CN216538940U - High flux magnetic frame - Google Patents

Abstract

The utility model discloses a high-flux magnetic frame, which comprises a feeding pipe, a magnetic core and a magnetic core, wherein the feeding pipe is composed of an inner sleeve and an outer sleeve which are sleeved in a clearance way, and the middle part of the feeding pipe is provided with a feeding channel; the electromagnetic coil layer is clamped in a gap between the inner sleeve and the outer sleeve; the power supply part is arranged on the outer wall of the feeding pipe and internally provided with a power supply source electrically connected with the electromagnetic coil layer; the connecting frame is arranged on the outer wall of the other side of the feeding pipe opposite to the power supply part; the push-pull part is arranged on the connecting frame and is provided with an operating end and a push-pull end; the magnetic rods are uniformly distributed on the push-pull end of the push-pull part and are driven by the push-pull part to vertically penetrate into the feeding channel from the outer wall of the feeding pipe. The utility model has the advantages that the magnetic particles in the material are easily adsorbed, thereby achieving the purposes of purifying the material and protecting the safe operation of downstream equipment; the purpose of adjusting the magnetic flux according to the material characteristics is achieved, different magnetic force adsorption is adopted for different magnetic particles, various magnetic particles can be adsorbed, and the cleanness of removing the magnetic particles from the material is ensured.

Description

High flux magnetic frame

Technical Field

The utility model relates to the technical field of magnetic force frames, in particular to a high-flux magnetic force frame.

Background

The magnetic grid is also called a magnetic frame and is formed by fixing magnetic rods according to different use requirements and different shapes and sizes through stainless steel plates. The magnetic grating can be arranged at the positions of the feeding hopper, the discharge hole, the conveying pipeline and the like, and when the material flows through the magnetic grating, iron impurities can be firmly adsorbed on the magnetic rod, so that the effects of purifying the material and protecting the safe operation of downstream equipment are realized. The magnetic grating can be used for filtering fine iron impurities carried in powder, particle, liquid and gas materials. The magnetic flux in the existing magnetic frame feeding pipe cannot be changed, so that the magnetic particles can be adsorbed only by one specific material, and the magnetic flux cannot be changed according to the material characteristics when the material is changed (such as material particle thinning), so that the magnetic particles passing through the feeding pipe cannot be well adsorbed, and the magnetic particles removed from the material are relatively unclean.

Disclosure of Invention

The utility model aims to provide a high-flux magnetic frame which can change magnetic flux as required.

In order to achieve the purpose, the utility model can adopt the following technical scheme:

the utility model relates to a high-flux magnetic frame, which comprises:

the feeding pipe is composed of an inner sleeve and an outer sleeve which are sleeved in a clearance way, and the middle part of the feeding pipe is provided with a feeding channel for materials to pass through;

the electromagnetic coil layer is clamped in a gap between the inner sleeve and the outer sleeve;

the power supply part is arranged on the outer wall of the feeding pipe, and a power supply source electrically connected with the electromagnetic coil layer is arranged in the power supply part;

the connecting frame is arranged on the outer wall of the other side of the feeding pipe opposite to the power supply part;

the push-pull part is arranged on the connecting frame and is provided with an operating end and a push-pull end driven by the operating end; and

the magnetic rods are uniformly distributed on the push-pull end of the push-pull part and are driven by the push-pull part to vertically penetrate into the feeding channel from the outer wall of the feeding pipe.

Furthermore, a blanking hopper with a big top and a small bottom is communicated with the feeding port of the feeding pipe.

Furthermore, a mounting plate with a mounting hole is arranged on the discharge port of the feed pipe.

Furthermore, the electromagnetic coil layer is composed of a plurality of electromagnetic coils which are uniformly arranged in a gap between the inner sleeve and the outer sleeve at intervals, and the magnetic rods penetrate through the gap of the electromagnetic coils; each magnetic rod penetrates through the through hole in the feeding pipe and is provided with an annular rubber gasket, and the inner annular surface of the annular rubber gasket is attached to the outer wall of the magnetic rod and used for scraping magnetic particles adsorbed on the magnetic rod.

Furthermore, a power switch and a charging interface for charging the power supply are arranged on the outer wall of the power supply part.

Furthermore, the push-pull part comprises a push rod which is slidably arranged on the connecting frame in a penetrating manner, the push rod is perpendicular to the axis of the feeding channel, a grab handle is coaxially arranged at the end, far away from the feeding pipe, of the push rod, a push plate is fixedly connected to the end, close to the feeding pipe, of the push rod in a perpendicular mode, and the magnetic rods are uniformly distributed on the other side face, opposite to the push rod, of the push plate.

Furthermore, a boosting plate is arranged between the push rod and the push plate, and the push rod is fixedly connected with the center of the push plate through the boosting plate.

Furthermore, be provided with on the link with the push rod axially unanimous guide bar, the one end of guide bar link firmly in on the link, its other end passes perpendicularly the push pedal with the outer wall of inlet pipe links firmly mutually.

Furthermore, the guide rods are two groups and are symmetrically arranged on two sides of the push rod.

The feeding device has the advantages that the inner container is sleeved in the gap in the feeding pipe, and the electromagnetic coil layer controlled by the power supply part is arranged in the gap between the feeding pipe and the inner container, so that a magnetic field capable of adsorbing magnetic particles is generated in the feeding channel at the inner side of the inner container, the magnetic particles in the material are easily adsorbed, and the purposes of purifying the material and protecting the safe operation of downstream equipment are achieved; in addition, be provided with the magnetic force stick that can slide and insert in the feedstock channel on the link of inlet pipe one side, and then change the magnetic flux through changing the length that the magnetic force stick inserted in the feedstock channel, realize adjusting this purpose of magnetic flux according to the material characteristic, ensure to adopt different magnetic force to adsorb different magnetic particles, make various magnetic particles homoenergetic adsorbed, it is clean to ensure that the material gets rid of the magnetic particle, improves the suitability of this magnetic frame.

Drawings

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

Fig. 2 is an isometric view of fig. 1.

FIG. 3 is a schematic cross-sectional view of the feed tube of FIG. 1.

Fig. 4 is a schematic view of the internal structure of the power supply portion in fig. 1.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 and 2, the high flux magnetic frame of the present invention includes a feeding pipe 1, an electromagnetic coil layer 2, a power supply unit 3, a connection frame 4, a push-pull unit 5, and a magnetic rod 6. Wherein, the feeding pipe 1 is composed of an inner sleeve 1.1 and an outer sleeve 1.2 which are sleeved with gaps (as shown in fig. 3), and a feeding channel 7 for passing materials is formed inside the inner sleeve 1.1; the electromagnetic coil layer 2 is clamped in a gap between the inner sleeve 1.1 and the outer sleeve 1.2; the power supply part 3 is arranged on the outer wall of the feeding pipe 1 (namely on the outer wall of the outer sleeve 1.2), and a power supply source 8 (shown in figure 4) electrically connected with the electromagnetic coil layer 2 is arranged in the power supply part; the connecting frame 4 is fixedly arranged on the outer wall of the other side of the feeding pipe 1 opposite to the power supply part 3; the push-pull part 5 is arranged on the connecting frame 4, and the push-pull part 5 is provided with an operating end and a push-pull end driven by the operating end; the magnetic rods 6 are uniformly distributed on the push-pull end of the push-pull part 5 and are driven by the push-pull part 5 to vertically penetrate into the feeding channel 7 from the outer wall of the feeding pipe 1.

Specifically, the feeding pipe 1 is longitudinally arranged, the length of an inner sleeve 1.1 and the length of an outer sleeve 1.2 which form the feeding pipe 1 are consistent, the end parts of the inner sleeve and the outer sleeve are sealed to form an integral structure, and a feeding channel 7 on the inner side of the inner sleeve 1.1 is also a longitudinally communicated channel; in order to facilitate the material to fall into the feeding channel 7, a feeding port (namely an upper port) of the feeding pipe 1 is communicated with a blanking hopper 9 with a big top and a small bottom; for convenient installation, a mounting plate 10 may be further disposed on the discharge port (i.e. the lower port) of the feeding pipe 1, the mounting plate 10 should have a blanking port 11 adapted and communicated with the feeding channel 7, and a plurality of mounting holes 12 for allowing the connecting bolts to easily pass through should be further opened near the outer edge of the mounting plate 10.

The electromagnetic coil layer 2 is composed of a plurality of electromagnetic coils which are uniformly arranged in a gap between the inner sleeve 1.1 and the outer sleeve 1.2 at intervals, all the magnetic rods 6 need to be ensured to pass through the gap of the electromagnetic coil, and the electromagnetic coil layer 2 is electrified by the power supply part 3, so that a magnetic field capable of adsorbing magnetic particles in materials is generated in the feeding channel 7; certainly, for conveniently easily controlling solenoid coil layer 2 to get electricity or lose electricity, still need to set up a switch 13 on the outer wall of power supply portion 3, in addition, still can set up the interface 14 that charges that can easily peg graft the charging wire on the outer wall of power supply portion 3 to in time charge power supply 8.

The push-pull part 5 comprises a push rod 5.1 which is arranged on the connecting frame 4 in a sliding way, the push rod 5.1 is required to be vertical to the axis of the feeding channel 7, a grab handle 5.2 is coaxially arranged at the end of the push rod 5.1 far away from the feeding pipe 1, the end of the push rod 5.1 close to the feeding pipe 1 is vertically and fixedly connected with a push plate 5.3, the grab handle 5.2 is positioned at the outer side of the connecting frame 4, namely the operating end of the push-pull part 5, and the push plate 5.3 is positioned at the outer side of the feeding pipe 1, namely the push-pull end of the push-pull part 5; the magnetic bars 6 should be evenly distributed on the other side surface of the push plate 5.3 opposite to the push rod 5.1. In addition, because the push rod 5.1 and the push plate 5.3 are fixedly connected in a point contact manner, a boosting plate 5.4 can be arranged between the push rod 5.1 and the push plate 5.3, the area of the boosting plate 5.4 is smaller than that of the push plate 5.3 and larger than that of the rod end of the push rod 5.1, and the push rod 5.1 is fixedly connected with the center of the push plate 5.3 through the boosting plate 5.4, so that the contact area between the push rod 5.1 and the push plate 5.3 is increased, and the stability of the push plate 5.3 pushed by the push rod 5.1 is improved. Further, still can set up 5.5 with push rod 5.1 axial unanimity guide bars on link 4, guide bar 5.5 is two sets of, and the symmetry sets up in push rod 5.1 both sides, and the one end of guide bar 5.5 links firmly on link 4, and its other end passes push pedal 5.3 perpendicularly and links firmly mutually with the outer wall of inlet pipe 1 to can further increase the stability of push pedal 5.3 when removing.

Magnetic force stick 6 is the bar-shaped rod-like structure of length unanimity, the equipartition is on push pedal 5.3 another side relative with push rod 5.1, every two adjacent magnetic force sticks 6 all are parallel to each other, insert the length in feedstock channel 7 through changing magnetic force stick 6, can easily change the magnetic flux, thereby realize adjusting this purpose of magnetic flux according to the material characteristic, can adopt different magnetic force to adsorb when guaranteeing to different material clearance magnetic particle, make the magnetic particle homoenergetic of various sizes adsorbed, it is clean to ensure that the material gets rid of the magnetic particle, improve the suitability of this magnetic frame to different materials. In addition, all be provided with annular rubber packing ring 15 on each magnetic rod 6 penetrates the perforation in the inlet pipe 1, the interior anchor ring of annular rubber packing ring 15 laminates with the outer wall of magnetic rod 6 mutually, not only can promote the leakproofness of magnetic rod penetration mouth department, and when outside pull magnetic rod 6, annular rubber packing ring 15 can also scrape the magnetic particle that adsorbs on magnetic rod 6, easily accomplishes the magnetic particle cleaning work after the material passes through.

When the magnetic force frame is used, the high-flux magnetic force frame is only needed to be installed on the feeding end of the blanking channel, then the length of the magnetic force rod 6 inserted into the feeding channel 7 is adjusted according to the size of magnetic particles in the material, so that the magnetic flux is changed, then the power switch 13 is turned on to enable a magnetic field for adsorbing the magnetic particles to be generated in the feeding channel 7, and the material can be poured into the blanking channel 9. After the materials completely pass through the feeding channel 7, the power switch 13 can be turned off, then the magnetic rod 6 is pulled outwards, the magnetic particles scraped by the annular rubber gasket 15 are collected, and the filtering and collecting work of the magnetic impurities in the materials is completed.

Claims (10)

1. A high flux magnetic rack, comprising: comprises that

The feeding pipe is composed of an inner sleeve and an outer sleeve which are sleeved in a clearance way, and the middle part of the feeding pipe is provided with a feeding channel for materials to pass through;

the electromagnetic coil layer is clamped in a gap between the inner sleeve and the outer sleeve;

the power supply part is arranged on the outer wall of the feeding pipe and internally provided with a power supply source electrically connected with the electromagnetic coil layer;

the connecting frame is arranged on the outer wall of the other side of the feeding pipe opposite to the power supply part;

the push-pull part is arranged on the connecting frame and is provided with an operating end and a push-pull end driven by the operating end; and

the magnetic rods are uniformly distributed on the push-pull end of the push-pull part and are driven by the push-pull part to vertically penetrate into the feeding channel from the outer wall of the feeding pipe.

2. The high flux magnetic frame of claim 1, wherein: the feeding port of the feeding pipe is communicated with a blanking hopper with a big top and a small bottom.

3. The high flux magnetic frame of claim 1, wherein: and a mounting plate with a mounting hole is arranged on the discharge port of the feed pipe.

4. The high flux magnetic frame of claim 1, wherein: the electromagnetic coil layer is composed of a plurality of electromagnetic coils which are uniformly arranged in a gap between the inner sleeve and the outer sleeve at intervals, and the magnetic rods penetrate through the gap of the electromagnetic coils.

5. The high flux magnetic frame of claim 4, wherein: each magnetic rod penetrates through the through hole in the feeding pipe and is provided with an annular rubber gasket, and the inner annular surface of the annular rubber gasket is attached to the outer wall of the magnetic rod and used for scraping magnetic particles adsorbed on the magnetic rod.

6. The high flux magnetic frame of claim 1, wherein: and a power switch and a charging interface for charging the power supply are arranged on the outer wall of the power supply part.

7. The high flux magnetic frame of claim 1, wherein: the push-pull part comprises a push rod which is arranged on the connecting frame in a penetrating mode in a sliding mode, the push rod is perpendicular to the axis of the feeding channel, a grab handle is coaxially arranged at the end, far away from the feeding pipe, of the push rod, a push plate is fixedly connected to the end, close to the feeding pipe, of the push rod in a perpendicular mode, and the magnetic rods are evenly distributed on the other side face, opposite to the push rod, of the push plate.

8. The high flux magnetic frame of claim 7, wherein: a boosting plate is arranged between the push rod and the push plate, and the push rod is fixedly connected with the center of the push plate through the boosting plate.

9. The high flux magnetic frame of claim 7, wherein: the connecting frame is provided with a guide rod which is axially consistent with the push rod, one end of the guide rod is fixedly connected to the connecting frame, and the other end of the guide rod vertically penetrates through the push plate and is fixedly connected with the outer wall of the feeding pipe.

10. The high flux magnetic frame of claim 9, wherein: the guide rods are two groups and are symmetrically arranged on two sides of the push rod.

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