CN111498453A - Magnet magnetizing equipment with automatic counting function - Google Patents
Magnet magnetizing equipment with automatic counting function Download PDFInfo
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- CN111498453A CN111498453A CN202010271094.1A CN202010271094A CN111498453A CN 111498453 A CN111498453 A CN 111498453A CN 202010271094 A CN202010271094 A CN 202010271094A CN 111498453 A CN111498453 A CN 111498453A
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- 238000007599 discharging Methods 0.000 claims description 6
- 238000001514 detection method Methods 0.000 claims description 3
- 238000003825 pressing Methods 0.000 claims description 3
- 230000005415 magnetization Effects 0.000 abstract description 4
- 238000004519 manufacturing process Methods 0.000 abstract description 4
- 230000006872 improvement Effects 0.000 description 8
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G47/00—Article or material-handling devices associated with conveyors; Methods employing such devices
- B65G47/52—Devices for transferring articles or materials between conveyors i.e. discharging or feeding devices
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G47/00—Article or material-handling devices associated with conveyors; Methods employing such devices
- B65G47/74—Feeding, transfer, or discharging devices of particular kinds or types
- B65G47/88—Separating or stopping elements, e.g. fingers
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Abstract
The application relates to the technical field of magnet magnetization. A magnet magnetizing device with an automatic counting function comprises a rack, an automatic counting and blanking device, a magnetizing device, an automatic counting and blanking device, a workbench and an industrial personal computer. Automatic counting assembly, blanking receiving thrust unit, stop device, automatic counting push down the device and all be connected with the industrial computer, set up on the industrial computer and release magnet quantity, automatic counting assembly detects, the blanking receiving thrust unit stops the action after reaching quantity, magnet is pushed down in the action of stop device, automatic counting push down the device action and impel certain quantity magnet and collect the frame, improved the efficiency and the accuracy nature of magnet count, reduced the manufacturing cost of magnet simultaneously.
Description
Technical Field
The application relates to the technical field of magnet magnetization, in particular to magnet magnetization equipment with an automatic counting function.
Background
With the development of scientific technology, the application of magnets in modern life is more and more extensive, and at present, magnets are widely used in the fields of various sensors, instruments, electronics, electromechanics, medical treatment, teaching, automobiles, aviation, military technology and the like, and have more and more important positions in various scenes. With the rapid development of magnets, demands for precision in the number of magnets to be processed and problems in the efficiency of the batch in magnet processing have been increasingly paid attention, and these factors have an important influence on the efficiency of magnet processing and packaging in factories.
In the processing process of a common magnet, the magnet is only magnetized, the counting function is realized by manual counting or an external machine during the quantitative operation, and then the magnet is sorted and packaged. For manual counting, the problems of high cost, complex operation and low efficiency exist, and the counting error risk also exists to a certain extent, so that the counting accuracy of the magnet is greatly influenced. And to using external machine to count, there is the operation complicacy, needs artifical more problem, still can increase manufacturing cost moreover to a certain extent, is unfavorable for high efficiency, the low-cost count of magnet.
Disclosure of Invention
In order to solve the technical problems, the present application provides a magnet magnetizing apparatus with an automatic counting function, which not only can complete the work of magnetizing magnets, but also can count the magnetized magnets, and when the magnetized magnets reach a set number, the apparatus can push the set number of magnets down to a collecting rack, thereby improving the efficiency and accuracy of magnet counting, and reducing the production cost of magnets.
In order to achieve the above object, the present application adopts the following technical solutions:
the utility model provides a magnet equipment of magnetizing with automatic counting function which characterized in that, should magnetize equipment and include frame, automatic counting unloader, magnetization device, automatic counting doffer, workstation and industrial computer. The whole equipment is supported and fixed by a rack, the workbench is positioned above the rack, the automatic counting and blanking device, the magnetizing device and the automatic counting and blanking device are respectively fixed on the workbench through screws, and the automatic counting and blanking device is connected with the magnetizing device through a slide rail. The automatic counting and blanking device is provided with a plane, the height of the plane is the same as that of the bottom of a sliding rail in the magnetizing device, and the plane is adjacent to the end part of the sliding rail of the magnetizing device. The automatic counting and blanking device comprises a vibrating disc feeding device, an automatic counting device, a blanking channel device and a blanking receiving and pushing device, wherein the vibrating disc feeding device is connected with one end of the blanking channel device through a sliding rail, the blanking receiving and pushing device is connected with the other end of the blanking channel device, the automatic counting device is fixed on a workbench, and the detection end is positioned above one end, connected with the vibrating disc feeding device, of the blanking channel device. The automatic counting and blanking device is provided with a stop device and an automatic counting and pushing device, the stop device is fixed on the magnetizing device through a screw and is positioned above the tail end of a slide rail in the magnetizing device, the automatic counting and pushing device comprises a pushing cylinder, an inclined plane sliding device, a pushing block of the pushing device and a rack of the pushing device, the rack of the pushing device is fixed on the workbench, the inclined plane sliding device is fixed on the rack of the pushing device, the pushing cylinder is fixed on the rack of the pushing device through screws, and is positioned below the inclined plane sliding device, the pushing block of the pushing and dropping device is connected with the pushing and dropping cylinder through a screw, the lower surface of the pushing block of the pushing and dropping device is higher than the upper surface of the inclined plane sliding device, the end face of the push-down block of the push-down device does not reach the end face of the inclined plane sliding device in the extension state of the push-down cylinder, and the end face of the push-down block of the push-down device exceeds the plane of the inclined plane sliding device in the contraction state of the push-down cylinder. The automatic counting device, the blanking receiving and pushing device, the stopping device and the automatic counting and pushing device are connected with the industrial personal computer, the number of the pushing magnets is set on the industrial personal computer, the automatic counting device detects the number of the pushing magnets, the blanking receiving and pushing device stops acting after the number of the pushing magnets is reached, the stopping device acts to press the magnets, and the automatic counting and pushing device acts to push a certain number of the magnets into the collecting frame.
As a further improvement, the discharging channel device comprises a channel inner body, a first channel outer body and a second channel outer body, wherein the channel inner body is fixed on the first channel outer body through screws, the channel inner body is embedded with the first channel outer body, the second channel outer body is fixed on the other surfaces of the channel inner body and the first channel outer body, the discharging channel device is divided into two arc-shaped magnet sliding channels in different directions, a certain interval is arranged between the two arc-shaped magnet sliding channels, and magnets falling from the two channels are separated according to a certain distance. The structure forms the magnet sliding channels in two directions, so that the magnet can slide down smoothly, and the phenomena of blocking and stacking of the magnet in the sliding process are avoided.
As a further improvement, the width of the arc-shaped gliding channel in the blanking channel device is smaller than the transverse width of the magnet and larger than the longitudinal width of the magnet, so that the magnet cannot turn over in the gliding process. Because the width of gliding passageway is less than the horizontal width of magnet, also can guarantee that the magnet can be received by blanking receiving arrangement under the upright state after gliding.
As a further improvement, the blanking receiving device and the blanking pushing device select one or more of an air cylinder, a stepping motor and a servo motor to be driven in a mixed mode. The blanking receiving device and the blanking pushing device are not high in required precision and quick in required action, and can be driven by the air cylinder, and cost can be effectively reduced.
As a further improvement, the driving mode of the blanking receiving device and the blanking pushing device is air cylinder driving.
As a further improvement, the blanking receiving device is provided with a blanking receiving head, the end part of the blanking receiving head is of a comb-shaped structure, the lower end of the blanking receiving head is connected with the receiving device, the upper end of the blanking receiving head is vertically upward and aligned with the blanking channel device, and the blanking gap of the comb-shaped structure is smaller than the transverse width of the magnet and larger than the longitudinal width of the magnet. Thereby ensuring that the falling magnet remains upright on the track.
As a further improvement, the automatic counting and blanking device is provided with a stopping device, and the stopping device comprises a pen-shaped air cylinder, a stopping block and a stopping device fixing block. The stopping device fixing block is fixed on the magnetizing device through a screw, the pen-shaped air cylinder is fixed on the stopping device fixing block through a bolt, the stopping block is connected with the pen-shaped air cylinder through threads, the pen-shaped air cylinder and the stopping block connecting piece are located above the tail end of the sliding rail in the magnetizing device, the stopping block cannot touch the magnet at the tail end of the sliding rail when the pen-shaped air cylinder is in a contraction state, and the stopping block can touch the magnet at the tail end of the sliding rail when the pen-shaped air cylinder is in an extension state. Above-mentioned structure can the snap action compress tightly magnet, guarantees to release the stability of magnet quantity, simultaneously because the cylinder can provide great pressure, can guarantee the stability when compressing tightly magnet.
As a further improvement, the part of the pressing magnet below the stop block contains a groove shape which is adaptive to the shape of the magnet, and the size of the groove shape corresponds to the size of the magnet, so that when the cylinder pushes the stop block to fall down, the stop block can press the magnet, and the magnet is prevented from moving due to the pressure of the cylinder.
As a further improvement, the groove shape below the cut-off block is arc, ellipse or square to ensure the embedding with the magnet shape, thereby compressing the magnet.
In addition, the application also discloses a magnet magnetizing method capable of automatically counting, which adopts the device and comprises the following steps:
1) putting the magnet block into a blanking device, and moving the magnet to an automatic counting device through the blanking device;
2) the automatic counting device finishes counting, and the magnet moves to the blanking receiving and pushing device along the blanking channel device;
3) the blanking receiving and pushing device completes the receiving of the magnet, pushes the magnet to move to the magnetizing device along the track to complete the magnetizing process and move to the automatic counting blanking device;
4) when the number of the magnets on the automatic counting and blanking device reaches a certain number, the stopping device starts to act, the blanking receiving and pushing device stops acting, and the rest magnets stop moving;
5) and a pushing cylinder device in the automatic counting pushing device starts to act to push the magnets to move along the inclined plane sliding device, so that a certain number of magnets are collected.
In summary, this application is owing to adopted foretell technical scheme, and this equipment carries out the count of magnet when can magnetizing magnet, and when the magnet that magnetizes reached the figure of settlement, this equipment can push away the collection frame with the magnet of the figure of settlement in, has avoided the problem that artifical count is inefficient, has improved the efficiency and the accuracy nature of magnet count, has also reduced the input of special counting machine, has reduced the manufacturing cost of magnet.
Drawings
Fig. 1 is a schematic structural diagram of an embodiment of the present invention.
Fig. 2 is a schematic structural diagram of an automatic counting blanking device.
Fig. 3 is a schematic structural diagram of the automatic counting and pushing device.
Fig. 4 is a schematic structural view of the blanking passage device.
Fig. 5 is a schematic structural view of the blanking receiving and pushing device.
Fig. 6 is a schematic structural view of the cut-off device.
Detailed Description
The following detailed description of embodiments of the present application will be made with reference to the accompanying drawings.
Example 1
As shown in fig. 1, the magnet magnetizing device with an automatic counting function includes a frame, an automatic counting and blanking device 2, a magnetizing device 3, an automatic counting and blanking device 4, a workbench and an industrial personal computer. The whole equipment is supported and fixed by a rack, the workbench is positioned above the rack, the automatic counting and blanking device 2, the magnetizing device 3 and the automatic counting and blanking device 4 are respectively fixed on the workbench through screws, the automatic counting and blanking device 2 is connected with the magnetizing device 3 through a sliding rail, a plane is arranged on the automatic counting and blanking device 4, the height of the plane is the same as that of the bottom of the sliding rail in the magnetizing device 3, and the plane is adjacent to the end part of the sliding rail of the magnetizing device 3, so that the magnet can move from the magnetizing device 3 to the plane of the automatic counting and blanking device 4.
As shown in fig. 2, the automatic counting and blanking device 2 includes a vibrating tray feeding device 21, an automatic counting device 22, a blanking channel device 23 and a blanking receiving and pushing device 24. Vibration dish loading attachment 21 passes through the slide rail and links to each other with unloading channel device 23 one end, and pushing device 24 is received to the blanking and links to each other with the unloading channel device 23 other end, automatic counting assembly 22 be fixed in on the workstation, the sense terminal is located unloading channel device 23 and the continuous one end top of vibration dish loading attachment 21 for the quantity of accurate detection whereabouts magnet.
As shown in fig. 3, the automatic counting and blanking device 4 is provided with an automatic counting and pushing-down device 42, and the automatic counting and pushing-down device 42 includes a pushing-down cylinder 421, a slope sliding device 422, a pushing-down device pushing-down block 423 and a pushing-down device frame 424. The push-down device frame 424 is fixed on the workbench, the inclined plane sliding device 422 is fixed on the push-down device frame 424, and the push-down cylinder 421 is fixed on the push-down device frame 424 through screws and is located below the inclined plane sliding device 422. The push-down device push-down block 423 is connected with the push-down cylinder 421 through a screw, the lower surface of the push-down device push-down block 423 is higher than the upper surface of the inclined plane sliding device 422, the end surface of the push-down device push-down block 423 does not reach the end surface of the inclined plane sliding device 422 in the extension state of the push-down cylinder 421, and the end surface of the push-down device push-down block 423 exceeds the plane of the inclined plane sliding device 422 in the contraction state of the push-down cylinder 421. The automatic counting device 22, the blanking receiving pushing device 24, the stopping device 41 and the automatic counting pushing device 42 are connected with an industrial personal computer, the quantity of the pushing magnets is set on the industrial personal computer, the automatic counting device 22 detects the quantity, the blanking receiving pushing device 24 stops acting after the quantity is reached, the stopping device 41 acts to press the magnets, the automatic counting pushing device 42 acts to push a certain quantity of magnets into the collecting frame, and the collection of the magnets at one time is completed.
As shown in fig. 4, the discharging channel device 23 includes a channel inner body 231, a first channel outer body 232, and a second channel outer body 233. The channel inner body 231 is fixed on the first channel outer body 232 through screws, the channel inner body 231 is embedded with the first channel outer body 232, the second channel outer body 233 is fixed on the other surfaces of the channel inner body 231 and the first channel outer body 232, and the blanking channel device 23 is divided into two arc-shaped magnet sliding channels in different directions. And a certain interval is arranged between the two arc-shaped magnet sliding channels to separate the magnets falling from the two channels according to a certain distance, and the width of the arc-shaped sliding channels in the blanking channel device 23 is smaller than the transverse width of the magnets and larger than the longitudinal width of the magnets.
As shown in fig. 5, the blanking receiving pushing device 24 includes a blanking receiving device 241 and a blanking pushing device 242, and the blanking receiving device 241 and the blanking pushing device 242 are driven by an air cylinder or driven by one or more of a stepping motor and a servo motor. The blanking receiving device 241 is provided with a blanking receiving head 2411, the end part of the blanking receiving head 2411 is of a comb-shaped structure, the lower end of the blanking receiving head 2411 is connected with the receiving device 241, the upper end of the blanking receiving head is vertically upward and aligned with the blanking channel device 23, and the blanking gap of the comb-shaped structure is smaller than the transverse width of the magnet and larger than the longitudinal width of the magnet, so that the magnet can keep a vertical state in the falling process, and meanwhile, the counting of the magnet is facilitated.
As shown in fig. 6, the automatic counting and blanking device 4 is provided with a stopping device 41, the stopping device 41 is fixed on the magnetizing device 3 through a screw, is located above the tail end of a slide rail in the magnetizing device 3, and comprises a pen-shaped cylinder 411, a stopping block 412 and a stopping device fixing block 413. The stopping device fixing block 413 is fixed on the magnetizing device 3 through a screw, the pen-shaped air cylinder 411 is fixed on the stopping device fixing block 413 through a bolt, the stopping block 412 is connected with the pen-shaped air cylinder 411 through a thread, a connecting piece of the pen-shaped air cylinder 411 and the stopping block 412 is positioned above the tail end of a slide rail in the magnetizing device 3, the stopping block 412 cannot touch a magnet at the tail end of the slide rail when the pen-shaped air cylinder 411 is in a contraction state, and the stopping block 412 can touch the magnet at the tail end of the slide rail when the pen-shaped air cylinder 411 is in an extension state. The part of the pressing magnet below the stopping block 412 has a groove shape which is adapted to the shape of the magnet, and the size of the groove shape corresponds to the size of the magnet, so that the stopping block 412 is ensured to press the magnet, wherein the groove shape is an arc, an ellipse or a square.
Taking a circular magnet as an example, the stopping block 412 of the present embodiment is in the shape of an arc, and the material-dropping receiving device 241 and the material-dropping pushing device 242 are driven by an air cylinder.
1) Putting the magnet blocks into a vibrating disk feeding device 21, and moving the magnets to an automatic counting device 22 through the vibrating disk feeding device 21;
2) the automatic counting device 22 completes counting, and the magnet moves to the blanking receiving pushing device 24 along the blanking channel device 23;
3) the blanking receiving and pushing device 24 completes the receiving of the magnet, pushes the magnet to move to the magnetizing device 3 along the track to complete the magnetizing process and move to the automatic counting and blanking device 4;
4) when the magnets reach a certain number on the automatic counting and blanking device 4, the stopping device 41 starts to act, the blanking receiving and pushing device 24 stops acting, and the rest magnets stop moving;
5) the pushing cylinder device 421 in the automatic counting pushing device 42 starts to operate to push the magnets to slide along the inclined plane sliding device 422, so as to complete the collection of a certain number of magnets.
The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention, including any reference to the above-mentioned embodiments. Various modifications to the embodiments will be readily apparent to those skilled in the art. The general principles defined herein may be implemented in other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.
Claims (10)
1. A magnet magnetizing device with an automatic counting function is characterized by comprising a rack, an automatic counting and blanking device (2), a magnetizing device (3), an automatic counting and blanking device (4), a workbench and an industrial personal computer; the whole equipment is supported and fixed by a rack, the workbench is positioned above the rack, the automatic counting blanking device (2), the magnetizing device (3) and the automatic counting blanking device (4) are respectively fixed on the workbench through screws, and the automatic counting blanking device (2) is connected with the magnetizing device (3) through a slide rail; the automatic counting and blanking device (4) is provided with a plane, the height of the plane is the same as that of the bottom of a slide rail in the magnetizing device (3), and the plane is adjacent to the end part of the slide rail of the magnetizing device (3); the automatic counting and blanking device (2) comprises a vibrating disc feeding device (21), an automatic counting device (22), a blanking channel device (23) and a blanking receiving and pushing device (24); the vibrating disc feeding device (21) is connected with one end of the discharging channel device (23) through a slide rail, and the blanking receiving and pushing device (24) is connected with the other end of the discharging channel device (23); the automatic counting device (22) is fixed on the workbench, and the detection end is positioned above the end, connected with the vibrating disc feeding device (21), of the blanking channel device (23); the automatic counting and blanking device (4) is provided with a stopping device (41) and an automatic counting and pushing-off device (42), wherein the stopping device (41) is fixed on the magnetizing device (3) through a screw and is positioned above the tail end of a sliding rail in the magnetizing device (3); the automatic counting and pushing device (42) comprises a pushing cylinder (421), an inclined plane sliding device (422), a pushing block (423) of the pushing device and a rack (424) of the pushing device, the rack (424) of the pushing device is fixed on a workbench, the inclined plane sliding device (422) is fixed on the rack (424) of the pushing device, and the pushing cylinder (421) is fixed on the rack (424) of the pushing device through screws and is positioned below the inclined plane sliding device (422); the push-down block (423) of the push-down device is connected with the push-down cylinder (421) through a screw, the lower surface of the push-down block (423) of the push-down device is higher than the upper surface of the inclined plane sliding device (422), the end surface of the push-down block (423) of the push-down device does not reach the end surface of the inclined plane sliding device (422) in the extension state of the push-down cylinder (421), and the end surface of the push-down block (423) of the push-down device exceeds the plane of the inclined plane sliding device (422) in the contraction state of the push-down cylinder (421); automatic counting assembly (22), blanking receiving thrust unit (24), stop device (41), automatic counting push-off unit (42) all be connected with the industrial computer, set up on the industrial computer and release magnet quantity, automatic counting assembly (22) detect, blanking receiving thrust unit (24) stop the action after reaching quantity, stop device (41) action and push down magnet, automatic counting push-off unit (42) action impels a certain amount of magnet and collects the frame.
2. A magnet magnetizing apparatus with automatic counting function according to claim 1, wherein said discharging channel device (23) comprises a channel inner body (231), a first channel outer body (232) and a second channel outer body (233); the channel inner body (231) is fixed on the first channel outer body (232) through screws, the channel inner body (231) is embedded with the first channel outer body (232), the second channel outer body (233) is fixed on the other surfaces of the channel inner body (231) and the first channel outer body (232), the blanking channel device (23) is divided into two arc-shaped magnet sliding channels in different directions, a certain interval is reserved between the two arc-shaped magnet sliding channels, and magnets falling from the two channels are separated according to a certain distance.
3. A magnet magnetizing apparatus with automatic counting function according to claim 1, wherein the width of the arc-shaped sliding down channel in the blanking channel device (23) is smaller than the transverse width of the magnet and larger than the longitudinal width of the magnet.
4. A magnet magnetizing apparatus with automatic counting function according to claim 1, wherein said blanking receiving pushing means (24) comprises a blanking receiving means (241) and a blanking pushing means (242); the blanking receiving device (241) and the blanking pushing device (242) are driven by one or more of an air cylinder, a stepping motor and a servo motor in a mixing way.
5. A magnet magnetizing apparatus with automatic counting function as claimed in claim 1, wherein the driving means is a cylinder driving.
6. A magnet magnetizing apparatus with automatic counting function as claimed in claim 1, wherein said blanking receiving device (241) is provided with a blanking receiving head (2411), the end of said blanking receiving head (2411) is comb-shaped; the lower end of the blanking receiving head (2411) is connected with the receiving device (241), the upper end is vertically upward and aligned with the blanking channel device (23), and the blanking gap of the comb-shaped structure is smaller than the transverse width of the magnet and larger than the longitudinal width of the magnet.
7. A magnet magnetizing apparatus with an automatic counting function according to claim 1, wherein the cut-off device (41) comprises a pen-type cylinder (411), a cut-off block (412) and a cut-off device fixing block (413); the stopping device fixing block (413) is fixed on the magnetizing device (3) through a screw, the pen-shaped air cylinder (411) is fixed on the stopping device fixing block (413) through a bolt, the stopping block (412) is connected with the pen-shaped air cylinder (411) through threads, a connecting piece of the pen-shaped air cylinder (411) and the stopping block (412) is located above the tail end of a sliding rail in the magnetizing device (3), the stopping block (412) cannot touch a magnet at the tail end of the sliding rail when the pen-shaped air cylinder (411) is in a contraction state, and the stopping block (412) can touch the magnet at the tail end of the sliding rail when the pen-shaped air cylinder (411) is in an extension state.
8. A magnet magnetizing apparatus having an automatic counting function according to claim 1, wherein the magnet pressing portion below the stopper (412) has a groove shape adapted to the shape of the magnet, and the size of the groove shape corresponds to the size of the magnet.
9. A magnet magnetizing apparatus having an automatic counting function as claimed in claim 1, wherein said groove shape is a circular arc, an ellipse or a square.
10. A method for magnetizing a magnet capable of automatic counting, which uses the apparatus of any one of claims 1 to 9, comprising the steps of:
putting the magnet block into a vibrating disk feeding device (21), and moving the magnet to an automatic counting device (22) through the vibrating disk feeding device (21);
the automatic counting device (22) finishes counting, and the magnet moves to the blanking receiving and pushing device (24) along the blanking channel device (23);
the blanking receiving and pushing device (24) completes the receiving of the magnet, pushes the magnet to move to the magnetizing device (3) along the track to complete the magnetizing process and move to the automatic counting blanking device (4);
when the magnets reach a certain number on the automatic counting and blanking device (4), the stopping device (41) starts to act, the blanking receiving and pushing device (24) stops acting, and the rest magnets stop moving;
and a pushing and falling cylinder device (421) in the automatic counting pushing and falling device (42) starts to act to push the magnet to move along the inclined plane sliding device (422), so that the collection of the magnet is completed.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202010271094.1A CN111498453A (en) | 2020-04-08 | 2020-04-08 | Magnet magnetizing equipment with automatic counting function |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202010271094.1A CN111498453A (en) | 2020-04-08 | 2020-04-08 | Magnet magnetizing equipment with automatic counting function |
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| CN111498453A true CN111498453A (en) | 2020-08-07 |
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| CN202010271094.1A Withdrawn CN111498453A (en) | 2020-04-08 | 2020-04-08 | Magnet magnetizing equipment with automatic counting function |
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2020
- 2020-04-08 CN CN202010271094.1A patent/CN111498453A/en not_active Withdrawn
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| (英)D.R.伍德利: "《物料搬运》", 30 June 1975, 机械工业出版社 * |
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