CN210452275U - Parallel driving multi-mode magnetic grinding machine - Google Patents

Abstract

The utility model belongs to the technical field of grinding device, concretely relates to parallel drive multi-mode magnetic force grinds machine. The device comprises a unit framework, a rotary variable magnetic field group, a plurality of grinding containers, a conveying device and a control system. The application provides a parallel drive multi-mode magnetic grinder, both can carry out the abrasive machining of middle-size and small-size work piece under the mode of single line operation, also can carry out the abrasive machining of ultra-large-size work piece under the mode of multi-thread operation, still can carry out the fixed point abrasive machining that needs special polishing process under the fixed point operation mode. Compared with the prior art, the method has the technical advantages of strong applicability, abundant grinding force, rich process modes and the like.

Description

Parallel driving multi-mode magnetic grinding machine

Technical Field

The utility model belongs to the technical field of grinding device, concretely relates to parallel drive multi-mode magnetic force grinds machine.

Background

The magnetic grinding machine is a mechanical device which utilizes a rotary variable magnetic field to drive a magnetic needle to generate multi-dimensional rotation, vibration and jumping motion so as to remove burrs on the surface of a workpiece or inside a hole groove or precisely polish the surface of the workpiece. The prior art has the following technical problems: first, the magnetic field cannot adapt to process variations. In different applications, due to different materials or application environments of workpieces, adopted grinding processes and required magnetic field characteristics are different, and the actual application requirements cannot be met obviously by using uniform process parameters. Secondly, the method cannot adapt to the change of the specification of the workpiece. The existing equipment can finish grinding processing of various small and medium-sized workpieces, but when processing large-sized workpieces, the equipment is limited to grinding force and grinding space, and the process requirements can be met by other types of grinding equipment.

SUMMERY OF THE UTILITY MODEL

In view of this, the present application provides a parallel driving multi-mode magnetic grinder to solve the technical problems in the prior art.

The utility model discloses a solve its technical problem and the solution that provides does:

a parallel driving multi-mode magnetic grinder, characterized in that the parallel driving multi-mode magnetic grinder comprises:

a unit architecture;

the rotary variable magnetic field group comprises a plurality of rotary variable magnetic field lines, each rotary variable magnetic field line comprises a plurality of rotary variable magnetic field generating devices, each rotary variable magnetic field generating device comprises a rotary variable motor and a magnetic disc, and the magnetic discs can form a rotary variable magnetic field under the action of the rotary variable motor;

the grinding containers are internally provided with magnetic needles and grinding fluid and used for accommodating and grinding workpieces to be processed;

the conveying device is used for driving the grinding container to move on the rotary variable magnetic field group so that the magnetic needle can generate grinding motion under the action of the magnetic force of the rotary variable magnetic field group;

the control system is used for realizing a system control function, starting or stopping any one of the rotating magnetic field generating devices at a fixed point, or starting or stopping any one of the rotating magnetic field lines by a fixed line;

the rotary variable magnetic field set, the grinding container, the conveying device and the control system are all arranged on the machine set framework.

As a preferred option of the parallel-drive multi-mode magnetic grinder of the present application, the unit architecture includes a rotational-change grinding channel and a magnetic field generating device installation chamber, the magnetic field generating device installation chamber includes a plurality of magnetic field generating device installation positions, the rotational-change magnetic field generating device is installed on the magnetic field generating device installation positions, and the rotational-change magnetic field generating device can form a rotational-change magnetic field in the rotational-change grinding channel.

As a preference of the present application for the parallel-driving multi-mode magnetic grinder, the conveying means includes a conveying member and a conveying driving means; the transmission component is arranged at the upper part of the rotary variable magnetic field group and can generate transmission motion under the action of the transmission driving device.

As a preferred choice of the parallel driving multi-mode magnetic grinder of the present application, the transmission driving device comprises a transmission motor and a reducer used in cooperation with the transmission motor.

As a preference of the present application for the parallel drive multi-mode magnetic grinder, the conveying means is a conveyor chain or a conveyor belt.

As a preference of the present application of the parallel drive multi-mode magnetic grinder, the grinding container is hinged on the conveying member and can move with the conveying member at a constant speed.

As a preference for the parallel drive multi-mode magnetic mill of the present application, the length of the grinding vessel is between 500mm and 2500 mm. Further preferably, the length of the grinding vessel is 1500 mm.

Compared with the prior art, the application has the beneficial technical effects that:

the application provides a parallel drive multi-mode magnetic grinder, both can carry out the abrasive machining of middle-size and small-size work piece under the mode of single line operation, also can carry out the abrasive machining of ultra-large-size work piece under the mode of multi-thread operation, still can carry out the fixed point abrasive machining that needs special polishing process under the fixed point operation mode. Compared with the prior art, the grinding method has the advantages of strong applicability, abundant grinding force and rich process modes.

The technical solution and technical effects of the present invention will be clearly and completely described below with reference to the accompanying drawings and the detailed description.

Drawings

FIG. 1: a perspective plan view of the present parallel drive multi-mode magnetic grinder;

FIG. 2: the application discloses a perspective view of a parallel-driven multi-mode magnetic grinder;

and (3) identification and explanation:

10-unit architecture, 20-rotating magnetic field set, 30-grinding container and 40-conveying device;

110-a rotary-variable grinding channel, 120-a magnetic field generating device installation chamber and 130-a magnetic field generating device installation position;

210-a rotational magnetic line, 220-a rotational magnetic field generating device, 230-a rotational motor and 240-a magnetic disc;

410-a transport part, 420-a transport drive;

4210-transmission motor, 4220-speed reducer.

Detailed Description

Referring to fig. 1 and 2, the present application provides a parallel-driving multi-mode magnetic grinder, which includes a machine set structure 10, a rotating magnetic field set 20, a plurality of grinding containers 30, a conveyor 40, and an electric control system.

Assembly framework 10 is a steel member used to mount or carry a rotating field assembly 20, a plurality of grinding vessels 30, a conveyor 40, and other components such as an electronic control system. The assembly framework 10 includes a rotating grinding channel 110 and a magnetic field generating device installation chamber 120, the magnetic field generating device installation chamber 120 includes a plurality of magnetic field generating device installation positions 130, and the magnetic field generating device installation positions 130 are used for installing a rotating magnetic field generating device 220.

The rotating magnetic field group 20 comprises two rotating magnetic field lines 210, each rotating magnetic field line 210 comprises a plurality of rotating magnetic field generating devices 220, and each rotating magnetic field generating device 220 comprises a rotating motor 230 and a magnetic disc 240; the magnetic disk 240 is fastened on the power output shaft of the rotary transformer 230, the rotary transformer 230 is mounted on the magnetic field generating device mounting position 130, and the magnetic disk 240 can form a rotary magnetic field in the rotary transformer grinding channel 110 under the action of the rotary transformer 230.

The grinding container 30 is a metal container, and a magnetic needle and a grinding fluid are contained in the metal container, and are used for accommodating and grinding a workpiece to be processed, so that a space for grinding the workpiece is provided. The grinding container 30 has a length of 1500 mm.

The transmission device 40 comprises a transmission component 410 and a transmission driving device 420, wherein the transmission component 410 is a transmission chain, and the transmission driving device 420 comprises a transmission motor 4210 and a speed reducer 4220 matched with the transmission motor 4210. The transport component 410 and the transport drive 420 are both disposed on the assembly architecture 10, with the transport component 410 being within the rotating grinding tunnel 110. The grinding container 30 is hinged on the conveying component 410 and can do uniform circular motion along with the conveying component 410. When the grinding container 30 moves in the rotary-change grinding channel 110, the magnetic needle can generate grinding motion under the action of the magnetic force of the rotary-change magnetic field group 20 so as to form the grinding force of the workpiece.

And the control system is used for realizing a system control function, starting or stopping any one of the rotating magnetic field generating devices 220 at a fixed point, or starting or stopping any one of the rotating magnetic field lines 210 in a routing manner. When the single rotary variable magnetic field generating device 220 is started, a fixed-point operation mode is entered, and fixed-point grinding processing requiring a special grinding process can be performed; when one of the rotary variable magnetic field lines 210 is started, the single-line operation mode is entered, and the grinding processing of small and medium-sized workpieces can be carried out; when the plurality of rotating magnetic field lines 210 are simultaneously started, the multi-line operation mode is entered, and the ultra-large workpiece can be ground.

In summary, the parallel-drive multi-mode magnetic grinder provided by the application has the technical advantages of strong applicability, abundant grinding force, rich process modes and the like.

It should be particularly noted that the naming mode of functions and names used in the present application is used for naming various components or parts, such as a rotating transformer motor, a transmission motor and the like, only for distinguishing the components or parts with the same or similar functions, and does not imply that these components or parts have special functions and structures, and should not be construed as limiting the technical solution of the present application.

While the preferred embodiments of the present invention have been illustrated in detail in the accompanying drawings, it should be understood that the scope of the invention includes, but is not limited to, the embodiments described above; the specific structure disclosed in the drawings is a preferred embodiment of the invention; other embodiments can be developed by those skilled in the art on the basis of the above description, and any simple modification or equivalent replacement without departing from the innovative concept of the present invention is covered by the present invention, which belongs to the protection scope of the present invention.

Claims (8)

1. Parallel drive multi-mode magnetic lapping machine, characterized in that, this parallel drive multi-mode magnetic lapping machine includes:

a crew architecture (10);

the rotating magnetic field group (20) comprises a plurality of rotating magnetic field lines (210), each rotating magnetic field line (210) comprises a plurality of rotating magnetic field generating devices (220), each rotating magnetic field generating device (220) comprises a rotating motor (230) and a magnetic disc (240), and the magnetic discs (240) can form rotating magnetic fields under the action of the rotating motors (230);

a plurality of grinding containers (30) which are internally provided with magnetic needles and grinding fluid and used for accommodating and grinding workpieces to be processed;

the conveying device (40) is used for driving the grinding container (30) to move on the rotary variable magnetic field set (20) so that the magnetic needle can generate grinding movement under the action of the magnetic force of the rotary variable magnetic field set (20);

the control system is used for realizing a system control function, starting or stopping any one of the rotating magnetic field generating devices (220) at a fixed point, or starting or stopping any one of the rotating magnetic field lines (210) in a routing manner;

the rotary variable magnetic field set (20), the grinding container (30), the conveying device (40) and the control system are all arranged on the unit framework (10).

2. The parallel drive multi-mode magnetic grinder of claim 1, wherein: the unit framework (10) comprises a rotary-change grinding channel (110) and a magnetic field generating device installation chamber (120), wherein the magnetic field generating device installation chamber (120) comprises a plurality of magnetic field generating device installation positions (130), the rotary-change magnetic field generating device (220) is installed on the magnetic field generating device installation positions (130), and the rotary-change magnetic field generating device (220) can form a rotary-change magnetic field in the rotary-change grinding channel (110).

3. The parallel drive multi-mode magnetic grinder of claim 1, wherein: the conveying device (40) comprises a conveying component (410) and a conveying driving device (420); the transmission component (410) is arranged at the upper part of the rotary variable magnetic field group (20) and can generate transmission motion under the action of the transmission driving device (420).

4. The parallel drive multi-mode magnetic grinder of claim 3, wherein: the transmission driving device (420) comprises a transmission motor (4210) and a speed reducer (4220) matched with the transmission motor.

5. The parallel drive multi-mode magnetic grinder of claim 3, wherein: the conveying component (410) is a conveying chain or a conveying belt.

6. The parallel drive multi-mode magnetic grinder of claim 3, wherein: the grinding container (30) is hinged on the conveying component (410) and can move with the conveying component (410) at a constant speed.

7. A parallel drive multi-mode magnetic grinder as set forth in any one of claims 1 to 6, wherein: the length of the grinding container (30) is between 500mm and 2500 mm.

8. The parallel drive multi-mode magnetic grinder of claim 7, wherein: the grinding container (30) has a length of 1500 mm.

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