KR200191030Y1 - A magnetic lift - Google Patents

Abstract

The present invention relates to a magnetic lift, and more specifically, to provide a magnetic lift to increase the adhesive force by varying the polarity of the main body constituting the magnetic lift and the permanent magnet installed in the rotating body inserted into the main body and rotating. I want to.

That is, the present invention incorporates a rotary body 4 inside the main body 2 to be operated by the permanent magnets 3 and 5 so that the magnetic force of the lift is lost or restored when the rotary body 4 rotates. In the configuration, the main body 2 is divided into four parts, and they are welded to the lower side and both sides with nonmagnetic materials 2a and 2b, and the permanent magnets 3 are fixed to the upper both sides with adhesive to generate opposite polarities. The rotor 4 is welded by placing a nonmagnetic material 4c at an intermediate portion of the rotating rod 4a in which the insertion hole 4b is provided so as to insert the permanent magnet 5 therein. Into the permanent magnet (5) to be operated in association with the permanent magnet (3) fixed to the main body (2), the front and rear of the rotating body (4) to support the rotating body (4) The shafts 9 and 10 are made of a non-magnetic material, and the bolts 11 are coupled to the rotating body 4 so as to be attached by multipolarized magnetic force. It will allow one to be attached.

Description

Magnetic lift {A magnetic lift}

The present invention relates to a magnetic lift, and more specifically, to provide a magnetic lift that can enhance the adhesive force by varying the polarity of the permanent magnet installed in the main body of the magnetic lift and the rotating body inserted into the rotating body. It is.

In the conventional magnetic lift, a removable body is installed in a main body where a lower side is divided by a nonferrous metal and an upper side is divided by a permanent magnet so that magnetic force can be blocked or generated on the lower surface of the main body according to the rotation of the rotating body. This structure is designed to remove and transport the steel structure, which allows the N and S poles to be simply generated on the lower surface of the main body. When meeting, magnetic force is formed and when it is opposite polarity, it is configured to lose the magnetic force. It is difficult to bond the heavy object because the output magnetic force is generated only N and S poles and the adhesive force is weak. There was a problem that the city was suffering from industrial accidents due to its weak magnetic force.

Therefore, the present invention has been made to solve the conventional problems as described above, the multi-polarized magnetic force to be generated on the lower surface of the main body to be able to more effectively attach the attachment to be transported, the main body of the present invention The technical problem of the present invention is to provide a lift that generates a multipolarized magnetic force by dividing the quadrant into two parts and dividing the rotating body installed into the main body by non-ferrous metal so that the opposite polarity occurs. The invention is complete.

1 is an exploded perspective view showing an embodiment of the present invention

2 is a perspective view of the rotating body of the present invention

3 is an operating lever operating state of the present invention

4 is a bottom view of the present invention

5 is a cross-sectional view showing the operating state of the permanent magnet constituting the subject innovation

5A is a state in which magnetic force is applied

5b is a state in which the magnetic force is blocked

Explanation of symbols used in main part of drawing

1: magnetic lift 2: body

2a, 2b, 4c: nonmagnetic material 3,5: permanent magnet

4: rotating body 4a: rotating rod

4b: internal hole 6: nonmagnetic material

7: attachment plate 8: fixing means

9,10: shaft 9a: recessed groove

11 bolt 12 operating table

13: pin 14: attachment

Hereinafter, the present invention will be described based on the accompanying drawings.

1 is an exploded perspective view showing an embodiment of the present invention, Figure 2 is a perspective view of the excerpt of the rotating body of the present invention, Figure 3 shows an operating state of the operating lever of the present invention.

The magnetic lift 1 of the present invention is installed in the main body 2, which is bisected by the permanent magnet 3, by installing the rotor 4 in which the permanent magnet 5 is interposed therein, thereby rotating the rotor 4. The magnetic structure can be lost or generated, and the basic configuration is the same as that of a conventional magnetic lift.

In the present invention, in the main body 2, the main body 2 is divided into four parts, and these are welded to the lower side and both sides by nonmagnetic materials 2a and 2b, and the permanent magnets 3 on the upper both sides have opposite polarities. A non-magnetic material 6 capable of blocking the magnetic force is placed on the upper side of the main body 2, and then an attachment plate 7 having a ring 7a formed thereon is fixed to the fixing means 8 such as a bolt. It is an attached structure.

In addition, the rotor 4 is welded by placing a nonmagnetic material 4c at an intermediate portion of the rotating rod 4a in which the insertion hole 4b is provided so that the permanent magnet 5 can be inserted therein. There is a permanent magnet (5) in the fixed by the adhesive, but the permanent magnet (5) is to be formed opposite polarity to each other. Front and rear of the rotor 4 is provided with a shaft (9, 10) made of a non-magnetic material to support the rotor 4 to be coupled to the bolt 11 to the rotor 4 and to one side shaft ( 9) the concave groove (9a) is provided so that the operating table 12 that can rotate the rotating body (4) is coupled to the pin (13).

Permanent magnets (3,5) of the present invention can be made of the above configuration can be used as a permanent magnet of a relatively large size, but in some cases may be used a number of small permanent magnets.

In the figure, reference numeral 15 is a stopper for limiting the operating range of the operating table 12, 16 is an inlet hole into which the rotor 4 is embedded, 17 is a rotor bearing support bearing 18, 18 Shows a cover.

The present invention that can be configured as described above can be used as a magnetic lift to move the attachment 14 made of steel structures or metals mainly in industrial sites, such as the ring (7a) and the motor provided on the top of the present invention By connecting the rope between the crane (not shown) that can be driven so that the magnetic lift (1) of the present invention can be made and the magnetic force of the present invention by the operation of the operating table 12 to generate or block the attachment (14) As I let you detach it,

That is, when using the present invention to move the attachment 14, such as steel structures to a predetermined place, as shown in Figure 5a the operating table 12 is coupled to the front of the rotor 4 to one side Rotating the N, S pole of the permanent magnet (3) installed on the main body (2) and the N, S pole of the permanent magnet (5) installed on the rotating body (4) coincide to generate a magnetic force (14) to be attached.

At this time, since the bottom of the main body 2 of the present invention is divided into quadrants by the nonmagnetic materials 2a and 2b, the poles of the magnetic force transmitted through the permanent magnets 3 and 5 are formed to be multipolar as shown in FIG. The adhesion is improved to be able to strongly attach the attachment (14).

After the attachment 14 is moved to the position to be moved, the operating table 12 is rotated in the opposite direction to the above, and the N and S poles of the permanent magnet 3 installed in the main body 2 are rotated. N, S poles of the permanent magnet (5) installed in the whole (4) meets the opposite polarity as shown in Figure 5b to lose the magnetic force attached to the lower body (2) 14 ) Will fall off the body (2).

The present invention as described above divides the main body (2) and the rotating body (4) not only in the left and right sides, but also in the front and rear to multiply the magnetic poles of the permanent magnets (3,5) so that a stronger magnetic force can be transmitted to the attachment (14). The attachment 14 can be strongly attached.

As described in detail above, the present invention increases the magnetic force of the magnetic lift 1 by diversifying the magnetic poles of the permanent magnets 3 and 5 in a relatively simple configuration so that the attachment 14 can be more firmly attached. The attachment 14 can also be easily attached and attached to the attachment 14 to prevent industrial accidents that can occur due to weak magnetic forces during movement. It is a very useful design that guarantees profits.

Claims (1)

Incorporating the rotor 4 inside the main body 2 to be operated by the permanent magnets (3, 5) to configure the magnetic lift (1) to lose or restore the magnetic force of the lift during rotation of the rotor (4) In The main body 2 is divided into four parts and they are welded to the lower side and both sides with nonmagnetic materials 2a and 2b, and the permanent magnets 3 are fixed to the upper both sides with adhesive so as to generate opposite polarities. The rotating body 4 is welded by placing a non-magnetic material 4c in the middle portion of the rotating rod 4a in which the insertion hole 4b is provided so as to insert the permanent magnet 5 therein. Insert a permanent magnet (5) to operate in conjunction with the permanent magnet (3) fixed to the main body (2), Front and rear of the rotor 4 is characterized in that the shaft (9, 10) is provided with a non-magnetic material so as to support the rotor 4 to be coupled to the bolt 11 to the rotor 4 Magnetic lift.