CN209962873U - Inductance core adds magnetic device - Google Patents

Abstract

The utility model discloses an inductance magnetic core adds magnetic device is provided with X axle slide rail and Y axle slide rail on the second workstation, and on Y axle slide rail was installed in the cooperation of X axle slide rail, made X axle slide rail can carry out vertical slip on Y axle slide rail, Z axle slide rail is installed in the cooperation on the X axle slide rail, makes Z axle slide rail can carry out lateral sliding on X axle slide rail, install the cylinder on the Z axle slide rail, the cylinder lower extreme is provided with flexible suction rod and briquetting, and the cylinder promotes the briquetting and goes up and down, the lower extreme of flexible suction rod is provided with and adds magnetism material feeding unit and with magnetic device, has effectively realized that the magnetic core adds a series of steps such as the automation of magnetism material loading and the collection after adding magnetism unloading and unloading, and effectual labour saving reduces artifical link that participates in to the minimum, lower labour cost, improvement labor efficiency.

Description

Inductance core adds magnetic device

Technical Field

The utility model belongs to the technical field of mechanical device and specifically relates to an inductance magnetic core adds magnetic device.

Background

Magnetic materials, which are generally called ferromagnetic materials, are ancient functional materials with wide application, and the magnetism of the materials is known and applied by people as early as 3000 years ago, for example, the ancient Chinese substitutes a natural magnet as a compass. Modern magnetic materials have been widely used in our lives, for example, permanent magnetic materials as motors, iron core materials applied in transformers, magneto-optical disks used as memories, magnetic recording disks for computers, and the like.

The magnetism of in-process at magnetic core magnetization is more stable for the magnetic core, all adopts no magnetic material to add the magnetic material and forms usually, and present magnetic core adds magnetic equipment and all goes on going up unloading and add magnetism through manual operation at that time, and manual operation's method is not only efficient lower, and is easier because manual operation's improper influence magnetic core adds the quality of magnetism.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an it is not enough to overcome above-mentioned condition, aims at providing the technical scheme that can solve above-mentioned problem.

The utility model provides an inductance magnetic core adds magnetism device, includes first workstation and second workstation, be provided with the vibration feeder on the first workstation, be connected with the conveying pipe on the vibration feeder, the conveying pipe extends to on the second workstation always, be provided with X axle slide rail and Y axle slide rail on the second workstation, on Y axle slide rail was installed in the cooperation of X axle slide rail, make X axle slide rail carry out vertical slip on Y axle slide rail, Z axle slide rail is installed in the cooperation on the X axle slide rail, make Z axle slide rail can carry out lateral sliding on X axle slide rail, install the cylinder on the Z axle slide rail, the cylinder lower extreme is provided with flexible suction bar and briquetting, and the cylinder promotes the briquetting and goes up and down, the lower extreme of flexible suction bar is provided with adds magnetism material feeding unit and adds magnetism device.

As a further aspect of the present invention: add magnetism material feeding unit includes: a transverse sliding rail cylinder and a longitudinal sliding rail cylinder, wherein a transverse cylinder sliding block capable of sliding on the transverse sliding rail cylinder is arranged on the transverse sliding rail cylinder, a bottom sliding plate which extends transversely is arranged on the transverse cylinder sliding block, a longitudinal cylinder sliding block which can slide longitudinally on the longitudinal slide rail cylinder is arranged on the longitudinal slide rail cylinder, the longitudinal slide rail cylinder is provided with a connecting base plate, an L-shaped feeding plate is fixed on the connecting base plate, the tail end of the other side of the feeding plate is provided with a plurality of material clamping grooves which penetrate through the feeding plate and face the material inlet of the magnetizing device, the feeding plate is cushioned by the connecting backing plate to be higher than the bottom sliding plate, so that the transversely extending bottom sliding plate extends to the lower end of the material feeding plate all the way to cushion the bottom surface of the material clamping groove to prevent the raw materials in the material clamping groove from falling, a through hole penetrating through the second workbench is formed in the lower end of the clamping groove, and a material taking device is arranged at the lower end of the second workbench.

As a further aspect of the present invention: the dispenser comprises: the top dress board, top dress board one side is provided with the side dress board, top dress board opposite side is provided with the through-hole that runs through, and the through-hole position is corresponding with the position that runs through the through-hole of second workstation, all sets up under the card silo, the opposite side of top dress board is provided with and blocks the silo respectively the corresponding magnet post of shape position, the magnet columnar connection is fixed with the connecting block, and the connecting block lower extreme is provided with pneumatic telescopic cylinder, and pneumatic telescopic cylinder installs on the side dress board.

As a further aspect of the present invention: the magnet column is a steel piece, and a magnet is embedded on the magnet column

As a further aspect of the present invention: the bottom sliding plate and the feeding plate are made of non-magnetic metal materials.

Compared with the prior art, the beneficial effects of the utility model are that: a series of steps such as automatic magnetizing feeding, magnetizing discharging and collecting after discharging of the magnetic core magnetizing are effectively achieved, labor force is effectively saved, the link of manual participation is reduced to the minimum, labor cost is low, and labor efficiency is improved.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a side view of the present invention.

Fig. 3 is a schematic structural view of the middle magnetizing feeding device of the present invention.

Fig. 4 is a schematic structural view of the material taking device of the present invention.

In the figure: 1. the device comprises a first workbench, a second workbench, a magnetizing and feeding device, a magnetizing device, a Z-axis slide rail, a 6X-axis slide rail, a 7 cylinder, an 8Y-axis slide rail, a 9 telescopic suction rod, a 10 feeding pipe, a 11 vibrating feeder, a 12 material taking device, a 13 pressing block, a 31 transverse slide rail cylinder, a 32 transverse cylinder slide block, a 33 bottom slide plate, a 34 clamping groove, a 35 feeding plate, a 36 connecting cushion plate, a 37 longitudinal cylinder slide block, a 38 longitudinal slide rail cylinder, a 121, a top mounting plate, a 123, a side mounting plate, a 124, a magnet column, 125, a connecting block, 126 and a pneumatic telescopic cylinder.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below, and it should be understood that the described embodiments are only some embodiments of the present invention, but not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, in an embodiment of the present invention, an inductor core magnetizing apparatus 4 includes a first worktable 1 and a second worktable 2, the first workbench 1 is provided with a vibration feeder 11, the vibration feeder 11 is connected with a feeding pipe 10, the feeding pipe 10 extends to the second workbench 2, the second workbench 2 is provided with an X-axis slide rail 6 and a Y-axis slide rail 8, the X-axis slide rail 6 is arranged on the Y-axis slide rail 8 in a matching way, so that the X-axis slide rail 6 can slide vertically on the Y-axis slide rail 8, the X-axis slide rail 6 is provided with a Z-axis slide rail 5 in a matching way, so that the Z-axis slide rail 5 can slide transversely on the X-axis slide rail 6, the Z-axis sliding rail 5 is provided with an air cylinder 7, the lower end of the air cylinder 7 is provided with a telescopic suction rod 9 and a pressing block 13, the air cylinder 7 pushes the pressing block 13 to lift, and the lower end of the telescopic suction rod 9 is provided with a magnetizing feeding device 3 and a magnetizing device 4.

The magnetizing feeding device 3 comprises: a transverse sliding rail cylinder 31 and a longitudinal sliding rail cylinder 38, wherein a transverse cylinder slider 32 capable of sliding on the transverse sliding rail cylinder 31 is arranged on the transverse sliding rail cylinder 31, a transversely extending bottom sliding plate 33 is arranged on the transverse cylinder slider 32, a longitudinal cylinder slider 37 capable of sliding longitudinally on the longitudinal sliding rail cylinder 38 is arranged on the longitudinal sliding rail cylinder 38, a connecting backing plate 36 is arranged on the longitudinal sliding rail cylinder 38, an L-shaped feeding plate 35 is fixed on the connecting backing plate 36, a plurality of through clamping grooves 34 are arranged at the other end of the feeding plate 35 and face the feeding port of the magnetizing device 4, the feeding plate 35 is cushioned by the connecting backing plate 36 to be higher than the bottom sliding plate 33, so that the transversely extending bottom sliding plate 33 extends to the lower end of the feeding plate 35 and cushions the bottom surface of the clamping grooves 34 to prevent the raw materials in the clamping grooves 34 from falling, a through hole penetrating through the second worktable 2 is arranged at the right lower end of the clamping grooves 34, the lower end of the second workbench 2 is provided with a material taking device 12.

The dispenser 12 comprises: the jacking plate 121, jacking plate 121 one side is provided with side dress board 123, jacking plate 121 opposite side is provided with the through-hole that runs through, and the through-hole position is corresponding with the position that runs through the through-hole of second workstation 2, all sets up in card silo 34 under, jacking plate 121's opposite side is provided with and blocks silo 34 respectively the corresponding magnet post 124 of shape position, magnet post 124 is connected and is fixed with connecting block 125, and the connecting block 125 lower extreme is provided with pneumatic telescopic cylinder 126, and pneumatic telescopic cylinder 126 installs on side dress board 123.

The magnet post 124 is a steel piece with a magnet embedded thereon.

The bottom sliding plate 33 and the feeding plate 35 are made of non-magnetic metal materials.

The utility model discloses the theory of operation: in the process of magnetizing: the nonmagnetic sheet to be magnetized is matched with the feeding pipe 10 through the vibration feeder 11 for material transmission, then the nonmagnetic sheet is grabbed into the material clamping groove 34 of the magnetizing feeding device 3 through the sliding driving matching of the X-axis slide rail 6 and the Y-axis slide rail 8 through the telescopic suction rod 9, the feeding plate 35 is driven to slide through the matching of the longitudinal cylinder slider 37 and the longitudinal slide rail cylinder 38 after the material clamping groove 34 is completely placed, one end of the feeding plate 35 with the material clamping groove 34 enters the magnetizing device 4, the magnetization is carried out through the magnetizing device 4, the cylinder 7 pushes the pressing block 13 to press the position of the discharge port of the magnetizing device 4 after the magnetization is completed, the upper end of the material clamping groove 34 of the pressing block 13 when the feeding plate 35 is pulled out is ensured, the mutually attracting and popping and adhering together of the material clamping groove 34 after the magnetization are avoided, the feeding plate 35 is pulled out, the pneumatic telescopic cylinder 126 in the material taking device 12 pushes the magnet column 124 upwards after the material is pulled out, simultaneously through the cooperation of horizontal cylinder slider 32 with horizontal slide rail cylinder 31 with end slide 33 pull out for the magnetic sheet in the card silo 34 adsorbs on magnet post 124, accomplishes to gather materials, through processing many times, can pile up into the magnetic sheet post on magnet post 124, and it is more convenient to collect.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (5)

1. The utility model provides an inductance magnetic core adds magnetic device, includes first workstation and second workstation, be provided with the vibration feeder on the first workstation, be connected with the conveying pipe on the vibration feeder, the conveying pipe extends to on the second workstation always, a serial communication port, be provided with X axle slide rail and Y axle slide rail on the second workstation, on Y axle slide rail was installed in the cooperation of X axle slide rail, make X axle slide rail can carry out vertical slip on Y axle slide rail, Z axle slide rail is installed in the cooperation on the X axle slide rail, make Z axle slide rail can carry out lateral sliding on X axle slide rail, install the cylinder on the Z axle slide rail, the cylinder lower extreme is provided with flexible suction bar and briquetting, and the cylinder promotes the briquetting and goes up and down, the lower extreme of flexible suction bar is provided with adds magnetic feeding device and adds magnetic device.

2. The inductance core magnetizing device according to claim 1, wherein the magnetizing and feeding device comprises: a transverse sliding rail cylinder and a longitudinal sliding rail cylinder, wherein a transverse cylinder sliding block capable of sliding on the transverse sliding rail cylinder is arranged on the transverse sliding rail cylinder, a bottom sliding plate which extends transversely is arranged on the transverse cylinder sliding block, a longitudinal cylinder sliding block which can slide longitudinally on the longitudinal slide rail cylinder is arranged on the longitudinal slide rail cylinder, the longitudinal slide rail cylinder is provided with a connecting base plate, an L-shaped feeding plate is fixed on the connecting base plate, the tail end of the other side of the feeding plate is provided with a plurality of material clamping grooves which penetrate through the feeding plate and face the material inlet of the magnetizing device, the feeding plate is cushioned by the connecting backing plate to be higher than the bottom sliding plate, so that the transversely extending bottom sliding plate extends to the lower end of the material feeding plate all the way to cushion the bottom surface of the material clamping groove to prevent the raw materials in the material clamping groove from falling, a through hole penetrating through the second workbench is formed in the lower end of the clamping groove, and a material taking device is arranged at the lower end of the second workbench.

3. The apparatus as claimed in claim 2, wherein the dispenser comprises: the top dress board, top dress board one side is provided with the side dress board, top dress board opposite side is provided with the through-hole that runs through, and the through-hole position is corresponding with the position that runs through the through-hole of second workstation, all sets up under the card silo, the opposite side of top dress board is provided with and blocks the silo respectively the corresponding magnet post of shape position, the magnet columnar connection is fixed with the connecting block, and the connecting block lower extreme is provided with pneumatic telescopic cylinder, and pneumatic telescopic cylinder installs on the side dress board.

4. The apparatus as claimed in claim 3, wherein the magnetic posts are steel members with magnets embedded thereon.

5. The magnetizing device for the inductance core according to claim 2, wherein the bottom sliding plate and the feeding plate are made of non-magnetic metal materials.

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