotating plate 82 and the connecting rod 81.

Bearing mechanism 9 is including first pivot 91, second commentaries on classics board 92, slide rail 93, slider 94 and reset spring 95, the middle rotary type in support frame 1 upper portion is connected with first pivot 91, be connected with the second on the first pivot 91 and change board 92, unloading frame 3 left side sub-unit connection has three slide rail 93, the equal sliding connection in three slide rail 93 lower part has slider 94, the slider 94 and the second of both sides change the cooperation of board 92, all overlap between the slider 94 of both sides and the slide rail 93 of both sides and be equipped with reset spring 95.

When the Ru ferroboron waste material needs to be taken out, firstly, a large amount of Ru ferroboron is manually placed in the blanking frame 3 to enable the Ru ferroboron to be positioned on the second rotating plate 92, then the rodless cylinder 5 is manually started to drive the box body 6 to move rightwards, the box body 6 moves rightwards to drive the iron block 7 to move rightwards, the Ru ferroboron can be limited by the first rotating plate 82, so that the qualified magnetic Ru ferroboron can be driven to move rightwards by the iron block 7, the unqualified magnetic Ru ferroboron is blocked by the first rotating plate 82, the qualified magnetic Ru ferroboron can be driven to rotate rightwards to drive the first rotating plate 82, the first rotating plate 82 rotates, the first torsion spring 83 which is matched with the first rotating plate 82 in a rotating way is compressed, when the qualified magnetic Ru ferroboron is not contacted with the first rotating plate 82, first revolving plate 82 resets under the effect of the first torsional spring 83 of compressed, when the movement of iron plate 7 right, block qualified Ru ferroboron magnet silo down through the manual work, rotate second revolving plate 92 and take out the collection to the unqualified Ru ferroboron magnet of magnetism after that, second revolving plate 92 rotates the slider 94 downstream that drives both sides, the reset spring 95 of the slider 94 downstream both sides of both sides is compressed, when Ru ferroboron magnet waste material takes out the completion, the manual work loosens second revolving plate 92, the slider 94 of both sides resets under the reset spring 95 effect of both sides compressed, after that the manual work is taken away qualified Ru ferroboron magnet on second revolving plate 92 and is collected, when complete collection of Ru ferroboron magnet waste material, manual start rodless cylinder 5 makes box 6 reset, close rodless cylinder 5 at last.

Example 2

On the basis of embodiment 1, as shown in fig. 1 and 5, still including extracting mechanism 10, extracting mechanism 10 is including first rack 101, third commentaries on classics board 102, first one-way gear 103, volute spiral spring 104 and limiting plate 105, 6 left parts front and back both sides of box all are connected with first rack 101, 1 upper portion right side rotary type of support frame is connected with third commentaries on classics board 102, third commentaries on classics board 102 front and back both sides all are connected with first one-way gear 103, first one-way gear 103 cooperates with first rack 101, all be connected with volute spiral spring 104 between third commentaries on classics board 102 front and back both sides and the support frame 1, support frame 1 lower part right side is connected with limiting plate 105, limiting plate 105 is located third commentaries on classics board 102 right side.

When qualified Ru ferroboron magnet contacts with limiting plate 105, box 6 moves right and drives the first rack 101 of both sides and move right, the first rack 101 of both sides moves right and drives the first one-way gear 103 rotation of both sides, the first one-way gear 103 rotation of both sides drives third rotor 102 and rotates, thereby iron plate 7 continues to move right and stops qualified Ru ferroboron magnet on third rotor 102 through limiting plate 105, pour out the collection with qualified Ru ferroboron magnet when making third rotor 102 rotate, when third rotor 102 rotates, volute spring 104 of both sides is compressed, after qualified Ru ferroboron magnet falls, third rotor 102 resets under the effect of volute spring 104 of compressed.

Example 3

On the basis of embodiment 2, as shown in fig. 1 and fig. 5, the device further includes a transmission mechanism 11, the transmission mechanism 11 includes a first rotating rod 111, a second rotating rod 112, a second torsion spring 113 and an acting rod 114, the front and rear sides of the right portion of the third rotating plate 102 are connected with the first rotating rod 111, the front and rear sides of the first rotating shaft 91 are connected with the second rotating rod 112, the second rotating rods 112 on the two sides are matched with the first rotating rods 111 on the two sides, the second torsion springs 113 are connected between the second rotating rods 112 on the two sides and the first rotating shaft 91, the front and rear sides of the upper portion of the first rotating shaft 91 are connected with the acting rod 114, and the acting rods 114 on the two sides are matched with the second rotating rods 112 on the two sides.

When the third board 102 rotates, the third board 102 rotates to drive the first rotating rods 111 at two sides to rotate, the first rotating rods 111 at two sides rotate to drive the second rotating rods 112 at two sides to rotate, the second rotating rods 112 at two sides rotate to compress the second torsion springs 113 at two sides, when the third board 102 resets, the second rotating rods 112 at two sides reset under the action of the compressed second torsion springs 113 at two sides, meanwhile, the first rotating rods 111 at two sides drive the second rotating rods 112 at two sides to rotate when the third board 102 resets, the second rotating rods 112 at two sides rotate to drive the action rods 114 at two sides to rotate, the action rods 114 at two sides rotate to drive the first rotating shaft 91 to rotate, and therefore, the unqualified Ru ferro-boron magnet waste materials are not required to be manually taken out and collected, and manpower is saved.

Based on embodiment 2, as shown in fig. 1, 6, 7 and 8, the present invention further includes a limiting mechanism 12, the limiting mechanism 12 includes a limiting frame 121, a second rack 122, a second rotating shaft 123, a third rotating shaft 124, a first bevel gear set 125 and a second one-way gear 126, the limiting frame 121 is slidably connected to the upper portion of the supporting plate 4, the second rack 122 is connected to the right portion of the front side of the limiting frame 121, the second rotating shaft 123 is rotatably connected to the right portion of the lower portion of the blanking frame 3, the second rotating shaft 123 is in transmission connection with the connecting rod 81 of the front side, the third rotating shaft 124 is rotatably connected to the right portion of the lower portion of the blanking frame 3, the first bevel gear set 125 is connected between the third rotating shaft 124 and the second rotating shaft 123, the second one-way gear 126 is connected to the lower portion of the third rotating shaft 124, and the second one-way gear 126 is meshed with the second rack 122.

When the connecting rod 81 of front side rotates, the connecting rod 81 of front side rotates and drives second pivot 123 and rotate, second pivot 123 rotates and drives third pivot 124 through first bevel gear group 125 and rotates, third pivot 124 rotates and drives the rotation of second one-way gear 126, second one-way gear 126 rotates and drives second rack 122 forward motion, second rack 122 forward motion drives spacing 121 forward motion, thereby do not need the artifical manual silo under qualified Ru ferroboron magnet that blocks when collecting unqualified Ru ferroboron magnet waste material, use manpower sparingly.

On the basis of embodiment 2, as shown in fig. 1 and 8, the device further includes a reset mechanism 13, the reset mechanism 13 includes a third rack 131, a fourth rotating shaft 132, a third one-way gear 133, a fifth rotating shaft 134, a second bevel gear set 135, a full gear 136 and a fourth rack 137, the third rack 131 is connected to the front side of the upper portion of the front slider 94, the fourth rotating shaft 132 is rotatably connected to the left side of the lower portion of the supporting plate 4, the third one-way gear 133 is connected to the left side of the fourth rotating shaft 132, the third one-way gear 133 is engaged with the third rack 131, the fifth rotating shaft 134 is rotatably connected to the left side of the lower portion of the supporting plate 4, the second bevel gear set 135 is connected between the fifth rotating shaft 134 and the fourth rotating shaft 132, the full gear 136 is rotatably connected to the front side of the upper portion of the supporting plate 4, the full gear 136 is in transmission connection with the fifth rotating shaft 134, the fourth rack 137 is connected to the left portion of the front side of the limiting frame 121, and the fourth rack 137 is engaged with the full gear 136.

When the slider 94 of front side resets upwards, the slider 94 upward movement of front side drives third rack 131 upward movement, third rack 131 upward movement drives third one-way gear 133 and rotates, third one-way gear 133 rotates and drives fourth pivot 132 and rotate, fourth pivot 132 rotates and drives fifth pivot 134 through second bevel gear set 135 and rotates, fifth pivot 134 rotates and drives full gear 136 and rotates, full gear 136 rotates and drives fourth rack 137 rearward movement, fourth rack 137 rearward movement drives spacing frame 121 rearward movement, thereby do not need the manual work to reset rearward spacing frame 121, further use manpower sparingly and improved work efficiency.

The above examples are merely representative of preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, various changes, modifications and substitutions can be made without departing from the spirit of the present invention, and these are all within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (6)

1. The utility model provides a neodymium iron boron magnetism iron material waste material remove device which characterized in that includes:

the support frame (1) is connected with a support rod (2);

the blanking frame (3) is connected to the support rod (2);

a supporting plate (4) connected to the supporting rod (2);

a rodless cylinder (5) mounted on the support frame (1);

a box body (6) connected to the slide block of the rodless cylinder (5);

an iron block (7) connected to the case (6);

a separating mechanism (8) connected to the blanking frame (3);

the supporting mechanism (9) is connected between the support frame (1) and the blanking frame (3);

the separation mechanism (8) comprises:

a connecting rod (81) which is rotatably connected to the blanking frame (3);

the first rotating plate (82) is rotatably connected to the connecting rod (81), and the first rotating plate (82) is matched with the blanking frame (3);

a first torsion spring (83) connected between the first rotating plate (82) and the connecting rod (81);

the support mechanism (9) comprises:

a first rotating shaft (91) which is rotatably connected to the support frame (1);

a second rotating plate (92) connected to the first rotating shaft (91);

a slide rail (93) connected to the blanking frame (3);

a slide block (94) which is connected on the slide rail (93) in a sliding way, wherein the slide block (94) is matched with the second rotating plate (92);

and the return spring (95) is sleeved between the sliding block (94) and the sliding rail (93).

2. The neodymium iron boron magnet waste material taking device as claimed in claim 1, further comprising a material taking mechanism (10), wherein the material taking mechanism (10) comprises:

a first rack (101) connected to the case (6);

a third rotating plate (102) which is rotatably connected to the support frame (1);

the first one-way gear (103) is connected to the third rotating plate (102), and the first one-way gear (103) is matched with the first rack (101);

a scroll spring (104) connected between the third rotating plate (102) and the support frame (1);

and the limiting plate (105) is connected to the support frame (1), and the limiting plate (105) is positioned on the right side of the third rotating plate (102).

3. The neodymium iron boron magnet waste material extraction device according to claim 2, characterized in that, the device further comprises a transmission mechanism (11), and the transmission mechanism (11) comprises:

a first rotating lever (111) connected to the third rotating plate (102);

a second rotating rod (112) connected to the first rotating shaft (91), the second rotating rod (112) being engaged with the first rotating rod (111);

a second torsion spring (113) connected between the second rotating lever (112) and the first rotating shaft (91);

and an action lever (114) connected to the first rotating shaft (91), the action lever (114) being engaged with the second rotating lever (112).

4. The neodymium iron boron magnet waste material taking device according to claim 3, characterized by further comprising a limiting mechanism (12), wherein the limiting mechanism (12) comprises:

a limiting frame (121) which is connected to the supporting plate (4) in a sliding way;

a second rack (122) connected to the stopper frame (121);

the second rotating shaft (123) is rotatably connected to the blanking frame (3), and the second rotating shaft (123) is in transmission connection with the connecting rod (81);

a third rotating shaft (124) which is rotatably connected to the blanking frame (3);

a first bevel gear set (125) connected between the third rotating shaft (124) and the second rotating shaft (123); and a second one-way gear (126) connected to the third rotating shaft (124), wherein the second one-way gear (126) is meshed with the second rack (122).

5. The neodymium iron boron magnet waste material extraction device according to claim 4, characterized in that, further comprises a reset mechanism (13), and the reset mechanism (13) comprises:

a third rack (131) connected to the slider (94);

a fourth rotating shaft (132) rotatably connected to the pallet (4);

a third one-way gear (133) connected to the fourth rotating shaft (132), the third one-way gear (133) being engaged with the third rack (131);

a fifth rotating shaft (134) rotatably connected to the pallet (4);

a second bevel gear set (135) connected between the fifth rotation shaft (134) and the fourth rotation shaft (132); the full gear (136) is rotatably connected to the supporting plate (4), and the full gear (136) is in transmission connection with the fifth rotating shaft (134);

and the fourth rack (137) is connected to the limiting frame (121), and the fourth rack (137) is meshed with the full gear (136).

6. The neodymium iron boron magnet waste material taking device is characterized in that a blanking groove is formed in the inner side of the blanking frame (3), and the blanking groove is matched with the first rotating plate (82).

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