CN221313777U - Translational magnetic polishing machine - Google Patents

Abstract

The utility model discloses a translational magnetic polishing machine, and relates to the technical field of polishing equipment. The polishing machine comprises a polishing machine body and a movable plate, wherein a placing groove is formed in the upper side of the polishing machine body, a cavity is formed in the polishing machine body, and a polishing box is arranged in the placing groove; the movable plate is in sliding fit with the word in the cavity, the upper side of the movable plate is in rotating fit with a rotating rod, a round magnet corresponding to the polishing box is arranged at the upper end of the rotating rod, a driving motor is arranged in the cavity, and a reciprocating motion assembly is arranged between the driving motor and the movable plate. According to the polishing device, the round magnet can be driven to reciprocate at the bottom of the polishing box through the reciprocating motion assembly, and the stainless steel needle can reciprocate while rotating in the polishing box through the rotating assembly in the reciprocating motion process of the round magnet, so that the regular path motion of the stainless steel needle dragged by the magnetic field force of the round magnet is disturbed, and the polishing efficiency of the stainless steel needle on polished objects is improved.

Description

Translational magnetic polishing machine

Technical Field

The utility model belongs to the field of polishing equipment, and particularly relates to a translational magnetic polishing machine.

Background

The magnetic polishing machine is an instrument which adopts an electromagnet to provide magnetic field force to drag a stainless steel needle grinding material to generate rapid rotary motion, thereby achieving multiple effects of deburring, polishing and cleaning.

Chinese patent publication No. CN209986661U discloses a magnetic polishing machine, including the organism, the bottom of organism is provided with the lower casing that is used for installing inverter motor, and lower casing upper end detachably is provided with the casing, goes up the inside polishing bucket that is provided with of casing and the upper end of polishing bucket stretches out from the organism top, and the top of polishing bucket is provided with the bung, and one side and the polishing bucket of bung are articulated and the opposite side is provided with the actuation piece, and the upper end of going up the casing is provided with the electro-magnet that suits with the actuation piece. Although the magnetic polishing machine improves the safety of equipment, the magnetic polishing machine drives the movable stainless steel needle in the polishing barrel to carry out rotary polishing by using one circle center of the electromagnet, which also leads to incomplete polishing caused by the regularity of the rotation of the stainless steel needle and the rotary centrifugal force, the polishing time is longer, the parts are difficult to be ground and polished rapidly, and the polishing efficiency of the polishing machine is reduced.

The present utility model has been made in view of this.

Disclosure of utility model

The utility model aims to solve the technical problems of overcoming the defects of the prior art, providing a translational magnetic polishing machine and solving the technical problems in the prior art.

In order to solve the technical problems, the utility model adopts the basic conception of the technical scheme that:

A translational magnetic polisher, comprising: the polishing machine comprises a polishing machine body and a movable plate, wherein a placing groove is formed in the upper side of the polishing machine body, a cavity is formed in the polishing machine body, and a polishing box is arranged in the placing groove;

The movable plate is in sliding fit with the character in the cavity, the upper side of the movable plate is in rotating fit with a rotating rod, the upper end of the rotating rod is provided with a round magnet corresponding to the polishing box, the cavity is internally provided with a driving motor, and a reciprocating motion assembly is arranged between the driving motor and the movable plate;

wherein, install rotation subassembly between cavity and the bull stick.

Optionally, the reciprocating motion assembly comprises a cam rotationally matched in the cavity, a connecting block arranged on one side of the movable plate, a movable block arranged on one side of the connecting block, a sliding groove arranged on one side of the movable block, and a sliding block arranged on one side of the cam and slidingly matched in the sliding groove, wherein a transmission assembly is arranged between the driving motor and the cam; the bottom of the cavity is provided with a groove, the driving motor is arranged in the groove, and the transmission assembly comprises a first connecting rod which is in rotary fit in the groove and fixedly connected with the cam, a first bevel gear arranged on the periphery of the first connecting rod, a supporting block arranged in the groove, a second connecting rod which is in rotary fit on the supporting block and fixedly connected with the output end of the driving motor, and a second bevel gear which is arranged at the end part of the second connecting rod and meshed with the first bevel gear; the upper side of the movable plate is provided with a through hole, a bearing is arranged in the through hole, the peripheral side of the rotating rod is positioned at the inner ring of the bearing, and the rotating assembly is positioned between the lower end of the rotating rod and the cavity; the rotating assembly comprises a gear arranged at the lower end of the rotating rod and a toothed plate arranged at the bottom of the cavity and meshed with the gear. The reciprocating motion and rotation of the round magnet can drive the stainless steel needle to rotate in the polishing box and simultaneously carry out reciprocating motion, so that the polishing efficiency of the stainless steel needle on polished objects is improved.

Optionally, a plurality of spouts have been seted up to the cavity bottom, all sliding fit has the slider with fly leaf fixed connection in the plurality of spouts. Through the spout that sets up, make the slider remove in the spout, enable fly leaf through slider reciprocating motion in the cavity to improved the stability that the fly leaf drove circular magnet reciprocating motion in the cavity.

After the technical scheme is adopted, compared with the prior art, the utility model has the following beneficial effects, and of course, any product for implementing the utility model does not necessarily need to achieve all the following advantages at the same time:

Through the reciprocating motion subassembly that sets up, enable driving motor to drive fly leaf reciprocating motion through reciprocating motion subassembly, can drive circular magnet and make reciprocating motion in polishing box bottom to rotate at circular magnet reciprocating motion's in-process through rotating the subassembly, can make stainless steel needle carry out reciprocating motion when polishing the box internal rotation, disturbed the regular path motion that stainless steel needle was dragged by circular magnet's magnetic field force, thereby improved the polishing efficiency of stainless steel needle to the polishing thing.

The following describes the embodiments of the present utility model in further detail with reference to the accompanying drawings.

Drawings

The drawings in the following description are only examples of embodiments from which other drawings may be derived by those skilled in the art without the exercise of inventive faculty. In the drawings:

FIG. 1 is a schematic diagram of a polishing machine;

FIG. 2 is a schematic view of the internal structure of the polishing machine chamber;

FIG. 3 is a schematic diagram of a reciprocating assembly;

FIG. 4 is a schematic diagram of a transmission assembly;

fig. 5 is a schematic view of a rotating assembly.

In the drawings, the list of components represented by the various numbers is as follows:

The polishing machine comprises a polishing machine body 1, a placing groove 2, a polishing box 3, a chamber 4, a circular magnet 5, a rotating rod 6, a movable plate 7, a reciprocating motion assembly 8, a cam 801, a movable block 802, a sliding groove 803, a sliding block 804, a connecting block 805, a bearing 9, a driving motor 10, a groove 11, a movable block 12, a rotating assembly 13, a toothed plate 1301, a gear 1302, a transmission assembly 14, a first connecting rod 1401, a first bevel gear 1402, a second bevel gear 1403, a second connecting rod 1404 and a groove 15.

It should be noted that these drawings and the written description are not intended to limit the scope of the inventive concept in any way, but to illustrate the inventive concept to those skilled in the art by referring to the specific embodiments.

Detailed Description

The utility model will now be described in further detail with reference to the accompanying drawings.

Referring to fig. 1-5, in this embodiment, a translational magnetic polishing machine is provided, including: the polishing machine comprises a polishing machine body 1 and a movable plate 7, wherein a placing groove 2 is formed in the upper side of the polishing machine body 1, a cavity 4 is formed in the polishing machine body 1, a polishing box 3 is arranged in the placing groove 2, a partition plate is arranged between the placing groove 2 and the cavity 4, and the partition plate cannot influence the adsorption magnetic force of a round magnet 5 on stainless steel needles in the polishing box 3;

The movable plate 7 is in sliding fit with the character in the cavity 4, the upper side of the movable plate 7 is in rotating fit with the rotary rod 6, the upper end of the rotary rod 6 is provided with a round magnet 5 corresponding to the polishing box 3, the cavity 4 is internally provided with a driving motor 10, and a reciprocating motion assembly 8 is arranged between the driving motor 10 and the movable plate 7, wherein the driving motor 10 is a variable frequency motor in the prior art;

Wherein a rotating component 13 is arranged between the cavity 4 and the rotating rod 6.

The application of one aspect of the embodiment is: when the polishing device is used, a stainless steel needle and a polished object are placed in the polishing box 3, at the moment, the driving motor 10 is started, the driving motor 10 drives the reciprocating motion assembly 8 to operate, the reciprocating motion assembly 8 operates to drive the movable plate 7 to reciprocate, the movable plate 7 reciprocates to drive the round magnet 5 to reciprocate through the rotating rod 6, the round magnet 5 reciprocates in the cavity 4 and simultaneously drives the round magnet 5 to rotate through the rotating assembly 13, and the stainless steel needle can be driven to reciprocate while rotating in the polishing box 3, so that the polished object in the polishing box 3 is polished. It should be noted that all the electric equipment related in the application can be powered by a storage battery or an external power supply.

Through the reciprocating motion assembly 8 that sets up, can make driving motor 10 drive fly leaf 7 reciprocating motion through reciprocating motion assembly 8, can drive circular magnet 5 and make reciprocating motion in polishing box 3 bottom to rotate through rotating assembly 13 in the process of circular magnet 5 reciprocating motion, can make the stainless steel needle carry out reciprocating motion when polishing box 3 internal rotation, disturbed the stainless steel needle and drag the regular route motion of law route motion that circular magnet 5's magnetic field force draged, thereby improved the polishing efficiency of stainless steel needle to the polishing thing.

Specifically, as shown in fig. 3, the specific structure of the reciprocating motion assembly 8 includes the following: a cam 801 which is rotationally matched in the cavity 4, a connecting block 805 which is arranged on one side of the movable plate 7, a movable block 802 which is arranged on one side of the connecting block 805, a sliding groove 803 which is arranged on one side of the movable block 802, a sliding block 804 which is arranged on one side of the cam 801 and is in sliding fit in the sliding groove 803, and a transmission component 14 is arranged between the driving motor 10 and the cam 801; a groove 15 is formed in the bottom of the cavity 4, and the driving motor 10 is arranged in the groove 15;

The transmission assembly 14 specifically includes the following: as shown in fig. 4, a first connecting rod 1401 which is rotatably fitted in the groove 15 and fixedly connected with the cam 801, a first bevel gear 1402 mounted on the circumferential side of the first connecting rod 1401, a supporting block mounted in the groove 15, a second connecting rod 1404 which is rotatably fitted on the supporting block and fixedly connected with the output end of the driving motor 10, and a second bevel gear 1403 mounted on the end of the second connecting rod 1404 and meshed with the first bevel gear 1402;

The upper side of the movable plate 7 is provided with a through hole, a bearing 9 is arranged in the through hole, the periphery side of the rotating rod 6 is positioned at the inner ring of the bearing 9, and a rotating assembly 13 is positioned between the lower end of the rotating rod 6 and the cavity 4, wherein the bearing 9 fixes the rotating rod 6 on the movable plate 7;

The specific structure of the rotating assembly 13 comprises the following steps: as shown in fig. 5, a gear 1302 is provided at the lower end of the rotating rod 6, and a toothed plate 1301 is provided at the bottom of the chamber 4 and engaged with the gear 1302.

Through the transmission assembly 14, the driving motor 10 can drive the second connecting rod 1404 to rotate, the second connecting rod 1404 rotates to drive the second bevel gear 1403 to rotate, the second bevel gear 1403 rotates to drive the first bevel gear 1402 to rotate, the first bevel gear 1402 rotates to drive the first connecting rod 1401 to rotate, the first connecting rod 1401 rotates to drive the cam 801 to rotate, the cam 801 rotates to drive the sliding block 804 to rotate, the sliding block 804 rotates and extrudes in the sliding groove 803 to drive the movable block 802 to reciprocate, the movable block 802 drives the movable plate 7 to reciprocate through the connecting block 805, and the movable plate 7 reciprocates through the rotating rod 6 to drive the circular magnet 5 to reciprocate;

The round magnet 5 reciprocates in the cavity 4, and the bull stick 6 rotates through the meshing of gear 1302 and pinion plate 1301, and the bull stick 6 rotates at bearing 9 inner circle and drives round magnet 5 rotation, and round magnet 5's reciprocating motion and rotation drive stainless steel needle and carry out reciprocating motion in polishing box 3 internal rotation to the polishing efficiency of stainless steel needle to the polishing thing has been improved.

As shown in fig. 5, a plurality of sliding grooves 803 are formed in the bottom of the chamber 4 in this embodiment, and sliding blocks 804 fixedly connected with the movable plate 7 are slidably fitted in the sliding grooves 803. Through the sliding groove 803, the sliding block 804 moves in the sliding groove 803, so that the movable plate 7 can reciprocate in the cavity 4 through the sliding block 804, and the stability of the movable plate 7 driving the round magnet 5 to reciprocate in the cavity 4 is improved.

The present utility model is not limited to the above embodiments, and any person who can learn the structural changes made under the teaching of the present utility model can fall within the scope of the present utility model if the present utility model has the same or similar technical solutions. The technology, shape, and construction parts of the present utility model, which are not described in detail, are known in the art.

Claims (6)

1. A translational magnetic polisher, comprising:

the polishing machine comprises a polishing machine body (1), wherein a placing groove (2) is formed in the upper side of the polishing machine body (1), a cavity (4) is formed in the polishing machine body (1), and a polishing box (3) is arranged in the placing groove (2);

The movable plate (7), the sliding fit word of the movable plate (7) is in the cavity (4), the upper side of the movable plate (7) is rotatably matched with the rotating rod (6), the upper end of the rotating rod (6) is provided with a round magnet (5) corresponding to the polishing box (3), the cavity (4) is internally provided with a driving motor (10), and a reciprocating motion assembly (8) is arranged between the driving motor (10) and the movable plate (7);

Wherein, a rotating component (13) is arranged between the cavity (4) and the rotating rod (6).

2. A translational magnetic polishing machine according to claim 1, characterized in that the reciprocating motion assembly (8) comprises a cam (801) which is rotationally matched in the chamber (4), a connecting block (805) arranged on one side of the movable plate (7), a movable block (802) arranged on one side of the connecting block (805), a sliding groove (803) arranged on one side of the movable block (802), a sliding block (804) arranged on one side of the cam (801) and slidingly matched in the sliding groove (803), and a transmission assembly (14) is arranged between the driving motor (10) and the cam (801).

3. The translational magnetic polishing machine according to claim 2, wherein the bottom of the chamber (4) is provided with a groove (15), the driving motor (10) is arranged in the groove (15), the transmission assembly (14) comprises a first connecting rod (1401) which is rotationally matched in the groove (15) and fixedly connected with the cam (801), a first bevel gear (1402) arranged on the periphery of the first connecting rod (1401), a supporting block arranged in the groove (15), a second connecting rod (1404) which is rotationally matched on the supporting block and fixedly connected with the output end of the driving motor (10), and a second bevel gear (1403) arranged at the end part of the second connecting rod (1404) and meshed with the first bevel gear (1402).

4. The translational magnetic polishing machine according to claim 1, wherein a through hole is formed in the upper side of the movable plate (7), a bearing (9) is arranged in the through hole, the peripheral side of the rotating rod (6) is positioned at the inner ring of the bearing (9), and the rotating assembly (13) is positioned between the lower end of the rotating rod (6) and the cavity (4).

5. The translational magnetic polisher of claim 4, wherein the rotating assembly (13) comprises a gear (1302) mounted on the lower end of the rotating rod (6), and a toothed plate (1301) mounted on the bottom of the chamber (4) and engaged with the gear (1302).

6. The translational magnetic polishing machine according to claim 1, wherein a plurality of sliding grooves (803) are formed in the bottom of the chamber (4), and sliding blocks (804) fixedly connected with the movable plate (7) are slidably matched in the sliding grooves (803).