CN218810233U - Magnetic block rotating device for assembling magnetic block - Google Patents

Abstract

The utility model relates to a magnetic path rotary device for assembling magnetic paths, which comprises a plurality of rotary seats arranged on a workbench, wherein a corner of each rotary seat is provided with a hinge hole, the rotary seats are hinged and arranged on the upper side of the workbench through a horizontal rotating shaft, the corner of each rotary seat, which is far away from the horizontal rotating shaft, is provided with an opening magnetic absorption groove, and two sides of each rotary seat, which are close to the horizontal rotating shaft, are also provided with guide inclined planes; the workbench is also provided with vertical guide holes positioned at two sides of each horizontal rotating shaft, ejector rods which can extend upwards out of the workbench and abut against the inclined guide surfaces on the side edges of the rotating seats are arranged in the vertical guide holes, and the rotating seats can be driven to rotate around the horizontal rotating shafts when the ejector rods extend upwards; this application is through with the articulated upside of installing at the workstation of roating seat, sets up the ejector pin in the direction vertical hole that lies in horizontal rotating shaft both sides on the workstation respectively, and an ejector pin can drive the roating seat 90 of upwards overturning when upwards stretching out, can realize the autogiration of magnetic path from this, and simple structure is reliable, and the magnetic path upset operating efficiency is high.

Description

Magnetic block rotating device for assembling magnetic block

Technical Field

The utility model relates to a magnet assembly technique, especially a magnetic path rotary device is used in magnetic path equipment.

Background

With the development of science and technology, magnetic materials have been widely used in the related industries of motors, electro-acoustic, automobiles, electronics, and the like. In the production and processing of electronic products, diaphragms (vibrating diaphragms such as a microphone, an earphone and a loudspeaker) and electroacoustic equipment, magnets required by some equipment are not in conventional shapes such as a rectangle or a circle, and the magnets are combined into a designed shape and a designed size according to the design requirements of the products. The pressing tool for the special-shaped combined magnet further comprises two positioning plates which are arranged on the bottom plate and located between the two sliding blocks, a plurality of magnet assembling grooves are formed in the positioning plates, the opening directions of the magnet assembling grooves face the sliding blocks, a plurality of push rods which correspond to the magnet assembling grooves respectively are arranged on the sliding blocks, and when the sliding blocks slide towards the middle of the positioning plates, the push rods can press the special-shaped magnet blocks in the magnet assembling grooves into the magnet assembling grooves to form a first special-shaped combined magnet; the press-fitting combination of the special-shaped combined magnets can be completed quickly by workers.

In the course of working at the combination magnet, at first need put into the equipment tool with each magnetic path as required, when the direction of magnetic path is unsatisfactory, need overturn the magnetic path earlier with the direction of adjustment magnetic path, lack the professional equipment of rotatory magnetic path among the current magnet equipment, artifical upset is inefficient.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a magnetic path rotary device is used in the equipment of magnetic path for solve the problem that artifical upset magnetic path work efficiency is low among the prior art.

In order to solve the above problems, the present invention provides a magnetic block rotating device for assembling magnetic blocks, including a plurality of rotating seats installed on a workbench, wherein the outer contour of the rotating seat is square and a hinge hole is arranged on one corner, the rotating seat is hinged to the upper side of the workbench through a horizontal rotating shaft, and the horizontal rotating shafts of the rotating seats are arranged in parallel; an opening magnetic absorption groove is formed in the corner, far away from the horizontal rotating shaft, of the rotating seat, and an arc chamfer is formed in the corner, far away from the horizontal rotating shaft, of the rotating seat; two side edges of the rotating seat close to the horizontal rotating shaft are also provided with guide inclined planes; the workbench is also provided with vertical guide holes positioned at two sides of each horizontal rotating shaft, ejector rods capable of upwards extending out of the workbench and abutting against the inclined guide surfaces on the side edges of the rotating seat are installed in the vertical guide holes, and when the ejector rods upwards extend out, the rotating seat can be driven to rotate around the horizontal rotating shafts.

The utility model provides a magnetic path rotary device is used in magnetic path equipment still has following technical characteristic:

furthermore, the opening magnetism suction groove on the rotating seat is provided with an opening facing the upper side and an opening facing the side edge.

Furthermore, two jacking cylinders are respectively installed on two sides of the workbench, and one jacking cylinder is connected with the ejector rod on one side of each rotating seat to drive the ejector rods on the same side of each rotating seat to synchronously jack and lower.

Furthermore, a telescopic rod of the jacking cylinder extends vertically downwards, the bottom end of the telescopic rod is connected with a linkage bottom plate, and linkage rods connected with the ejector rods are mounted on the linkage bottom plate; when the telescopic rod of the jacking cylinder retracts upwards, the linkage bottom plate drives the ejector rods on the same side of the rotating seats to jack synchronously through the linkage rods.

Furthermore, the bottom end of the ejector rod is provided with a transverse groove, and the top end of the linkage rod is provided with a cross rod inserted in the transverse groove.

Furthermore, a linkage pressure spring is arranged between the bottom end of each linkage rod and the linkage bottom plate, and the upper end of the linkage pressure spring is abutted against the bottom end of the linkage rod; the lower end of the linkage pressure spring is abutted against the upper side of the linkage bottom plate.

Furthermore, a vertical sliding groove matched with the linkage rod is further arranged in the workbench.

The utility model discloses following beneficial effect has: set up the hinge hole through a corner at the roating seat, install the roating seat at the upside of workstation through horizontal rotating shaft, set up the ejector pin respectively in the direction vertical hole that lies in horizontal rotating shaft both sides on the workstation, can drive the roating seat 90 of upwards overturning when an ejector pin upwards stretches out, can realize the autogiration of magnetic path from this, simple structure is reliable, and magnetic path upset operating efficiency is high.

Drawings

Fig. 1 is a schematic structural view of a magnetic block rotating device for assembling magnetic blocks according to an embodiment of the present invention;

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

fig. 3 is a schematic view of an internal structure of a magnetic block rotating device for assembling magnetic blocks according to an embodiment of the present invention;

FIG. 4 is a front view of the magnetic block rotating apparatus for assembling magnetic blocks of FIG. 3;

fig. 5 is a schematic view of the working principle of the magnetic block rotating device for assembling the magnetic block according to the embodiment of the present invention.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments. It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict.

In the embodiment of the magnetic block rotating device for assembling magnetic blocks of the present invention as shown in fig. 1 to 5, the magnetic block rotating device for assembling magnetic blocks includes a plurality of rotating bases 20 installed on a worktable 10, the outer contour of the rotating base 20 is square, a hinge hole is formed on one corner, the rotating base 20 is hinged and installed on the upper side of the worktable 10 through a horizontal rotating shaft 201, and the horizontal rotating shafts 201 of the rotating bases 20 are arranged in parallel; the corners of the rotating base 20 far away from the horizontal rotating shaft 201 are provided with open magnetic attraction grooves, and the corners of the rotating base 20 far away from the horizontal rotating shaft 201 are provided with arc chamfers, so that the rotating base 20 can reliably rotate around the horizontal rotating shaft 201; two sides of the rotating base 20 close to the horizontal rotating shaft 201 are also provided with guide inclined planes 22; the workbench 10 is further provided with vertical guide holes 11 located on two sides of each horizontal rotating shaft 201, ejector rods 13 capable of upwards extending out of the workbench 10 and abutting against the inclined guide surfaces 22 on the side edges of the rotating base 10 are installed in the vertical guide holes 11, when the ejector rods 13 upwards extend out, the rotating base 20 can be driven to rotate 90 degrees around the horizontal rotating shafts 201, and therefore the magnetic blocks in the opening magnetic absorption grooves upwards turn 90 degrees along with the rotating base 10.

This application sets up the hinge hole through a corner at the roating seat, installs the roating seat in the upside of workstation through horizontal rotating shaft, sets up the ejector pin in the direction erects hole that lies in horizontal rotating shaft both sides on the workstation respectively, can drive the roating seat 90 that upwards overturns when an ejector pin upwards stretches out, can realize the autogiration of magnetic path from this, and simple structure is reliable, and magnetic path upset operating efficiency is high.

In one embodiment of the present application, it is preferable that the open magnetic attraction grooves on the rotary base 20 are provided with openings facing upward and openings facing sideways, so that the open magnetic attraction grooves still have one side opening facing upward after the rotary base rotates 90 ° around the horizontal rotating shaft 201.

In an embodiment of the present application, preferably, two jacking cylinders 30 are further installed on two sides of the working table 10, respectively, and one jacking cylinder 30 is connected to the jacking rod 13 on one side of each rotating base 20 to drive the jacking rod 13 on the same side of each rotating base 20 to synchronously jack up and lower down; as shown in fig. 1 and 3, the ejector rods 13 on the left side of each rotary base 20 are connected with the jacking cylinder 30 on the right side of the workbench 10; the push rods 13 on the right side of each rotary base 20 are connected with the jacking cylinders 30 on the left side of the workbench 10.

In one embodiment of the present application, preferably, the telescopic rod of the jacking cylinder 30 extends vertically downward and the bottom end is connected with a linkage bottom plate 31, and a linkage rod 32 connected with each ejector rod 13 is installed on the linkage bottom plate 31; when the telescopic rod of the jacking cylinder 30 retracts upwards, the linkage bottom plate 31 moves upwards and drives the ejector rods 13 on the same side of each rotating seat 20 to synchronously lift upwards through each linkage rod 32, so that each rotating seat 20 and the cloth turn over for 90 degrees; in the magnetic block rotating device for assembling the magnetic blocks, the ejector rods 13 on the right side of each rotating seat 20 are synchronously retracted downwards in an initial state, the ejector rods 13 on the left side of each rotating seat 20 are synchronously extended upwards, the magnetic blocks are synchronously filled in the magnetic absorption grooves of the openings of each rotating seat 20 by a feeding manipulator, the magnetic blocks are adsorbed on the rotating seats 20 made of iron materials, the ejector rods 13 on the left side of each rotating seat 20 are controlled by jacking cylinders to be synchronously retracted downwards, the ejector rods 13 on the right side of each rotating seat 20 are controlled by another jacking cylinder to be synchronously extended upwards, so that each rotating seat 20 is synchronously turned over 90 degrees, the magnetic blocks on each rotating seat 20 are turned over along with the rotating seat, and then the magnetic blocks on each rotating seat 20 are synchronously taken out by the feeding manipulator and transferred to the next process; after the magnetic block is taken out, the jacking cylinders control the ejector rods 13 on the right side of each rotating seat 20 to synchronously retract downwards, and then the other jacking cylinder controls the ejector rods 13 on the left side of each rotating seat 20 to synchronously extend upwards, so that each rotating seat is synchronously and reversely turned over and reset, and the next magnetic block turning operation is prepared.

In one embodiment of the present application, preferably, as shown in fig. 4, the bottom end of the top rod 13 is provided with a transverse groove, and the top end of the linkage rod 32 is provided with a cross rod inserted in the transverse groove, so that the linkage rod 32 and the top rod 13 are conveniently and isoreliably connected to drive the top rod 13 to lift.

In an embodiment of the present application, preferably, a linkage compression spring 33 is further disposed between the bottom end of each linkage rod 32 and the linkage bottom plate 31, an upper end of the linkage compression spring 33 abuts against the bottom end of the linkage rod 32, and a lower end of the linkage compression spring 33 abuts against an upper side of the linkage bottom plate 31, so that the linkage bottom plate 31 is elastically connected to each ejector rod 13, and a large impact is prevented from being generated when the ejector rods lift. Preferably, a vertical sliding groove matched with the linkage rod 32 is further formed in the workbench, so that the linkage rod 32 can lift reliably.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications or substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (7)

1. A magnetic block rotating device for assembling magnetic blocks comprises a plurality of rotating seats arranged on a workbench, and is characterized in that the outer contour of each rotating seat is square, a hinge hole is formed in one corner of each rotating seat, each rotating seat is hinged to the upper side of the workbench through a horizontal rotating shaft, and the horizontal rotating shafts of the rotating seats are arranged in parallel; an opening magnetic absorption groove is formed in the corner, far away from the horizontal rotating shaft, of the rotating seat, and an arc chamfer is formed in the corner, far away from the horizontal rotating shaft, of the rotating seat; guide inclined planes are further arranged on two side edges, close to the horizontal rotating shaft, of the rotating seat; the workbench is also provided with vertical guide holes positioned at two sides of each horizontal rotating shaft, ejector rods capable of upwards extending out of the workbench and abutting against the inclined guide surfaces on the side edges of the rotating seat are installed in the vertical guide holes, and when the ejector rods upwards extend out, the rotating seat can be driven to rotate around the horizontal rotating shafts.

2. The magnetic block rotating device for assembling magnetic blocks according to claim 1, characterized in that: the opening magnetism absorption groove on the rotary seat is provided with an opening facing the upper side and an opening facing the side.

3. The magnetic block rotating device for assembling magnetic blocks according to claim 1, characterized in that: two sides of the workbench are respectively provided with two jacking cylinders, and one jacking cylinder is connected with the ejector rod on one side of each rotating seat to drive the ejector rods on the same side of the rotating seats to synchronously jack and lower.

4. The magnetic block rotating device for assembling the magnetic block according to claim 3, characterized in that: the telescopic rod of the jacking cylinder extends vertically downwards, the bottom end of the telescopic rod is connected with a linkage bottom plate, and linkage rods connected with the ejector rods are mounted on the linkage bottom plate; when the telescopic rod of the jacking cylinder retracts upwards, the linkage bottom plate drives the ejector rods on the same side of the rotating seats to jack synchronously through the linkage rods.

5. The magnetic block rotating device for assembling magnetic blocks according to claim 4, characterized in that: the bottom end of the ejector rod is provided with a transverse groove, and the top end of the linkage rod is provided with a transverse rod inserted in the transverse groove.

6. The magnetic block rotating device for assembling magnetic blocks according to claim 4, characterized in that: a linkage pressure spring is arranged between the bottom end of each linkage rod and the linkage bottom plate, and the upper end of the linkage pressure spring is abutted against the bottom end of the linkage rod; the lower end of the linkage pressure spring is abutted against the upper side of the linkage bottom plate.

7. The magnetic block rotating device for assembling magnetic blocks according to claim 4, characterized in that: and a vertical sliding groove matched with the linkage rod is further arranged in the workbench.

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