CN218504399U - Magnet splitting equipment - Google Patents
Magnet splitting equipment Download PDFInfo
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- CN218504399U CN218504399U CN202222216932.2U CN202222216932U CN218504399U CN 218504399 U CN218504399 U CN 218504399U CN 202222216932 U CN202222216932 U CN 202222216932U CN 218504399 U CN218504399 U CN 218504399U
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Abstract
The utility model provides a magnet splitting device, which comprises a base component, a bin and a pushing plate; a butt joint space is formed between the discharge port of the storage bin and the base component, and the push plate can move along a first horizontal direction and passes through the butt joint space; the pushing plate comprises a horizontal plate and a side plate, the horizontal plate is horizontally arranged, and the side plate is bent and extends out of the horizontal plate in the projection of the first horizontal direction; the horizontal plate comprises an upper surface and a lower surface which are opposite, and a placing gap is arranged on the horizontal plate and is vertically communicated between the upper surface and the lower surface; the horizontal plate is provided with a first groove, the first groove is recessed downwards on the upper surface, and the first groove extends along a first horizontal direction and is communicated to the placement notch. The utility model discloses a structure to the slurcam is improved, makes the slurcam have sufficient intensity and removes the production that reduces bending deformation, can also guarantee only at every turn with a magnet cooperation, guarantees that magnet split work lasts effectively going on.
Description
Technical Field
The utility model relates to an automation equipment technical field, concretely relates to magnet split equipment of slurcam has been improved.
Background
The existing magnet splitting equipment comprises a base, a bin, a push plate and a driving unit, wherein the bin is vertically arranged above the base, a discharge hole is formed in the bottom of the bin, a gap is formed between the bin and the base in the vertical direction to form a butt joint space, and the butt joint space is communicated in the horizontal direction; the driving unit is connected with the pushing plate. Placing in the feed bin along a plurality of magnets of vertical coincide, under the action of gravity, a magnet that is located the below can fall to the butt joint space and by the base support from the discharge gate, moves along the horizontal direction when drive unit drive slurcam, and the slurcam can pass the butt joint space and promote magnet of below, and the motive force surpasss the suction between this magnet and another magnet of top to realize the split of magnet of below and see off.
Because the magnet of split still can receive the actuation influence, generally, the driving plate needs to set up enough long to guarantee to eliminate the actuation influence. In addition, when the height of the magnet to be detached is small, the push plate is correspondingly thin in order to ensure that the push plate only sends out one magnet at a time. Elongated pusher plates tend to have some bending deformation. And because the height of the butt joint space is generally higher than that of one magnet so as to avoid hindering the movement of the magnet, generally, the lowest magnet and a part of the second magnet above the lowest magnet fall into the butt joint space, the accuracy of the matching position of the push plate which generates bending deformation is reduced, and the system is blocked and cannot work continuously when the two magnets are collided.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide an effectively guarantee and accurately cooperate and last effective work's magnet split equipment with magnet.
The utility model provides a magnet splitting device, which comprises a base component, a bin, a push plate and a first driving unit; the storage bin is vertically arranged above the base component, a discharge port is arranged at the bottom of the storage bin, a gap is formed between the discharge port and the base component in the vertical direction to form a butt joint space, and the butt joint space is communicated along a first horizontal direction; the first driving unit is connected with the pushing plate, and the pushing plate can move along a first horizontal direction and pass through the butt joint space under the driving of the first driving unit; the pushing plate comprises a horizontal plate and a side plate, the horizontal plate is horizontally arranged, and the side plate is bent and extends out of the horizontal plate in the projection of the first horizontal direction; the horizontal plate comprises an upper surface and a lower surface which are opposite, and a placing notch is arranged on the horizontal plate and is vertically communicated between the upper surface and the lower surface; the horizontal plate is provided with a first groove, the first groove is sunken downwards on the upper surface, and the first groove extends along a first horizontal direction and is communicated to the placement notch.
According to the scheme, firstly, the bending deformation of the pushing plate can be effectively reduced by additionally arranging the side plate connected with the horizontal plate in a bending mode, in addition, the part, corresponding to the placing notch, of the horizontal plate with enough thickness is smaller in height due to the arrangement of the first groove, and therefore the pushing surface of the horizontal plate is ensured to be only aligned to one magnet on the premise that the bending deformation is further reduced. Therefore, the utility model discloses a structure to the slurcam is improved to make the slurcam have sufficient intensity and remove the production that reduces bending deformation, can also guarantee only at every turn with a magnet cooperation, guarantee that magnet split work lasts effectively going on.
In a further scheme, in the projection of the first horizontal direction, the two side plates respectively bend and extend out from two opposite sides of the horizontal plate and extend downwards.
Therefore, the arrangement can further improve the structural strength of the pushing plate and further reduce the generation of bending deformation.
The base component comprises a bottom plate and a supporting seat, and the supporting seat is detachably connected to the bottom plate; a setting space is formed between the lower part of the horizontal plate and the two side plates, and the supporting seat is positioned in the setting space.
Still further, the supporting seat comprises a convex part which is convex upwards and extends along the first horizontal direction, and the convex part is positioned right below the placing notch.
From top to bottom, generally, in order to promote efficiency, the catch bar cooperates duplex position or even multistation to carry out magnet split work simultaneously, and this sets up the horizontal plate of catch bar down and has great area. The supporting seat is used for supporting the magnet to be sent out, the supporting surface of the supporting seat is close to the lower surface of the pushing plate, and the upper surface of the supporting seat is in integral contact fit with the lower surface of the horizontal plate to generate great friction resistance to influence the normal operation of the equipment. For this reason, in order to reduce the possible contact area to reduce the influence of resistance, the bearing block has as a bearing site only a projection projecting directly below the placement indentation.
A second groove is arranged on the horizontal plate, the second groove is recessed upwards on the lower surface, and the second groove extends along the first horizontal direction and is communicated to the placing notch; the first groove and the second groove are oppositely arranged.
Therefore, the arrangement can further reduce the possible contact area between the horizontal plate and the convex part, thereby further improving the smoothness of the horizontal movement of the push plate.
The further proposal is that the placing gap is arranged at the end part of the horizontal plate in the first horizontal direction, and the placing gap is opened at the end part; placing the notch and expanding the end part.
From top to bottom, this setting makes magnet easily get into places the breach, and can make fine guide to the translation of magnet.
The further scheme is that the magnet splitting equipment also comprises a guide mechanism; the guide mechanism includes at least two guides connected to the base member, the two guides respectively restraining the push plate from opposite sides of a second horizontal direction perpendicular to the first horizontal direction.
Therefore, the guide mechanism can well ensure the advancing straightness of the push plate, and finally the magnet can be accurately conveyed to a target position.
The magnet splitting equipment further comprises a transfer device; the transfer device comprises a second driving unit and an object stage, and the object stage can move along the preset direction under the driving of the second driving unit; a placing concave position is arranged on the objective table, and an inlet of the placing concave position is upward; the magnet splitting equipment further comprises a butt joint position, the butt joint position is located in front of the pushing plate in the first horizontal direction, and the butt joint position is located right above the inlet in the vertical direction.
From the above, the transferring device is used for receiving the pushed magnet and further transferring or discharging. This arrangement further realizes the degree of automation of the magnet disassembling work.
Still further, the placing concave position is provided with a guide inclined plane at the periphery of the inlet.
From top to bottom, the setting of guide inclined plane can guarantee that the magnet that falls can be guided to place in the concave position.
In another still further scheme, the object stage is a turntable, the turntable can rotate along an axis under the driving of the second driving unit, and the extending direction of the axis is vertical; at least two placing concave positions are arranged on the periphery of the axis.
From the top down, the objective table is set to the carousel and can reduce the use in place space.
Drawings
Fig. 1 is a structural diagram of a first viewing angle according to an embodiment of the present invention.
Fig. 2 is a structural diagram of a second viewing angle according to an embodiment of the present invention.
Fig. 3 is a structural diagram of a third viewing angle according to an embodiment of the present invention.
Fig. 4 is a structural diagram of a pushing plate in the embodiment of the present invention.
Fig. 5 is a cross-sectional view of a push plate in an embodiment of the present invention.
Fig. 6 is a partial view of a push plate according to an embodiment of the present invention.
Fig. 7 is an enlarged view of a portion a in fig. 2.
Fig. 8 is a sectional view at B in fig. 3.
Fig. 9 is an enlarged view at C in fig. 2.
Detailed Description
Referring to fig. 1 to 5, establish unified space rectangular coordinate system in each drawing, the x axle direction does in the coordinate system the utility model discloses a first horizontal direction, the y axle direction does the utility model discloses a second horizontal direction, the z axle direction does the utility model discloses a vertical.
Referring to fig. 1 to 3, this embodiment is duplex position magnet splitting equipment, and magnet splitting equipment comprises feed bin 1, splitting device 2 and 3 three parts of transfer device, and splitting device 2 installs on transfer device 3, and feed bin 1 installs on splitting device 2, and magnet 9 in feed bin 1 falls and arrives splitting device 2 department along the z axle direction, and splitting device 2 transfers magnet 9 along the x axle direction until dropping to transfer device 3 on, and transfer device 3 rotates and transfers magnet 9.
Referring to fig. 2 and 7, the storage bin 1 is vertically arranged, a stacking space 100 is vertically arranged inside the storage bin 1, the stacking space 100 is vertically through, and a discharge port 101 of the stacking space 100 is arranged at the bottom of the storage bin 1.
Referring to fig. 1 to 3 and fig. 7 and 8, the disassembling apparatus 2 includes a base member, a cylinder 211, a connecting member 212, a push plate 22, and a guide 23. The base member includes a base plate 201 and a support base 202 which are horizontally disposed, the base plate 201 is fixed to the transfer device 3, the support base 202 is detachably attached to the base plate 201, and the guide 23 is also attached to the base plate 201. Two convex parts 203 which protrude upwards are arranged at the top of the supporting seat 202, the convex parts 203 extend along the x-axis direction, and the two convex parts 203 are arranged at intervals along the y-axis direction. In the y axle direction, the relative both sides of bearing 202 all are provided with two guiding pieces 23 that have interval arrangement along the x axle direction, and four guiding pieces 23 constitute the utility model discloses a guide structure.
Referring to fig. 4 to 6, the pushing plate 22 includes a horizontal plate 221 and two side plates 222, the horizontal plate 221 extends horizontally, the side plates 222 extend along the z-axis direction, the two side plates 222 respectively extend from two opposite sides of the horizontal plate 221 and are bent and extend downwards in the projection along the x-axis direction, and a setting space 229 is formed below the horizontal plate 221 and between the two side plates 222. The horizontal plate 221 comprises an upper surface 221a and a lower surface 221b which are opposite, a placing notch 220 is arranged on the horizontal plate 221, and the placing notch 220 is vertically communicated between the upper surface 221a and the lower surface 221 b; the placing notch 220 is arranged at the end part of the horizontal plate 221 in the x-axis direction, and the placing notch 220 is opened at the end part; the placement notches 220 are flared to the ends.
The horizontal plate 221 is provided with a first groove 223, the first groove 223 is recessed downwards on the upper surface 221a, and the first groove 223 extends along the x-axis direction and is communicated with the placing notch 220; the horizontal plate 221 is provided with a second groove 224, the second groove 224 is recessed upward on the lower surface 221b, and the second groove 224 extends along the x-axis direction and communicates with the placement notch 220. The first groove 223 is disposed opposite to the second groove 224 in the z-axis direction.
Referring to fig. 7 and 8, the horizontal plate 221 is located right above the supporting base 202, and the convex portion 203 is located right below the placement notch 220, the first groove 223, and the second groove 224. Because the push plate 22 is matched with double stations to work simultaneously, the lower horizontal plate 221 has a larger area, the supporting seat 202 is used for supporting the magnet 9 to be sent out, the supporting surface of the supporting seat is closer to the lower surface 221b of the horizontal plate 221, and the upper surface of the supporting seat 202 is contacted and matched with the lower surface 221b of the horizontal plate 221 integrally to generate larger friction resistance so as to influence the normal operation of the equipment. For this reason, in order to reduce the possible contact area to reduce the resistance influence, the supporting seat 202 uses the protrusion 203 with a smaller area as a supporting portion, and the second groove 224 is also provided to further reduce the possible contact area between the horizontal plate 221 and the protrusion 203, thereby further improving the smoothness of the horizontal movement of the push plate.
Referring to fig. 7, a gap is formed between the discharge port 101 and the base member in the vertical direction to form a docking space 108, the docking space 108 penetrates in the x-axis direction, and the height of the docking space 108 is higher than the height of one magnet 9 and smaller than the sum of the heights of two magnets 9. The push plate 22 is movable in the x-axis direction, through the docking space 108 and to the docking position 109 shown in fig. 9, driven by the cylinder 211. The docking position 109 is a position in front of the push plate 22 in the x-axis direction.
Firstly, the side plate 222 bent and connected with the horizontal plate 221 can effectively prevent the push plate 22 from bending and deforming in the length direction; additionally, the horizontal plate 221 of the present invention can be selected to have the maximum thickness matched with the docking space 108 to further solve the deformation problem. Because the first groove 223 is formed in the horizontal plate 221, the part of the horizontal plate 221, which pushes the magnet 9, has a smaller height, which is consistent with the height of one magnet 9, so that the push plate 22 has sufficient strength to reduce the generation of bending deformation, and can be matched with only one magnet at a time, thereby ensuring that the magnet splitting operation is continuously and effectively performed.
Referring again to fig. 1, 2 and 9, the transfer device 3 includes a turntable 31 and a motor (not shown) for driving the turntable 31 to rotate, and the motor is a second driving unit of the present invention. The turntable 31 is horizontally arranged, the extending direction of the rotating axis of the turntable 31 is the z-axis direction, two placing seats 32 which are symmetrically arranged are arranged on the periphery of the rotating axis of the turntable 31, two placing concave positions 320 are arranged on the placing seats 32, and the turntable 31 can rotate to enable the placing concave positions 320 to reach the position right above the butt joint position 109. The magnet 9 detached and delivered to the docking position 109 can fall into the placing recess 320 and be transferred by the turntable 31. Wherein the placing recess 320 is provided with a guide slope 321 at the outer circumference of the inlet. The guide slope 321 is provided to ensure that the falling magnet can be guided into the placement recess 320. The transfer device 3 is provided to further automate the magnet detaching work.
In other embodiments, the edge panels may be bent upward from the edges of the horizontal panels.
In other embodiments, only one side edge of the horizontal plate is connected with the side plate, and the pushing plate is in an "L" shape in the projection of the first horizontal direction.
In other embodiments, the placement notches may be located in the extended middle of the horizontal plate and closed all around.
Finally, it should be emphasized that the above-described embodiments are merely preferred examples of the present invention, and are not intended to limit the invention, as those skilled in the art will appreciate that various changes and modifications may be made, and any and all modifications, equivalents, and improvements made, while remaining within the spirit and principles of the present invention, are intended to be included within the scope of the present invention.
Claims (10)
1. The magnet splitting equipment comprises a base component, a bin, a push plate and a first driving unit;
the storage bin is vertically arranged above the base component, a discharge port is arranged at the bottom of the storage bin, a gap is formed between the discharge port and the base component in the vertical direction to form a butt joint space, and the butt joint space is communicated along a first horizontal direction;
the first driving unit is connected with the pushing plate, and the pushing plate can move along the first horizontal direction and pass through the butting space under the driving of the first driving unit;
the method is characterized in that:
the pushing plate comprises a horizontal plate and a side plate, the horizontal plate is horizontally arranged, and the side plate is bent and extends out of the horizontal plate in the projection of the first horizontal direction;
the horizontal plate comprises an upper surface and a lower surface which are opposite, and a placing gap is arranged on the horizontal plate and is communicated between the upper surface and the lower surface along the vertical direction;
the horizontal plate is provided with a first groove, the first groove is recessed downwards on the upper surface, and the first groove extends along the first horizontal direction and is communicated to the placing notch.
2. The magnet splitting apparatus according to claim 1, wherein:
in the projection of the first horizontal direction, the two side plates respectively bend and extend out from the two opposite sides of the horizontal plate and extend downwards.
3. The magnet splitting apparatus according to claim 2, wherein:
the base component comprises a bottom plate and a supporting seat, and the supporting seat is detachably connected to the bottom plate;
and a setting space is formed between the lower part of the horizontal plate and the two side plates, and the supporting seat is positioned in the setting space.
4. The magnet splitting apparatus according to claim 3, wherein:
the supporting seat comprises a convex part protruding upwards, the convex part extends along the first horizontal direction, and the convex part is located right below the placing notch.
5. The magnet splitting apparatus according to claim 4, wherein:
a second groove is formed in the horizontal plate, the second groove is recessed upwards in the lower surface, and the second groove extends along the first horizontal direction and is communicated to the placing notch;
the first groove and the second groove are oppositely arranged.
6. A magnet splitting device according to any one of claims 1 to 5, wherein:
the placing gap is arranged at the end part of the horizontal plate in the first horizontal direction, and the placing gap is opened at the end part;
the placement notches are flared at the end portions.
7. The magnet splitting apparatus according to any one of claims 1 to 5, wherein:
the magnet disassembling device further comprises a guide mechanism;
the guide mechanism includes at least two guides connected to the base member, the two guides respectively restricting the push plate from opposite sides in a second horizontal direction perpendicular to the first horizontal direction.
8. The magnet splitting apparatus according to any one of claims 1 to 5, wherein:
the magnet disassembling equipment also comprises a transferring device;
the transfer device comprises a second driving unit and an object stage, and the object stage can move along a preset direction under the driving of the second driving unit;
a placing concave position is arranged on the objective table, and an inlet of the placing concave position is upward;
the magnet splitting equipment further comprises a butt joint position, in the first horizontal direction, the butt joint position is located in front of the pushing plate, and in the vertical direction, the butt joint position is located right above the inlet.
9. The magnet splitting apparatus according to claim 8, wherein:
the placing concave position is provided with a guide inclined plane at the periphery of the inlet.
10. The magnet splitting apparatus according to claim 8, wherein:
the object stage is a turntable, the turntable can rotate along an axis under the driving of the second driving unit, and the extending direction of the axis is the vertical direction;
at least two place the concave position setting in the periphery of axle center.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202222216932.2U CN218504399U (en) | 2022-08-22 | 2022-08-22 | Magnet splitting equipment |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202222216932.2U CN218504399U (en) | 2022-08-22 | 2022-08-22 | Magnet splitting equipment |
Publications (1)
Publication Number | Publication Date |
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CN218504399U true CN218504399U (en) | 2023-02-21 |
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ID=85208301
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202222216932.2U Active CN218504399U (en) | 2022-08-22 | 2022-08-22 | Magnet splitting equipment |
Country Status (1)
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CN (1) | CN218504399U (en) |
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2022
- 2022-08-22 CN CN202222216932.2U patent/CN218504399U/en active Active
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