CN216353764U - Special pay-off track structure of polishing - Google Patents

Abstract

The utility model discloses a special feeding polishing track structure, which comprises a slide rail and a diluted magnetic block, and is characterized in that: the slide rail is of a linear structure, is hollow along the axial direction, and is matched with the processed diluted magnetic block in the hollow structure; arc-shaped notches for assembling the feeding wheel are symmetrically arranged on two sides of the sliding rail and communicated with the hollow part of the sliding rail; and one side or two sides of the slide rail are provided with bevel ports for mounting grinding wheels, and the bevel ports are communicated with the hollow part of the slide rail. This track collection is polished, the pay-off in an organic whole, and it can realize the pay-off in succession and polish to because simple structure, integration degree are high, therefore its very reliable at the operation in-process, the problem of card material can not appear when the pay-off, polish and pay-off all can be incessantly gone on in succession, and the pay-off is inseparable in coordination with polishing between, makes efficiency promote by a wide margin.

Description

Special pay-off track structure of polishing

Technical Field

The utility model relates to the field of permanent magnet processing equipment, in particular to a special feeding polishing track structure.

Background

The rare earth permanent magnet is generally a permanent magnet made of neodymium iron boron material, and is widely applied to industries such as electronics and machinery due to the advantages of stable magnetism, long decay period, high magnetic strength and the like.

The rare earth permanent magnet finished product is simply a semi-finished product material with a specific required shape which is obtained by cutting and polishing the most original blank, and then the finished product with excellent performance can be prepared by carrying out operations such as electroplating, magnetizing and the like on the semi-finished product material.

Along with the rapid development of electronic products (mobile phones, intelligent watches, tablet computers, intelligent wearable devices and the like) in recent years, the demand for rare earth permanent magnet products is greatly increased, particularly, the demand and the variety of high-precision (small-volume) permanent magnets are remarkably improved, meanwhile, the production diversity and the production efficiency of manufacturers are particularly important, because the release of a plurality of intelligent devices is limited, if the release capacity cannot be followed, the credit and the shipment volume of merchants are seriously influenced.

The rare earth permanent magnets are less in required types and required amount in the last years, no related equipment is used for processing in the field, and no technical reserve is provided, so that after a plurality of manufacturers receive orders, due to various requirements of the manufacturers on the shipment amount, the shipment time and the product characteristics, the rare earth permanent magnets meeting the requirements are difficult to produce in the existing production line; for example, smart phones, tablet computers, smart watches, etc. are developed very rapidly in China, which is a processing factory for a plurality of brands of mobile phones, and different products have different technical requirements on rare earth permanent magnets, wherein the simplest requirement and the most difficult high-speed mass production are technical requirements on chamfering, chamfering and the like of rare earth permanent magnet sheets (columns), which are difficult to process, because rare earth permanent magnets required on such electronic products have a common point of small volume and processing characteristics on small volume, which are difficult and have very high technical requirements, and in addition, no technical reserve in related aspects exists at present, so that in processing, the rare earth permanent magnets are very difficult to work cooperatively by a plurality of devices, feeding tracks of the devices are connected to work, the diversity of the devices causes the reliability to be linearly reduced, and therefore, many manufacturers can only perform manual feeding and polishing, the automation degree is very low, and the work cannot be carried out as scheduled in many times.

For the reasons, it is necessary to design a feeding track capable of integrally integrating feeding and grinding together to improve reliability and efficiency, and simultaneously fill the technical gap in the field.

Disclosure of Invention

The utility model aims to provide a special feeding and polishing track structure, which integrates polishing and feeding, can continuously realize feeding and polishing, is very reliable in the operation process due to simple structure and high integration degree, does not have the problem of material clamping during feeding, can continuously and uninterruptedly perform polishing and feeding, and has close cooperation between feeding and polishing, so that the efficiency is greatly improved.

A special feeding and polishing track structure comprises a slide rail and a diluted magnetic block,

the slide rail is of a linear structure, the slide rail is hollow along the axial direction, and the hollow structure is matched with the diluted magnetic block to be processed;

arc-shaped notches for assembling the feeding wheel are symmetrically arranged on two sides of the sliding rail and communicated with the hollow part of the sliding rail;

and one side or two sides of the slide rail are provided with bevel ports for mounting grinding wheels, and the bevel ports are communicated with the hollow part of the slide rail.

Preferably, every two arc-shaped notches on the sliding rail form a group, and at least one group of arc-shaped notches is arranged on the sliding rail.

Preferably, the bevel connection is provided with at least one bevel connection, and the bevel connection is distributed on one side or two sides of the sliding rail.

Preferably, the slide rail is in a non-closed structure along the axial direction.

Furthermore, the slide rail is provided with a slot along the axial direction.

Further, the slot is located at the top of the sliding rail.

Preferably, a rubber wheel is arranged at the arc-shaped notch and driven by a motor.

Preferably, a grinding wheel is arranged at the bevel opening.

The utility model has the following beneficial effects:

firstly, the sliding rail with a specific structure is arranged, so that rubber wheels can be arranged on two sides of the sliding rail, the purpose is to generate a driving force for the diluted magnetic block, the diluted magnetic block can stably and orderly slide in the sliding rail, meanwhile, a grinding wheel can be arranged, the grinding of corners of the diluted magnetic block is realized, and the whole sliding rail is connected with two sets of equipment, so that the operation process is not blocked and smooth; the structure can ensure that the diluted magnetic block still advances in the grinding process without material blockage, so that the ground material has a smooth surface without edge grinding, and the manufactured product has higher customer acceptance; secondly, the device is efficient and can work uninterruptedly.

Secondly, the application provides technical support for related industries, the problem of technical insufficiency is solved, and a feeding structure is enriched.

Third, this application sets up to non-enclosed construction for at whole operation in-process, can be real-timely see rare magnetic path condition of polishing, the operation condition of rare magnetic path piece on the slide rail and in case take place the putty can be timely find stifled source, in time the investigation problem place.

Fourthly, powerful technical support is provided for automatic implementation.

Drawings

Fig. 1 is a schematic overall structure diagram of the present application.

Fig. 2 is a schematic end view of the present application.

Fig. 3 is a schematic top view of the present application.

FIG. 4 is a schematic diagram of an embodiment of the present application for installing a rubber wheel and a grinding wheel.

Fig. 5 is another schematic end view of the present application.

In the figure, 1, a slide rail; 1-1, arc-shaped notches; 1-2, bevel connection; 1-3, slotting; 2. a thin magnetic block; 3. a rubber wheel; 4. and (5) grinding wheels.

Detailed Description

To make the objects, technical solutions and advantages of the patent examples clearer, the technical solutions in the patent examples are clearly and completely described below with reference to the drawings in the patent examples, and obviously, the described examples are a part of the examples of the patent, but not all examples. All other examples, which can be obtained by a person skilled in the art without inventive step based on the examples in this patent, are within the scope of protection of this patent.

In the description of this patent, it is noted that the terms "around", "above", "below", "left", "right", "front", "back", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the patent and for simplicity in description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the patent.

Referring to fig. 1-5, the present application discloses a special feeding polishing track structure, which mainly functions as a structural member for continuously conveying diluted magnetic blocks 2, and the polishing track mainly comprises a slide rail 1 and diluted magnetic blocks 2; the slide rail 1 is of a linear structure, namely a linear structure, the slide rail 1 is hollow along the axial direction, two ends of the slide rail 1 are communicated to form a tubular structure, the cross section of the hollow structure is matched with the processed diluted magnetic block 2, and the diluted magnetic block 2 can be just placed in the slide rail 1 to slide; arc-shaped notches 1-1 for assembling a feeding wheel are symmetrically arranged on two sides of the sliding rail 1, and the arc-shaped notches 1-1 are communicated with the hollow part of the sliding rail 1; a rubber wheel 3 is arranged at the arc-shaped notch 1-1, the rubber wheel 3 is driven by a motor, the motor drives the rubber wheel 3 to rotate to drive the thin magnetic block 2 to slide in the sliding rail 1, so that the thin magnetic block 2 can continuously slide; in addition, the bevel opening 1-2 (shown in the figure of the application is two sides) for installing the grinding wheel 4 is arranged on one side or two sides of the sliding rail 1, the bevel opening 1-2 is communicated with the hollow part of the sliding rail 1, the grinding wheel 4 is installed at the bevel opening 1-2, the corner of the diluted magnetic block 2 passing through the bevel opening 1-2 is exposed, and the grinding wheel 4 is used for processing and grinding the corner, so that the continuity is good and the effect is very good through field test.

In the application, every two arc-shaped notches 1-1 on the slide rail 1 are in a group, at least one group of arc-shaped notches 1-1 is arranged on the slide rail 1, and different rubber wheels 3 can be arranged correspondingly, so that the driving force generated on the diluted magnetic block 2 is enhanced; in addition, the bevel 1-2 is provided with at least one bevel 1-2, the bevel 1-2 is distributed on one side or two sides of the slide rail 1, the bevel 1-2 can have different bevel surfaces, and the purpose is to expose the side, corner or surface to be processed on the thin magnetic block 2 for processing, therefore, according to the idea of the application, the processing with different characteristics can be realized by adjusting the position and the number of the bevel 1-2 or the angle of the grinding wheel 4, which is very convenient and fully meets diversified market demands.

In the application, considering that the field processing field environment is poor, meanwhile, a production line needs to be stared at by a person in real time, the problems are avoided, and the diluted magnetic blocks 2 are damaged in batches, so that the slide rail 1 is of a non-closed structure along the axial direction, and the specific scheme is that the slide rail 1 is provided with grooves 1-3 along the axial direction, so that the section of the slide rail 1 is similar to a C-shaped structure; and the arrangement of the slots 1-3 on the top of the sliding rail 1 is helpful for technicians to observe, and once problems occur, the problems can be timely discovered; secondly, once the problem of material blockage occurs, the blockage can be conveniently removed from the positions of the slots 1-3, which is very convenient.

This application should cooperate rubber tyer 3 and emery wheel 4 to use when implementing, and this application can set up specification models such as multiple different size, different cavity shape, different length, different quantity bevel connection 1-2, specifically can select to use by on-the-spot actual demand.

The foregoing description is only of the preferred embodiments of this patent and the specific embodiments described above are not limiting of this patent; various modifications and alterations may occur to those skilled in the art without departing from the spirit and scope of this patent, and all such modifications, alterations, and equivalents as fall within the true spirit and scope of this patent are intended to be covered by this patent.

Claims (7)

1. The utility model provides a special pay-off track structure of polishing, includes slide rail (1), diluted magnetic block (2), its characterized in that:

the slide rail (1) is of a linear structure, the slide rail (1) is hollow along the axial direction, the size of the hollow structure is matched with that of the diluted magnetic block (2) to be processed, and the diluted magnetic block (2) can slide on the slide way;

arc-shaped notches (1-1) for assembling a feeding wheel are symmetrically arranged on two sides of the sliding rail (1), and the arc-shaped notches (1-1) are communicated with a hollow part of the sliding rail (1);

one side or two sides of the sliding rail (1) are provided with inclined openings (1-2) for mounting the grinding wheel (4), and the inclined openings (1-2) are communicated with the hollow part of the sliding rail (1);

the sliding rail (1) is of a non-closed structure along the axial direction.

2. The dedicated feed grinding track structure as claimed in claim 1, wherein: every two arc-shaped notches (1-1) on the sliding rail (1) form a group, and at least one group of arc-shaped notches (1-1) are arranged on the sliding rail (1).

3. The dedicated feed grinding track structure as claimed in claim 1, wherein: the number of the inclined openings (1-2) is at least one, and the inclined openings (1-2) are distributed on one side or two sides of the sliding rail (1).

4. The dedicated feed grinding track structure as claimed in claim 1, wherein: the sliding rail (1) is provided with a slot (1-3) along the axial direction.

5. The dedicated feed grinding track structure as claimed in claim 4, wherein: the open groove (1-3) is positioned at the top of the sliding rail (1).

6. The dedicated feed grinding track structure as claimed in any one of claims 1 to 5, wherein: the rubber wheel (3) is arranged at the arc-shaped notch (1-1), and the rubber wheel (3) is driven by a motor.

7. The dedicated feed grinding track structure as claimed in any one of claims 1 to 5, wherein: and a grinding wheel (4) is arranged at the inclined opening (1-2).

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