JP2005335723A - Permanent magnet packing body and permanent magnet packing method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a permanent magnet packing body and a permanent magnet packing method for packing and storing an object to be packed including a magnetized permanent magnet by reducing the leakage of a magnetic field at a required part without increasing the weight. <P>SOLUTION: The permanent magnet packing body comprises the object 2 to be packed including a magnetized permanent magnet, a packing container 1 to pack the object, and a plurality of magnetized packing magnets 3 arranged inside or within the packing container or on the inner wall of the packing container, and includes the packing magnets arranged having magnetizing directions opposite to the magnetic field formed by the object at a part with the packing magnets arranged. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a permanent magnet package and a packaging method.

  In recent years, powerful permanent magnets represented by NdFeB rare earth magnets have been developed. These magnets are used in a head drive device of a hard disk drive, which is a component of a computer, and are used in an MRI, which is a medical diagnostic device. Accordingly, the distribution of magnetized permanent magnets and magnetic circuits incorporating permanent magnets from permanent magnet manufacturers to equipment manufacturers and users is increasing.

  On the other hand, with the development of the information society, a lot of information is written on the magnetic recording medium. For example, magnetic recording technology is used not only for flexible disks but also for items usually worn such as credit cards. These have the disadvantage of being vulnerable to the influence of external magnetic fields. Also, the influence of an external magnetic field is not preferable on a watch or a mobile phone worn by a general person.

A packing object including a magnetized permanent magnet, such as a magnetized permanent magnet and a magnetic circuit (device) incorporating the permanent magnet, always generates a magnetic field. Therefore, there is a problem that the magnetic recording medium is destroyed or the electronic devices are destroyed due to a leakage magnetic field from the packaged object.
JP 2001-10671 A

  Conventionally, in order to reduce the leakage magnetic field, an iron plate has been attached to the inside of the packaging container. The countermeasure against the leakage magnetic field by the iron plate is to reduce the magnetic flux emitted to the outside by guiding the magnetic flux from the magnet into the iron plate and passing it through the iron plate. For this reason, although it is desirable to arrange | position an iron plate in the form surrounding a magnet, there existed a problem that a package became heavy for that reason.

  The leakage magnetic field has directionality due to the arrangement of magnets or magnetic circuits in the package. In other words, there are places where the leakage magnetic field is high and low. However, it is necessary to cover the whole in the countermeasure against the leakage magnetic field by the iron plate, and it is difficult to reduce the magnetic field only in a place where the leakage magnetic field is high. In other words, since there was no directionality, there was no method other than increasing the amount of iron plate that wrapped the whole.

  The present invention provides a packaging body that can be stored without lowering the coercive force for a long period of time without reducing the weight of the leakage magnetic field at a required location in the packaging of a packaging object including a magnetized permanent magnet. Provide packing method.

  Patent Document 1 discloses a packaging container in which a magnet is disposed on a container wall. However, the technique is intended to protect the contents from impact without using a cushioning material, and is not a technique for packing a packing object including a magnetized permanent magnet.

  According to one aspect of the present invention, a packing object including a magnetized permanent magnet, a packing container for packing the packing object, the inside of the packing container, the inside of the packing container, or the inner wall of the packing container A plurality of magnetized packing magnets arranged on the packing, the packing magnets having a magnetization direction opposite to a magnetic field formed by the packing object in a place where the packing magnet is arranged There is provided a permanent magnet package including a working magnet.

  According to another aspect of the present invention, there is provided a method for packing a packing object including a magnetized permanent magnet, wherein the packing object is disposed in a packing container, and a plurality of magnetized packing magnets are packed. Placing in the container, in the packing container or on the inner wall of the packing container, wherein each of the packing magnets has a direction opposite to the magnetic field formed by the packing object in the place where the packing magnet is disposed And a packing method including a step of having a magnetization direction.

  As will be described in detail below, according to the present invention, in packing a packing object including a magnetized permanent magnet, there is no weight burden, and a leakage magnetic field at a necessary location can be reduced.

  Embodiments of the present invention will be described below with reference to the accompanying drawings. However, the embodiments described below do not limit the present invention.

  As described above, according to one aspect of the present invention, there is provided a packing method for a packing object including a magnetized permanent magnet, wherein the packing object is disposed in a packing container, and a plurality of magnetized packings are provided. Placing the packing magnet in the packing container, in the packing container or on the inner wall of the packing container, each of the packing magnets facing away from the magnetic field formed by the packing object at the place where the packing magnet is placed And a method of packaging comprising the steps of:

  A leakage magnetic field is a magnetic field itself generated by a magnetized magnet, and an apparatus using a magnet is an apparatus using a magnetic field generated by a magnetized magnet. Originally, it is only necessary to have a magnetic field only in the area to be used, but in general, the magnetic field extends to areas other than necessary. This is called a leakage magnetic field. At the time of packing, the magnetic field observed outside the packing container is regarded as a problem as a leakage magnetic field.

  Since it is a magnetic field generated by a magnet, it naturally has N and S poles, and the magnetic field has directionality. When there are a plurality of magnets, the leakage magnetic field in the air is a superposition of the leakage magnetic fields from the respective magnets. Therefore, the present invention is a leakage magnetic field of a permanent magnet (hereinafter also referred to as a main magnet) of a packaging object. Are packed so as to be canceled out by the leakage magnetic field from two or more magnets having opposite magnetization directions. Therefore, by arranging the packing magnet at a specific distance from the main magnet so as to have a magnetization direction opposite to the leakage magnetic field in accordance with the direction and position of the leakage magnetic field to be canceled, It is possible to effectively reduce the leakage magnetic field. In addition, as will be described in detail below, the packing magnet can be placed close to the location where the leakage magnetic field of the container is desired to be reduced. It is also possible to use a small magnet, a magnet having equivalent characteristics or a magnet having weak characteristics.

  Here, the packing object including the magnetized permanent magnet is not particularly limited, and includes any one or more magnetized permanent magnets that are packed for transportation, storage or the like. Includes packaging objects. More specifically, the packing object is preferably a magnetized permanent magnet or a magnetic circuit including a magnetized permanent magnet. Although not particularly limited, a magnetic circuit including a magnetized permanent magnet is one in which one or a plurality of magnets are assembled to a frame or shaft made of iron or another material to generate a desired magnetic field. Specifically, it includes the rotor portion of the motor before being combined with the stator. The kind, energy product, shape, size and number of the permanent magnets, and the shape and size of the packing object are not particularly limited, and the present invention is not limited to any permanent magnet and packing object. Can be applied to. The present invention is particularly preferably applied to a packaging object having a large leakage magnetic field. Specifically, the leakage magnetic field at a position 500 mm away from the center (center of gravity) of the packaging object in any direction is preferably It is preferable to apply to the packing object which is 400 A / m or more. The reason may be that there are concerns about the effects of leakage magnetic fields on electronic devices, such as when a person wearing a pacemaker passes near a truck loaded with magnets. The standard of the intensity of the magnetic field that is a concern is 400 A / m, and it is considered that the influence on the electronic equipment outside the vehicle is small if the position is 500 mm or more when mounted on a truck or container.

  Moreover, the packaging container for packaging the packing object is not particularly limited, and any conventionally used packaging container can be used. Specifically, although not particularly limited, examples of the packaging container used in the present invention include non-magnetic materials such as wood, cardboard, and plastic. The size, thickness, shape, etc. of the packaging container may be appropriately selected from the viewpoint of transportation and storage. In particular, the size of the packing container is as follows in detail when the packing object is placed in the packing container and the packing magnet is placed in the packing container, in the packing container or on the inner wall of the packing container. It is preferable that the packing object and the packing magnet have such a size that the distance between the packing object and the packing magnet is preferably 20 mm or more, more preferably 100 mm or more. .

  As for the type of the packing magnet, basically any permanent magnet can be combined as long as it is not demagnetized by the leakage magnetic fields of the main magnet and the packing magnet, and rare earth, alnico, ferrite, etc. can be used. In particular, an NdFeB-based rare earth permanent magnet is preferable because it has a high energy product and a high amount of magnetic flux generated per unit weight, and thus can reduce the packaging weight. The plurality of packing magnets are preferably the same magnet. However, when it is necessary to consider temperature changes during transportation and storage, it is desirable to use a magnet that is the same or moral as the main magnet. Here, morality means that the residual magnetic flux density and the temperature coefficient of coercive force are equivalent. If magnets having very different temperature characteristics are combined, when a change such as a temperature rise occurs, only one of the magnetic fields may be reduced and the cancellation effect may not be obtained. For example, the temperature coefficient of the residual magnetic flux density is about -0.1% / K for Nd magnets, but is -0.03% / K for Sm magnets. Therefore, when the main magnet is an Sm magnet and the packing magnet is an Nd magnet, the magnetic field from the Nd magnet decreases due to temperature rise, and a leakage magnetic field may be observed greatly. Of course, when temperature control is performed during packaging and transportation, any permanent magnet can be combined as described above.

  Here, each of the packing magnets is arranged so as to have a magnetization direction opposite to the magnetic field formed by the packing object at the place where the packing magnet is arranged. In addition, each of the packing magnets has a place where the magnitude of the magnetic field (that is, the leakage magnetic field) formed by the permanent magnet on the outer wall of the packing container shows an extreme value, or the place showing the extreme value and the packing object It is preferable to arrange | position between. A specific example of the method for arranging the packing magnet according to the present invention will be described below. That is, first, an intended packing object including the main magnet is placed in the packing container, and the leakage magnetic field of the main magnet is measured on or near the outer wall of the packing container. Then, in the packing container, in the packing container, or on the inner wall of the packing container, place the direction of magnetization opposite to the leakage magnetic field in a place between the place where the largest leakage magnetic field is observed and the packing object. It is preferable to arrange packing magnets. Note that, on the basis of the object of the present invention, when the leakage magnetic field of the main magnet is measured in the vicinity on the outer wall of the packaging container, the place where the largest leakage magnetic field is observed on the outer wall of the packaging container and the packaging purpose It is considered that the place between the objects substantially coincides with the place where the magnitude of the magnetic field formed by the permanent magnet on the outer wall of the packaging container shows the maximum value.

  Here, the present invention preferably uses two or more packing magnets. This is because a single packing magnet is not sufficient to cancel the leakage magnetic field, and the leakage magnetic field in the entire container may not be reduced. That is, in addition to the place where the largest leakage magnetic field is measured, the packing magnet can be arranged at a place where the magnitude of the leakage magnetic field shows an extreme value. In addition, when there are a plurality of places showing extreme values, it is preferable to preferentially arrange the packing magnet in a place where the leakage magnetic field is larger. Also, one or more packing magnets can be placed at each location. By arranging a plurality of packing magnets in one place, it is possible to finely adjust the magnitude of the leakage magnetic field.

  The packing magnet is preferably fixed away from the main magnet by 20 mm or more, more preferably 100 mm or more. Furthermore, if the packing magnet is disposed so as to be in contact with the inner wall of the packing container, it can be stably packed and transported. This is because if the packing magnet is too close to the main magnet, it may be difficult to stably fix the packing object due to the repulsive force between the magnetic fields of the main magnet and the packing magnet.

  The size of the packing magnet is appropriately selected according to the size of the leakage magnetic field to be reduced, that is, the size of the leakage magnetic field formed by the target main magnet, and the size of the leakage magnetic field to be reduced. . For example, if the packing magnet is made of the same material as the main magnet, it is generally preferable to select a packing magnet that is at most 1/4 of the size of the main magnet, and the volume ratio of the main magnet is 1/10. More preferably, a packing magnet having a size of ~ 1/20 is selected. The reason is that the smaller the packing magnet, the easier the fine adjustment. Furthermore, if the packing magnet is too large, the magnetic field and the attractive force of the main magnet cannot be ignored, and it may be difficult to remove the main magnet. If the packing magnet is made of a material different from the main magnet, the flux amount generated by the packing magnet is evaluated, and the flux amount is preferably set to 1/4 to 1/20 in terms of the ratio of the main magnet to the flux. . The reason is that the smaller one is easier to fine-tune. For the evaluation of the flux amount, magnetic field analysis may be used, or a commercially available flux meter and coil may be used. As described above, in the present invention, the packing magnet can be disposed close to the location where the leakage magnetic field of the container is desired to be reduced, and therefore the packing magnet used for reducing the leakage magnetic field to the target size. The magnet may be of minimal weight. The shape of the packing magnet is not particularly limited, and an arbitrary shape can be used.

  The packing magnet is preferably arranged so as to sandwich the packing object (that is, the main magnet). The leakage magnetic field is generated from the N pole of the main magnet and returns to the S pole. In general, since the N pole and S pole of the magnet are arranged symmetrically, it is preferable to arrange a plurality (preferably an even number) of packing magnets so as to sandwich the main magnet, and the magnetization of the plurality of packing magnets. It is preferable to arrange them in the same direction. Here, arranging the packing magnet so as to sandwich the main magnet includes arranging the magnet so as to sandwich the main magnet across a space, and means that the main magnet is arranged on a line connecting the packaging magnets. .

  Here, the fixing method of the packing magnet is not particularly limited, and any method can be used. Specifically, the packing magnet can be fixed to the inner wall or the like of the packing container with an adhesive or screws. The packing magnet can also be embedded inside the wall of the packing container. In addition, as will be described later, when packing material such as foamed resin is packed between the packing object and the packing container, an opening for putting the packing magnet in the packing material is provided, and the packing magnet It is also possible to fix the packing magnet by inserting the into the opening.

  In addition, this invention can also be used in combination with the magnetic field countermeasures which use magnetic bodies, such as the conventional iron plate, for the side surface or inner surface of a packaging container. In addition, when packing, a packing material made of foamed resin such as polystyrene foam or urethane foam can be provided between the packing object and the packing container so that the packing object does not move. It is preferable to stabilize the product.

  Embodiments of the present invention will be described below with reference to the accompanying drawings. However, the embodiments described below do not limit the present invention.

A magnetized NdFeB rare earth magnet having a size of 100 × 100 × 80 mm, magnetized in the direction of a side of 80 mm, and an energy product of 340 kJ / m ³ was used as a main magnet. The magnet was packed in the center of a 400 mm square wooden box container. In particular, when no countermeasure against leakage magnetic field was taken, the magnitude of the leakage magnetic field was 693 A / m at a location 500 mm away from the center of the main magnet in the magnetization direction of the magnet (comparative example). However, in consideration of the influence on electronic devices, the magnitude of the leakage magnetic field should be 400 A / m or less.

In FIG. 1, the typical top view of the permanent magnet package concerning a present Example is shown. As an example, the inner wall of the packaging container 1 is a magnetized NdFeB magnet on each of the surfaces facing the magnetic poles of the main magnet 2, and has a size of 40 × 40 × 10 mm and has a side of 10 mm. Permanent magnets magnetized in the direction and having an energy product of 300 kJ / m ³ were used as packing magnets 3 and arranged in such a way that three of them were affixed to the inner wall of the container symmetrically with respect to the main magnet. In the figure, the magnetization direction of each magnet is indicated by an arrow. When measured in the same manner as in the comparative example, the magnitude of the leakage magnetic field at the measurement position A 500 mm away could be reduced to 370 A / m. Thus, according to the present invention, the leakage magnetic field can be greatly reduced without greatly increasing the weight.

The typical top view of the permanent magnet package concerning a present Example is shown.

Explanation of symbols

1: Packing container 2: Main magnet 3: Packing magnet

Claims (5)

A packing object including a magnetized permanent magnet; and
A packing container for packing the packing object;
A plurality of magnetized packing magnets disposed in the packing container, in the packing container or on the inner wall of the packing container, wherein the packing object is formed at the place where the packing magnet is disposed. A permanent magnet package comprising: a packing magnet arranged to have a magnetization direction opposite to a magnetic field.   Each of the packing magnets is disposed on the outer wall of the packing container where the magnitude of the magnetic field formed by the permanent magnet shows an extreme value, or between the place showing the extreme value and the packing object. The package according to claim 1.   The packing body according to claim 1 or 2, wherein the plurality of packing magnets are arranged so as to sandwich the packing object.   The package according to any one of claims 1 to 3, wherein the packing object is a magnetized permanent magnet or a magnetic circuit including a magnetized permanent magnet. A packing method of a packing object including a magnetized permanent magnet,
Disposing the packing object in a packing container and disposing a plurality of magnetized packing magnets in the packing container, in the packing container or on the inner wall of the packing container, each of the packing magnets being And a step of arranging so as to have a magnetization direction opposite to a magnetic field formed by the packing object at a place where the packing magnet is arranged.

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