KR20180102862A - Magnetic vise - Google Patents

Abstract

The present invention relates to a magnetic vise with an improved magnetic force conversion control structure. An objective of the present invention is to provide a magnetic vise with an improved magnetic force conversion control structure, wherein a magnetic direction changing operation relation of the magnetic vise is realized by a power control relation applying a worm wheel, such as a gradual rolling type by a final reduction power unit, to prevent an instantaneous magnetic attraction or repulsive effect necessarily occurring in a magnetic direction changing process so as to prevent an unnecessary operation changing shock, and safely protect a worker from an unnecessary injury, such as an accident of finger fracture or contusion, through prevention of the operation changing shock. To achieve this, according to the present invention, the magnetic vise comprises: a vise body having a plurality of first and second magnetic members arranged in a row fixed and installed on the upper and lower surfaces of a magnetic direction changing operation hole; a magnetic conversion unit received and installed in the magnetic direction changing operation hole; the final reduction power unit formed on one outer surface of the vise body having the magnetic conversion unit to be power-connected to a driving connection shaft of the magnetic conversion unit with a female-male engagement structure; and a power unit fixing block to receive and protect the final reduction power unit, and to provide installation and fixing force.

Description

Magnetic vise improved magnetic conversion control structure {Magnetic vise}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a magnetic vise, and more particularly, to a magnetic vise that controls on / off operation by selective magnetic force conversion using a permanent magnet and stably removes and fixes a workpiece, A magnetic force change control structure for preventing the instantaneous magnetic force repulsion phenomenon caused by the magnetic pole conversion by making the series of magnetic force conversion control relationships for performing the magnetic force conversion control relationship by the gradual deceleration driving transmitting means to which the worm wheel is applied is made progressive, .

Generally, a magnetic vise is a kind of fixing device for a machine tool that firmly clamps a workpiece of a magnetic body so as to prevent the workpiece from flowing or being released during a machining operation. Such a magnetic vise is generally used as an external power source And a manual magnetic vise using a permanent magnet are classified into two types.

Here, the electronic magnetic chuck magnetizes the electronic chuck by selective power control, magnetizes the workpiece to be machined into the magnetized electronic chuck, and performs a machining operation in a firmly fixed state. Thereafter, the machined workpiece To be separated from the electronic chuck.

Alternatively, the passive magnetic chuck may include a permanent magnet installed in the housing and selectively rotating in the forward and reverse directions according to a required working condition to change the magnetic pole direction so that the workpiece is magnetized and demagnetized In particular, as a representative example of such a manual magnetic chuck, a "magnetic holding device for a mechanical tool" having been registered with the Korean Intellectual Property Office as a prior application (utility model registration No. 0366170) has been developed.

On the other hand, a brief description of the configuration of the "magnetic tool holding device for a mechanical tool "

This is because a main core made of permanent magnets and an auxiliary core are arranged in a top and bottom split configuration on the side surface in the housing and the main core is rotated in the forward and reverse directions by the rotation shaft connection, Polarity and - polarity) directions of the input signal.

Therefore, in the prior art registration technique having the above-described constitution, when rotating the main core in the forward and reverse directions for spinning or demagnetizing, the series of control relationships are controlled by a simple manual operation, for example, a lever serving as a sort of lever It is understood that the operation of controlling the magnetization of the magnetic vise is controlled by rotating the rotary shaft by connecting or rotating the rotary shaft by directly using the operator's hand and transmitting the grip force.

However, as described above, the "magnetic retaining device for a mechanical tool" as a line registration technique is a device in which the main core is selectively rotated in the forward and reverse directions and the main core and the auxiliary core are magnetically connected Since the magnetic force is released, a strong magnet pulling and magnetic repulsion phenomenon are inevitably caused at the moment when the connection and disconnection are performed.

However, in spite of the above-mentioned phenomenon, the line registration technique does not provide any means for canceling or preventing the instantaneous magnetic attraction force or the magnetic repulsion phenomenon, And in the course of the demagnetization, it gives a problem of a safety accident in which a hand of a worker is fractured or a bruise is caused by an instantaneous rotation shock due to strong magnetic attraction and magnetic repulsion, and in particular, A problem of a significant reduction in work efficiency, such as the position of the workpiece fixed by the magnetic vise is deformed or deviated due to the impact, is also made to exist.

Accordingly, the present invention has been made to solve the conventional problems of the conventional magnetic vise using permanent magnets.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a magnetic vise that selectively controls ON / OFF of magnetization and demagnetization of a workpiece by a magnetic pole direction (+, -) conversion of a main permanent magnet, For example, by an incremental rolling pivoting method using the longitudinally-reduced power unit so as to prevent instantaneous magnetic force pulling phenomenon or magnetic repulsion phenomenon inevitably occurring in the pole direction changing process, A magnetic vise having an improved magnetic force conversion control structure for safely protecting an operator from a safety accident such as a finger fracture or a contusion, .

It is a further object of the present invention to provide a method and apparatus for controlling an instantaneous magnetic pulling phenomenon or a magnetic repulsion phenomenon occurring in a magnetic pole direction conversion process by intermittent control by a gradual rolling pivot induction system, So as to prevent the deformation or displacement of the workpiece fixed by the magnetic vise and thereby to prevent the machining workpiece from being damaged or damaged by dropping it so as to improve a series of handling and working efficiency, And to provide a magnetic vise having an improved control structure.

In order to achieve the above object, there is provided a magnetic vise having improved magnetic force control structure according to the present invention, comprising:

A vise main body in which a first magnet member and a second magnet member are fixed to the lower surface in a plurality of divided linear array structures;

A magnetic force conversion unit accommodated and installed in the magnetic pole conversion operation hole,

A longitudinally reduced power unit connected to a drive connection shaft of the magnetic force converting unit by a male and female coupling structure on one surface of the vice body provided with the magnetic force converting unit;

And a power unit fixing block for housing and protecting the longitudinally-reduced power unit and for providing an installation fixing force is mounted.

As described above, the magnetic vise improved the magnetic force conversion control structure according to the present invention can be applied to a power control relationship in which a worm wheel is applied, for example, a gradual rolling rotation by a longitudinal reduction power unit In this way, it is possible to prevent a momentary pulling-back phenomenon or a magnetic repulsion phenomenon occurring in the magnetic pole direction conversion process, thereby preventing an unnecessary manipulation change impact occurring in the magnetizing and demagnetizing process of the magnetic vise, Thereby providing an effect of safety enhancement that can safely protect the operator from unnecessary body damage, for example, a safety accident such as a finger fracture or bruise.

Alternatively, the magnetic vise having the improved magnetic force control structure according to the present invention can prevent the workpiece from being deformed or deviated from the position fixed by the magnetic body in accordance with the prevention of the turning impact generated during the magnetizing and demagnetizing operations, Thus, defective or falling damage of the machined workpiece is prevented, and a series of handling and working efficiency is increased, which provides a very useful expected effect.

1 is a perspective view of a magnetic vise improving the magnetic force conversion control structure according to the present invention.
Fig. 2 is a combined state sectional view of a magnetic vise improving the magnetic force conversion control structure according to the present invention
FIG. 3 is a schematic view showing a part of a magnetic vise in which a magnetic force conversion control structure according to the present invention is improved.
Fig. 4 is an operational state diagram of the longitudinally reduced power unit applied to the present invention. Fig.
FIG. 5 is a graph showing a magnetization control state diagram of a magnetic vise improving the magnetic force conversion control structure according to the present invention
FIG. 6 is a diagram illustrating a demagnetizing control state of a magnetic vise improving the magnetic force conversion control structure according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a magnetic vise with improved magnetic force control structure according to the present invention will be described in detail with reference to the accompanying drawings.

Hereinafter, a schematic configuration of the present invention will be described with reference to the accompanying drawings.

This is constituted by the vise body 1, the magnetic pole conversion unit 2, the longitudinally reduced power unit 3, and the power unit fixing block 4.

As shown in FIG. 1, the vise body 1 has an overall outer body structure of a magnetic vise, and has a basic structure for seating and fixing a work to be machined. (1) has a rectangular block shape, and as shown in Fig. 2, a pole exchange operating hole (11) of a cylindrical spatial structure horizontally penetrating the inner center portion is provided, and the pole exchange operating hole And a second magnet member having a block structure divided into a plurality of blocks in the longitudinal direction of the upper surface of the magnetic pole conversion operation hole It is preferable that the magnet members are arranged and formed in a row.

The magnetic pole conversion unit 2 is a means for transmitting the magnetic force to the above-described vise body 1 to thereby stably fix the workpiece. , A rotary guide 21 having a driving coupling shaft 211 protruding from one side thereof is formed in a cylindrical structure having a predetermined length and a rectangular parallelepiped shape is formed on the inner side of the rotary guide 21, The main permanent magnets 22 are fixedly installed in a row in the magnet mounting groove 212 in the form of a block divided into a plurality of blocks, .

The above-described magnetic pole conversion unit 2 is provided on the upper and lower surfaces of the magnet mounting groove 212 as a means for preventing the main permanent magnet 22 installed in the magnet mounting groove 212 from coming off, A pair of symmetrical mounting groove finishing plates 23 and 23 'are further joined.

The longitudinally decelerating power unit 3 transmits the selective reverse rotation power to the above-described magnetic pole conversion unit 2 and is a core of the present invention for selectively controlling the magnetizing and demagnetizing states of the vise body 1. [ 1 or 3, the vertical reduction power unit 3 has a detachment / disassembling identification lever 311 protruded on the front outer side and a worm wheel 312 on the rear end And a pair of lever connection ports 321 are formed on both the left and right sides of the power transmission shaft 31. The power transmission shaft 31 is coupled to the power transmission shaft 31 and horizontally meshed with the upper surface of the worm wheel 312, And a worm drive shaft 32 integrally formed with a symmetrically extending structure. (H is a lever connecting hole)

The power unit fixing block 4 also receives and protects the longitudinally-reduced power unit 3 and stably secures the longitudinally-supported reduction power unit 3 to the vice body 1 1 and 2, the power unit fixing block 4 has a rectangular casing structure, and a predetermined space structure is formed on the inner side thereof. A drive shaft guide hole 42 having a cylindrical shape protruding by a predetermined length is formed on the outer front central surface of the drive shaft guide hole 42, The power limiting stoppers 421 and 421 'are further protruded in a pair of symmetrical configurations spaced apart from each other and horizontally penetrate through the center of the power unit fixing block 4 so that the driving transmission shaft 31 is axially coupled As a structure, a rotation induction hole 43 is formed, Drive shaft exposing holes 44 (44 (44)) for exposing a pair of lever connecting ports (321) and (321 ') provided with a worm drive shaft (32) in a symmetrically extending structure are formed on the upper left and right sides of the power unit mounting block 'May be further formed as a horizontal penetration structure.

Therefore, as for the mutual coupling relation of the magnetic vise improving the magnetic force conversion control structure according to the present invention having the above-described configuration

This is because the magnetic force converting unit 2 is received and coupled in the horizontal insertion structure in the pole exchange operating hole 11 of the vise body 1, So that a predetermined length is exposed to one side of the vise body 1 as shown in Fig.

2, a drive connection hole P provided as a drive transmission shaft 31 is formed on the drive connection shaft 211 exposed to one side of the vise body 1 by a concave-convex coupling structure So that the magnetic force converting unit (2) and the longitudinal reduction power unit (3) are power-connected;

1 to 2, at the installation position of the longitudinally-reduced power unit 3, which is coupled with the magnetic force conversion unit 2 in the power connection structure, the longitudinally-reduced power unit 3 is received and protected And a power unit fixing block 4 is further mounted to achieve a mounting fixing force, thereby realizing a magnetic vise in which the magnetic force conversion control structure according to the present invention is improved.

At this time, when the engaging relationship is established as described above, the detachable star lever 311 formed of the drive transmission shaft 31 of the longitudinal reduction gear unit 3, as shown in Fig. 1 or Fig. 3, In the power unit fixing block 4 is located at the upper side center of the power limiting stoppers 421 and 421 'provided in the drive shaft guide hole 42 and the left and right rotation range of the detachable star lever 311 is locked Structure.

Meanwhile, the magnetic vise having improved magnetic force conversion control structure according to the present invention, which is composed of a series of coupling structures as described above, is mounted on various industrial machine tools, and various kinds of magnetic body workpieces requiring machining are attached to the vice body 1, the control of the magnetizing and demagnetizing control is as follows.

For example, as shown in Fig. 4, when the work to be machined is to be magnetically fixed or demounted selectively to the vise body 1, The worm drive shaft 32 transmits the forward and reverse rotational power of the operation control lever R to the drive transmission shaft 31 through the worm wheel 312 do.

As described above, the forward and reverse rotation power selectively transmitted is suppressed and prevented from the momentary magnetic force pulling or magnetic repulsion due to the coupling structure of the drive transmission shaft 31 and the worm wheel 31. The main permanent magnet 22 Is rotated in the forward and reverse directions.

 In this case, the direction of the polarity (+, -) of the main permanent magnet 22 provided in the rotation guide 21 is changed in the forward direction as shown in FIG. 5 (+, -) direction of the main study magnet 22, and the magnetization state of the main study magnet 22 is made to be in a magnetized state when the first magnet member 12, the second magnet member 13, 6, when the first magnet member 12 and the second magnet member 13 coincide with each other and are vertically connected to each other, a demagnetized state is achieved.

5 or 6, the detachable lever 311 provided on the drive transmission shaft 31 is operated by the power limiting stopper (not shown) provided in the drive shaft guide 42, 421 'to prevent the rotation guide 21 from rotating in a predetermined angle range. In addition, as shown in FIG. 5 or 6, the power limiting stoppers 421 and 421' (Left side or right side) of the detachable star lever 311 hooked to the main body 1 by the naked eye of the operator so that the state of magnetization and demagnetization of the vise body 1 can be confirmed.

1: Vice body 2: magnetic force conversion unit
3: longitudinal reduction power unit 4: power unit fixing block
11: Stimulus conversion operation ball 12: First magnet member
13: second magnet member 21:
22: main permanent magnet 23, 23 ': installation finishing plate
31: drive transmission shaft 32: warm drive shaft
41: power unit receiving portion 42: drive shaft guide
43:

Claims (4)

And the first magnet member 12 is fixedly installed on the upper surface of the pole transforming operation hole 3 in a plurality of linear array structures divided into a plurality of pole transforming operation holes 11 A vise body 1 in which a second magnet member 13 is fixed to a lower surface of the vise body 1 in a plurality of linear array structures and is accommodated in the magnetic pole conversion operation hole 11, And a plurality of main permanent magnets 22 are formed in the magnet mounting grooves 212. The magnet mounting grooves 212 are formed on the inner side surfaces of the rotating guide holes 21, A magnetic vise comprising a magnetic force converting unit (2) fixedly provided with a plurality of divided linear array structures;
The vise body 1 is further provided with a longitudinally reduced power unit 3 which is connected to the drive connection shaft 211 of the magnetic force conversion unit 2 by a concave- and;
And a power unit fixing block (4) for receiving and securing the longitudinally reduced power unit (3) and providing an installation fixing force is further mounted on the installation site of the longitudinally decelerated power unit (3) Magnetic vise.
The method of claim 1, further comprising:
The longitudinal reduction drive unit 3 includes a drive transmission shaft 31 on which a detachment / disassembling identification lever 311 protrudes from a front outer side and a worm wheel 312 is coupled to a rear end of the drive transmission shaft 31;
A worm drive shaft 32 (321 ') provided on the upper surface of the worm wheel (312) of the drive transmission shaft (31) with a horizontal coupling structure and having a pair of lever connection ports (321) Wherein the magnetic force control structure is improved.
The method of claim 1, further comprising:
The power unit fixing block 4 is provided with a power unit accommodating portion 41 on the inner side thereof and a drive shaft guide hole 42 formed on the front central surface thereof in a circular protruding structure, And the power limiting stoppers (421) and (421 ') are further protruded from the lower surface in a pair of symmetrical structures spaced left and right.
The method of claim 1, further comprising:
The power unit fixing block 4 further includes a rotation guide hole 43 for horizontally penetrating the drive transmission shaft 31 at a central portion thereof,
Drive shaft exposing holes 44 (44 (44)) for exposing a pair of lever connecting ports (321) and (321 ') provided with a worm drive shaft (32) in a symmetrically extending structure are formed on both upper left and right sides of the power unit fixing block (4) 'Is further formed as a horizontal through-hole structure.

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