KR20190091616A - An Elastic Supporting Device Using Magnetic Force for Automatic Sheet Puncher - Google Patents

Abstract

Disclosed is an elastic supporting device using a magnetic force for an automatic sheet puncher, which comprises: a case member (10) having a hollow portion disposed in a longitudinal direction; a fixing member (50) fixedly disposed in a lower end of the case member (10); a support member (40) protruding from an end at one side of the case member (10) and sliding along the hollow portion; a first magnet (30) disposed at an upper side of the fixing member (50); and a second magnet (20) disposed at a lower side of the support member (40) and generating a repulsive force with an upper surface of the first magnet (30). According to the present invention, a magnet applied with a repulsive force is applied to the elastic supporting device to minimize noise and improve durability.

Description

An Elastic Supporting Device Using Magnetic Force for Automatic Sheet Puncher}

The present invention (Disclsoure) relates to an elastic support device for an automatic starter, in particular by generating an elastic restoring force by using a magnetic force, the elastic support for an automatic starter using a magnetic force to improve durability and reduce noise and foreign matter generation Relates to a device.

This section provides background information related to the present disclosure which is not necessarily prior art.

The automatic punching machine which mass-produces cardboard for boxes cuts cardboard, such as cardboard and cardboard, into a developed view in order to produce various types of boxes. The general punching machine includes an up-down mold and an elastic support device having a developed view shape. The upper and lower molds move in the vertical direction to cut the cardboard, and the elastic support device supports the cardboard and discharges the punched cardboard pieces.

The conventional elastic support device used the spring elastic restoring force. However, in springs using mechanical elastic restoring forces, friction inevitably occurs between springs or other members during repeated compression-restoration processes. Not only does it cause unnecessary noise of repeated friction phenomenon, but also generates polluted particles by friction.

Also, one puncher is provided with a plurality of elastic support devices, and the compression-restoration characteristics of each elastic support device must be kept uniform within a specific range. Conventional elastic support devices using springs may be deformed due to repeated compression-restoration action. In particular, frictional wear can accelerate this deformation.

Therefore, as the compression-restoration is repeated in the punching process, there is a low possibility of durability and deformation due to friction, and a new elastic support device for an automatic punching machine that can reduce noise is required.

The present invention (Disclosure), the durability and the possibility of deformation is low, it is an object of the present invention to provide a new elastic support device for automatic launcher can reduce the noise.

Here, a summary of the present invention is provided, which should not be understood as limiting the scope of the present invention (This section provides a general summary of the disclosure and is not a comprehensive disclosure of its full scope or all of its features).

In order to solve the above problems, the elastic support device for an automatic launcher using a magnetic force according to the present invention, the case member 10 having a hollow portion disposed in the longitudinal direction; A fixing member 50 disposed and fixed to a lower end of the case member 10; A support member 40 protruding from an end portion at one side of the case member 10 and sliding along the hollow portion; A first magnet 30 disposed above the fixing member 50; And a second magnet 20 disposed below the support member 40 and having an upper surface of the first magnet 30 and a repulsive force.

An elastic support apparatus for an automatic launcher using a magnetic force according to an aspect of the present invention is disposed between the first magnet 30 and the second magnet 20, and is composed of at least one magnet. Further provided with a magnet, the lower surface of the intermediate magnet and the first magnet 30 and the repulsive force is generated, the upper surface of the second magnet 20 and the repulsive force is preferably generated.

In the elastic support device for an automatic punching machine using a magnetic force according to an aspect of the present invention, the material of the case member 10 is preferably made of Teflon.

In the elastic support device for an automatic launcher using a magnetic force according to an aspect of the present invention, a material of the first magnet 30 and the second magnet 20 includes iron, cobalt, and nickel. It is preferably composed of a transition metal or a compound thereof.

In the elastic support device for an automatic launcher using a magnetic force according to an aspect of the present invention, the material of the first magnet 30 and the second magnet 20, neodymium, gadolium and dysprosium It is more preferable to comprise a rare earth material or a compound thereof.

According to the present invention, by resilient operation by using the repulsive force of the slide moving magnet, noise is minimized during the punching operation, semi-permanent and foreign matter generation can be prevented without changing the elastic properties.

Figure 1a to Figure 1b is an exploded perspective view showing a first embodiment of the elastic support device for the automatic punching machine according to the present invention,
Figure 2 is an assembled perspective view of a first embodiment of the elastic support device for the automatic launcher using the magnetic force of Figures 1a to 1b,
3 is a graph showing the change characteristics according to the spring restoring force and the repulsive force of the magnet according to the separation length Δh.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to various embodiments of the elastic support device for the automatic punching machine using the magnetic force according to the present invention.

However, the spirit of the present invention is not to be limited by the embodiments described below, the possible embodiments thereof, and those skilled in the art who understand the spirit of the present invention are included within the scope of the same technical idea as the present disclosure. Embodiments may be easily proposed by a method of substitution or modification, but this is also included in the technical spirit of the present invention.

In addition, the terms used below are selected for convenience of description, and therefore, in grasping the technical contents of the present invention, they should be appropriately interpreted as meanings corresponding to the technical idea of the present invention without being limited to the dictionary meanings.

1a to 1b is an exploded perspective view showing a first embodiment of the elastic support device for the automatic launcher using the magnetic force according to the invention, Figure 2 is a first of the elastic support device for the automatic launcher using the magnetic force of Figure 1 Assembly perspective view of the embodiment.

1A to 2, an elastic support apparatus for an automatic launcher using magnetic force according to the present example includes a case member 10, a fixing member 50, a support member 40, and a first magnet 30. ) And the second magnet 20.

The case member 10 has a hollow portion disposed in the longitudinal direction. The fixing member 50 is disposed and fixed to the lower end of the case member 10. The support member 40 is disposed to protrude from the end portion on one side of the case member 10 and slides along the hollow portion. The first magnet 30 is disposed above the fixing member 50, the second magnet 20 is disposed below the support member 40 and configured to generate the upper surface and the repulsive force of the first magnet 30.

The outer circumferential surface of the fixing member 50 is formed with a screw groove 51 of the fixing member 50, and a screw groove is formed on the inner surface of the lower end of the case member 10, and may be fixed by screwing together. The support member 40 may be inserted into and coupled to the upper side from the lower side of the case member 10.

The first magnet 30 and the second magnet 20 are disposed in the hollow portion of the case member 40. Since the first magnet 30 and the second magnet 20 are arranged to generate a repulsive force with each other, the second magnet 20 is always maintained at a certain height on the upper surface of the first magnet (30). The supporting member is disposed on the upper surface of the second magnet 20 in a state in which the second magnet is supported.

In the punching process, a press pressure in the downward direction is applied to the support member 40, and the second magnet 20 slides downward. When the second magnet slides downward, the separation distance Δh from the first magnet 30 is shortened. As Δh becomes short, repulsive force increases between the first magnet 30 and the second magnet 20, and when the press pressure is released, the second magnet 20 rises with the accumulated repulsive force.

In the elastic support device using a spring according to the prior art, the outer peripheral surface of the entire spring is in contact with the inner peripheral surface of the hollow portion and friction. Friction of the outer circumferential surface and the inner circumferential surface of the case member 10 may be worn and deformed, respectively. This friction reduces the restoring force of the spring, and may not normally detach the punched cardboard.

1A to 2, in the elastic support apparatus for an automatic launcher using magnetic force according to the present example, the first magnet 30 and the second magnet 20 are separated, and the second magnet 20 and The outer surface of the support member 40 rubs against the inner surface of the hollow portion and slides back and forth. When the outer circumferential surface of the spring rubs against the inner surface of the hollow portion, the friction area is narrower and is not combined with other structures including the first magnet 30, so that noise generation is significantly reduced.

The spring is a mechanical elastic means due to its shape change. The elastic action resulting from the shape change exhibits elastic properties only within the elastic limits. If the compression (tension) -restoration operation continues, or if such operation continues near the elastic limit, then the restoring capacity may be attenuated or permanently lose the elastic properties. However, the elastic support device for the automatic punching machine using the magnetic force according to the present invention, by using the magnetic force of the permanent magnet, semi-permanent elastic operation is possible.

On the other hand, by adding an intermediate magnet between the first magnet 30 and the second magnet 20, it is possible to further reinforce the magnetic force. Depending on the type of cardboard produced in the punching machine, the compression-restoration elastic properties of the elastic support member 40 should be set differently. In order to change the compression-recovery characteristics of the spring-loaded resilient support, the spring itself must be replaced. Each spring has its own modulus of elasticity, which is a function of the number of revolutions and the thickness of the spring. Therefore, only a spring having a specific diameter can be inserted and used in the hollow portion of the case member 10 whose length and diameter are specified. That is, if the size of the case member 10 is determined, the compression-restore characteristics may be limited to a specific range.

As described above, the first magnet 30 and the second magnet 20 of the elastic support device for the automatic punching machine using the magnetic force according to the present invention are magnetized permanent magnets. Therefore, by using magnets magnetized by different magnetic forces with the same size and shape, various compression-restore characteristics can be realized. In addition, since the same case member 10, the support member 40, and the fixing member 50 can be used, it is very easy to change the compression-restoration characteristics.

The materials of the first magnet 30 and the second magnet 20 may include ferromagnetic materials or mixtures thereof including transition metals or rare earth materials. The transition metal may include iron, cobalt, nickel. Rare earth materials may also include neodymium, gadolium, dysprosium, preferably neodymium.

The case member 10 may be made of a material having heat resistance, chemical resistance, low friction characteristics, and low adhesiveness, and may be preferably composed of Teflon. The inner surface of the hollow part 11 of the case member 10 may generate a very large frictional resistance during the slide movement of the second magnet 20. If the punching operation is repeated continuously, friction heat may accumulate and rise to a high temperature. Therefore, by forming the Jays member 10 from Teflon having heat resistance and low friction characteristics, it is possible to expect further improved durability.

3 is a graph showing the change characteristics according to the spring restoring force and the repulsive force of the magnet according to the separation length Δh.

Referring to FIG. 3, the elastic restoring force of the spring according to Δh is linear, and the repulsive force of the magnet is nonlinear. The spring resilience of the spring is inversely proportional to Δh, and the repulsive force of the magnet is inversely proportional to the square of Δh. Therefore, if the repulsive force of the magnet is used as the restoring force, the nonlinear restoring force can be derived according to the position of Δh.

As described above, the punching machine, the upper and lower molds are moved in the vertical direction to cut the cardboard, the elastic support device supports the cardboard and discharges the punched cardboard pieces. That is, the restoring force of the elastic support device must implement a force suitable to support the cardboard and to push out the cut cardboard. Moreover, the kind of cardboard used changes with the kind of box manufactured. Depending on the type of cardboard, various changes in the compression-restoration force of the elastic support member 40 are required. Therefore, by using non-linear compression-restoration characteristics, such as Fm, rather than linear compression-restoration characteristics, such as Fs, it is possible to secure properties suitable for the production of cardboard for various box products.

10. Case member
20. Second magnet
30. The first magnet
40. Support member
50. Fixing member

Claims (5)

A case member 10 having a hollow portion disposed in the longitudinal direction;
A fixing member 50 disposed and fixed to a lower end of the case member 10;
A support member 40 protruding from an end portion at one side of the case member 10 and sliding along the hollow portion;
A first magnet 30 disposed above the fixing member 50; And
It is disposed below the support member 40, the upper surface of the first magnet 30 and the second magnet 20 is generated repulsive force; elastic support device for an automatic launcher using a magnetic force consisting of. The method according to claim 1,
Further disposed between the first magnet 30 and the second magnet 20, further comprising an intermediate magnet composed of at least one magnet,
The lower surface of the intermediate magnet is the first magnet 30 and the repulsive force is generated, the upper surface of the second magnet 20 and the resilient support device using the magnetic force, characterized in that the repulsive force is generated. The method according to claim 1,
The case member 10 is made of Teflon material (Teflon) characterized in that the elastic support device for automatic launcher using magnetic force. The method according to claim 1,
The material of the first magnet 30 and the second magnet 20 is an elastic support device for an automatic launcher using a magnetic force, characterized in that consisting of a transition metal or a compound containing iron, cobalt and nickel. The method according to claim 1,
The material of the first magnet 30 and the second magnet 20 is neodymium, elastic support for an automatic launcher using magnetic force, characterized in that it is composed of rare earth materials or compounds thereof, including gadolium and dysprosium. Device.

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