CN216612915U - Automatic conveyor in same direction as position of magnetic shoe - Google Patents

Abstract

The utility model discloses a conveyor with magnetic shoes in an automatic alignment mode, and belongs to the technical field of magnetic material production. It includes the conveying unit, the conveying unit includes first conveyer belt, and the ascending both ends of first conveyer belt length direction are fixed to be erect a pair of baffle, the space that forms between baffle, the first conveyer belt is the transportation position of magnetic shoe, still includes the correction unit, correction unit fixed mounting is on at least one baffle, and under the transportation magnetic shoe state, the external motor of correction unit is in vibrations state. The automatic magnetic shoe in-place conveyor can realize the position correction of the magnetic shoes on the first conveying belt, namely the two ends of the magnetic shoes are parallel to the length direction of the conveying belt, so that the magnetic shoes are prevented from deflecting on the first conveying belt to be ground into a parallelogram or block the material conveying openings of the grinding units at the two ends.

Description

Automatic conveyor in same direction as position of magnetic shoe

Technical Field

The utility model belongs to the technical field of magnetic material production, and particularly relates to a conveyor with magnetic shoes automatically in sequence.

Background

The magnetic shoe is a shoe-shaped magnet made of permanent ferrite material, which is often used in industry as one of the core parts for producing permanent magnet motors. The production of the magnetic shoe needs the steps of raw material mixing, molding, sintering, polishing, magnetic flux and the like, and in the molding process, the magnetic shoe needs to be taken out of a mold and concentrated together after being molded, and then is sent into a kiln for sintering, polishing and magnetic flux application to complete the whole process. Wherein, the magnetic shoe has a plurality of surfaces, including extrados, intrados and terminal surface, and current grinding machine still has some problems.

Through retrieval, a combined type magnetic shoe automatic grinding machine is disclosed in a patent application document with the Chinese patent application number of 201020684441.5 and the application publication date of 2011, 12, month and 14. The grinding machine consists of a belt conveyor and a magnetic shoe grinding unit, wherein the magnetic shoe grinding unit is formed by freely combining an inner arc surface rough grinding unit, an outer arc surface rough grinding unit, an inner arc surface fine grinding unit, an outer arc surface fine grinding unit and two end surface grinding units, a first upward turnover spiral slideway is connected between the inner arc surface rough grinding unit and the outer arc surface rough grinding unit, a downward turnover spiral slideway is connected between the outer arc surface rough grinding unit and the inner arc surface fine grinding unit, a second upward turnover spiral slideway is connected between the inner arc surface fine grinding unit and the outer arc surface fine grinding unit, and a feeding direction switching mechanism is connected between the outer arc surface fine grinding unit and the two end surface grinding units. The two end face grinding units of the grinding machine comprise a transverse vertical clamping and feeding mechanism and two end face grinding devices which are sequentially arranged from front to back, the front end of a second belt conveyor is connected with a feeding direction switching mechanism, and the rear end of the second belt conveyor is connected with the transverse vertical clamping and feeding mechanism. However, when the two end face grinding device grinds the two end faces of the magnetic shoe, the position of the magnetic shoe needs to be corrected and cannot be deviated, otherwise, the magnetic shoe is ground into a parallelogram and is scrapped.

The Chinese patent application number is 201020178310.X, and the application publication date is 11.24.2010, and discloses a broken belt catching device of a belt conveyor. The device is provided with a triangular frame, and an inclined adjusting support is fixedly connected to the frame; the adjusting support is fixedly connected with an anti-deflection roller parallel to the support on a connecting plate extending towards one side; the upper end and the lower end of the adjusting support are respectively provided with a brake shoe capable of swinging by 90 degrees and a belt pressing cam mechanism capable of overturning, the brake shoe and the belt pressing cam mechanism are respectively arranged on the upper side and the lower side of a belt and are parallel to the upper belt of the belt to form an inclined wedge type broken belt catching device, and the broken belt catching device of the belt conveyor can prevent the belt from deviating and catching more firmly and can prevent the belt from being worn. The device is the deviation of avoiding the belt off tracking mode in order to avoid the magnetic shoe, however, under the normal condition in belt position, because the width of magnetic shoe slightly is less than the width of belt, so under normal transfer rate, the magnetic shoe can unavoidably have the deviation, when the deviation of small amplitude can lead to the magnetic shoe to get into both ends face grinding unit, is the parallelogram by the grinding, by a wide margin the deviation can lead to both ends face grinding unit's feed inlet to block up, the magnetic shoe can't get into the grinding machine.

Therefore, there is a need for a conveyor with automatic alignment of magnetic shoes that corrects the position of the magnetic shoes as they enter the two end face grinding unit.

Disclosure of Invention

1. Problems to be solved

The utility model provides a conveyor with magnetic shoes in an automatic sequential position, and aims to solve the problem that the existing magnetic shoes are easy to deflect on the conveyor.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

The utility model provides an automatic conveyor in same direction as position of magnetic shoe, includes the conveying unit, the conveying unit includes first conveyer belt, and the both ends on the first conveyer belt length direction are fixed to erect a pair of baffle, the baffle is fixed in the conveyer frame to the first conveyer belt setting of baffle contact, it is a pair of the space that forms between baffle, the first conveyer belt is the transportation position of magnetic shoe, still includes the correction unit, correction unit fixed mounting is on at least one baffle, under the transportation magnetic shoe state, and the external motor of correction unit is in the shock condition. When the magnetic shoe deflects and contacts the side face of the baffle, the correction unit vibrates to drive the baffle to vibrate and return the magnetic shoe to a state that two ends of the magnetic shoe are parallel to the first conveying belt.

As a further explanation of the utility model, the correction unit is a high frequency vibrator and is a small motor.

As a further explanation of the present invention, the present invention further comprises a both-end grinding unit, and the first conveyor belt transports the magnetic shoe into the both-end grinding unit and grinds both end surfaces thereof.

As a further description of the present invention, the two-end grinding unit includes a grinding wheel set and a second conveyor belt, and the grinding wheel set includes a pair of grinding wheels respectively fixedly disposed at two ends of the second conveyor belt.

As a further description of the present invention, the two-end grinding unit further includes an electrical cabinet, and the electrical cabinet is electrically connected to the grinding wheel set and the calibration unit, and controls rotation of the grinding wheel set and vibration of the calibration unit at the same time.

As a further explanation of the present invention, the electrical cabinet further electrically connects the first conveyor belt and the second conveyor belt.

As a further illustration of the present invention, the conveying speed of the first conveyor belt is greater than the conveying speed of the second conveyor belt, so as to make the magnetic tiles on the second conveyor belt closely arranged and avoid the deviation of the magnetic tiles on the second conveyor belt.

As a further illustration of the utility model, the correction unit is fixedly mounted to the bottom of at least one baffle.

3. Advantageous effects

Compared with the prior art, the utility model has the beneficial effects that:

the automatic magnetic shoe in-place conveyor can realize the position correction of the magnetic shoes on the first conveying belt, namely the two ends of the magnetic shoes are parallel to the length direction of the conveying belt, so that the magnetic shoes are prevented from deflecting on the first conveying belt to be ground into a parallelogram or block the material conveying openings of the grinding units at the two ends.

Drawings

FIG. 1 is a first structural schematic view of the conveyor with the magnetic shoe automatically in-place according to the present invention;

FIG. 2 is an enlarged view of a portion of area A of FIG. 1;

FIG. 3 is a schematic structural view of a conveyor with magnetic shoes in automatic alignment according to the present invention;

in the figure:

100. a conveying unit; 110. a first conveyor belt; 120. a baffle plate; 200. a correction unit; 300. a both-end grinding unit; 310. a grinding wheel set; 320. a second conveyor belt; 330. an electrical cabinet.

Detailed Description

The utility model is described in detail below with reference to the figures and specific embodiments.

Example 1

The conveyor with the magnetic shoe automatic in-sequence of the embodiment, as shown in fig. 1 to fig. 3, includes a conveying unit 100 and a correcting unit 200, the conveying unit 100 includes a first conveying belt 110, a pair of baffles 120 are fixed to two ends of the first conveying belt 110 in the length direction, the baffles 120 are fixed to a frame of the conveyor, the baffles 120 are disposed in contact with the first conveying belt, and a space formed between the pair of baffles 120 and the first conveying belt 110 is a conveying position of the magnetic shoe; the calibration unit 200 is fixedly installed on at least one baffle 120, and when the magnetic tiles are transported, the calibration unit 200 is externally connected with a motor and is in a vibration state. When the magnetic shoe deflects and contacts the side of the baffle 120, the calibration unit 200 vibrates to drive the baffle 120 to vibrate and to vibrate the magnetic shoe back to a state where both ends are parallel to the first conveyor belt 110.

The calibration unit 200 is a small-sized high frequency vibrator and is fixed to the baffle 120 for easy installation, and the high frequency vibrator is fixed to the bottom surface of the baffle 120 in an actual production process for easy installation, and at the same time, the calibration of the magnetic shoe can be realized by only installing the high frequency vibrator on one baffle 120.

In particular, the automatic magnetic shoe aligning conveyor of the present embodiment is particularly important for the conveyor of the two-end grinding unit 300. This is because the two-end grinding units 300 grind both end faces of the magnetic shoe in the longitudinal direction, but when the position of the magnetic shoe deviates even in a small amount, the magnetic shoe is ground into a parallelogram, and when the magnetic shoe deviates in a large amount, the feed port of the two-end grinding units 300 is blocked, and the work cannot be continued.

Specifically, the two-end grinding unit 300 includes a grinding wheel set 310, a second conveyor belt 320 and an electrical cabinet 330, the grinding wheel set 310 includes a pair of grinding wheels respectively fixed at two ends of the second conveyor belt 320, and a feeding port of the second conveyor belt 320 is connected to a discharging port of the first conveyor belt 110; the electrical cabinet 330 is electrically connected to the grinding wheel set 310 and the second conveyor 320, and is used for controlling the rotation of the grinding wheel set 310 and the transmission of the second conveyor 320, respectively. In order to avoid the too long vibration time of the calibration unit 200, only the calibration unit 200 needs to vibrate when the grinding units 300 at two ends work, so the calibration unit 200 is electrically connected to the electrical cabinet 330, and certainly the first conveyor belt 110 can also be electrically connected to the electrical cabinet 330, so that the first conveyor belt 110, the calibration unit 200, the grinding wheel set 310 and the second conveyor belt 320 can work simultaneously.

In order to avoid the deviation of the magnetic shoes on the second conveyor belt 320, the magnetic shoes are arranged to be adjacent to the second conveyor belt 320 that is positioned above the first conveyor belt 110 as long as the conveying speed of the first conveyor belt 110 is higher than the conveying speed of the second conveyor belt 320.

The present invention is not limited to the embodiment of the present invention, and the structure and the implementation of the present invention are described by applying specific examples, and the above description of the embodiment is only used to help understand the core idea of the present invention. It should be noted that, for those skilled in the art, it is possible to make various improvements and modifications to the present invention without departing from the principle of the present invention, and those improvements and modifications also fall within the scope of the claims of the present invention.

Claims (8)

1. The utility model provides an automatic conveyor in same direction as position of magnetic shoe, includes conveying unit (100), conveying unit (100) include first conveyer belt (110), and the both ends on the first conveyer belt (110) length direction are fixed to be set up a pair of baffle (120), the space that forms between baffle (120), first conveyer belt (110) is the transportation position of magnetic shoe, its characterized in that: still include correction unit (200), correction unit (200) fixed mounting is on at least one baffle (120), and under the transportation magnetic shoe state, correction unit (200) external motor and be in vibrations state.

2. A conveyor with automatic magnetic shoe alignment as claimed in claim 1, wherein: the correction unit (200) is a high frequency vibrator.

3. A conveyor with automatic magnetic shoe alignment as claimed in claim 1 or 2, wherein: the magnetic shoe grinding machine further comprises a two-end grinding unit (300), wherein the magnetic shoe is conveyed into the two-end grinding unit (300) by the first conveying belt (110), and two end faces of the magnetic shoe are ground.

4. A conveyor with automatic magnetic shoe alignment as claimed in claim 3 wherein: the two-end grinding unit (300) comprises a grinding wheel set (310) and a second conveying belt (320), wherein the grinding wheel set (310) comprises a pair of grinding wheels which are respectively and fixedly arranged at two ends of the second conveying belt (320).

5. The conveyor with the automatic magnetic shoe alignment function as claimed in claim 4, wherein: the two-end grinding unit (300) further comprises an electric cabinet (330), wherein the electric cabinet (330) is respectively electrically connected with the grinding wheel set (310) and the correcting unit (200), and simultaneously controls the rotation of the grinding wheel set (310) and the vibration of the correcting unit (200).

6. The conveyor with the automatic magnetic shoe alignment function as claimed in claim 5, wherein: the electrical cabinet (330) also electrically connects the first conveyor belt (110) and the second conveyor belt (320).

7. The conveyor with the automatic magnetic shoe alignment function as claimed in claim 6, wherein: the conveying speed of the first conveyor belt (110) is greater than the conveying speed of the second conveyor belt (320).

8. A conveyor with automatic magnetic shoe alignment as claimed in claim 1, wherein: the correction unit (200) is fixedly arranged at the bottom of at least one baffle (120).

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