KR100191425B1 - Display board - Google Patents

Abstract

[purpose]

By providing a magnetic pole having a mesh shape on the surface of the display panel, when the magnet is adsorbed, the display panel can be smoothly moved along the magnetic pole and can be moved at regular intervals in either vertical or horizontal direction.

[Configuration]

A thin magnetic body is laminated on the surface of the substrate 1. Two side magnet magnetized sheets 6 and 7, each of which are multipolar, are laminated in a direction in which a band-shaped magnetic pole is orthogonal to each other, and a mesh-shaped magnetic pole is formed on the surface of the magnetic body and then laminated on the surface of the magnetic body. The display panel was integrated by integrating the frame 5.

Description

Indicator

The present invention relates to a display panel capable of sliding the display magnet sheet adsorbed on the surface by using a sheet-shaped magnet on the surface material, and sliding or parallel movement at regular intervals, and is not limited to the panel board type. The partitions used in exhibitions and exhibitions can also be used as display panels.

Conventionally, as a display board which can use a magnet, there is a white board or a green board which covered a pearl board with a white or green decorative film. In order to use the board made of iron plate as a destination sign or action schedule of the employee, if a lot of magnet sheets for display including names, destinations, etc. are written in parallel and adsorbed, as shown in Fig. 5, the attachment positions of the magnetic sheets are easily shifted. Difficult to align properly For this reason, it was necessary to draw a ruled line on the surface of the board in advance or to use a guide tool such as an alignment worker in order to firmly adhere the display magnet sheet.

In addition, as the display panel which can align the magnetic sheet without ruled lines or guides, as shown in FIG. 6, a sheet-shaped magnet of multipolar magnetization is used as the surface material of the display panel, and a magnet having the same pitch as the sheet-shaped magnet for the surface material is displayed. Some are intended to be used as magnets for dragons. When the display magnet sheet is pressed in the longitudinal direction of the strip-shaped magnetic pole (in the direction of the arrow shown in FIG. 6), the S and N poles of the magnetic sheet are aligned with the N and S poles of the surface material and adsorbed along the longitudinal direction of the magnetic pole. You can slide it on the rails. When the magnet sheet is pressed against the adsorption force in the longitudinal direction orthogonal to the magnetic pole, it repels when it faces the copper pole and is adsorbed when it faces the pole again. That is, the display panel can adjust the suction position along the magnetic pole for each multiple of the magnetizing pitch, and can move the magnet sheet in parallel with the correct dimensions.

As described above, the display panel using sheet-shaped magnets multi-pole bonded to the surface material is easier to move or adjust the display magnet sheet than the white board type display panel. However, in the case of the display panel shown in FIG. 6, the horizontal direction soft to the band-shaped magnetic pole can move smoothly without a guide line. However, the distance t between the two magnetic sheets a and b can be determined automatically based on eye estimation. none.

Further, in the direction orthogonal to the longitudinal direction of the band-shaped magnetic pole, accurate parallel movement is possible for each multiple of the magnetizing pitch, but smooth sliding in the horizontal direction and the like cannot be performed. That is, in the conventional display panel, the direction in which the display magnet sheet can be slid or the direction capable of parallel movement at a predetermined interval is limited to either horizontal or vertical.

In the case of using the display panel with horizontal direction of the magnetic poles, even if the distance t of two magnetic sheets parallel to the horizontal direction is set correctly, the distance t of the magnetic poles is not set so that the length of the magnetic poles is vertically changed by changing the display panel to 90 °. The exact position could not be set automatically. Therefore, it is impossible to align the magnet sheets adsorbed on the display panel while sliding in the vertical or horizontal directions or parallelly moving vertically and horizontally at regular dimensions.

The display panel according to the present invention can slide a sheet-shaped magnet without resistance as if sliding on a rail in either the horizontal direction or the vertical direction, and also constant in both the horizontal and vertical directions for applications requiring precision of spacing adjustment. It is to obtain a display panel that can be moved in parallel at intervals.

In order to achieve the above object, the present invention provides one or two magnets as a surface material for forming a magnetic pole on the surface, and stacks the magnets on a substrate through a thin magnetic body, and forms a sheet-shaped magnet and a magnetic body. And a display panel in which a substrate is integrated to provide a display panel having a magnetic pole on the surface thereof.

In the case of a single magnet, the magnet is formed on the surface of the sheet-shaped magnet by magnetizing the first pole multi-pole and secondarily magnetizing the band-shaped magnetic pole formed by the primary magnet with a magnetic force lower than the first in the orthogonal direction. The sheet-shaped magnet is laminated on the substrate through a thin magnetic body, and the sheet-shaped magnet, the magnetic body and the substrate are integrated to form a display panel.

In the case of two magnets, two sheets of magnets in the form of multi-polarized magnets are stacked in a direction orthogonal to their magnetic poles to form a magnetic pole on the surface, and the magnetic poles are stacked on the substrate through a magnetic material. And the magnetic body and the substrate are integrated to form a display panel.

1 is a partial partial perspective view showing a first embodiment of a display panel according to the present invention.

2 is a partial exploded perspective view showing the first embodiment.

3 is a diagram illustrating a state of use of the display panel according to the present invention.

FIG. 4 shows the state of the detection stimulus when the stimulus detection film is abutted on the upper and lower ends of the display panel having a mesh-shaped jig, (a) is a plan view of the original dimension, and (b) is a partially enlarged view.

5 is an explanatory diagram showing a conventional display panel.

6 is an explanatory diagram showing a conventional display panel.

* Explanation of symbols for main parts of the drawings

1: organ 2: iron plate

3,6,7: Sheet-shaped magnet (mesh-shaped magnetic pole) 4: Decorative film

5: frame

The present invention is a surface material that forms a magnetic pole in the form of a mesh on the surface, one or two magnets are installed, the magnets are laminated on the substrate through a thin magnetic material, the sheet-shaped magnet, magnetic material and the substrate is integrated into the display panel In this configuration, a display panel having a mesh-like magnetic pole on its surface is provided.

When there is one sheet-shaped magnet to be used as the surface material, the sheet-shaped magnet is formed with a magnetic pole in the form of a net by two multipolar magnets in the first and second periods. After the first magnetization, the second magnetizer is made to have a lower magnetic force than the first one, and the magnetism of the band-shaped magnetic pole formed by the primary magnetizer and the band-shaped magnetic pole by the secondary magnetizer is magnetized in the orthogonal direction. In other words, the first and second magnets are magnetized in a lattice shape. However, the part where the same pole overlaps becomes N pole or S pole as it is, but the part where the other pole overlaps does not change all of the overlapping part by reverse magnetization to reverse polarity and remains as the polarity of the primary magnet. At this time, the eastern part becomes dominant, and the polar part is eroded to the overlapping part, and as shown in (a) (b) of FIG. There is a number.

In the case of using two sheet magnets as the surface material, when the N-S poles are stacked in a direction perpendicular to each other in the direction in which the band-shaped poles are orthogonal to each other, the surface is not lattice-shaped, but the mesh shape is as described above. Can form a stimulus.

The top surface of the sheet-shaped magnet can be coated with a decorative film so thick that the magnetic force is not impaired by coating or integrally bonding the decorative film. Magnetizing pitches of the sheet-shaped magnets are easy to use 2.0 mm and 2.5 mm, but not limited to 1 to 10 mm or more. The magnet sheet adsorbed on the display panel uses a magnetized pitch that corresponds to a sheet-shaped magnet used as a surface material, so that a smooth action according to the magnetic pole can be obtained.

In addition, the output voltage varies depending on the conditions such as the magnetizing device and the magnet thickness, and is not limited to a constant value. The board | substrate can also use a board body, plywood, corrugated board, etc. not only in the synthetic resin foam material. The magnetic body interposed between the substrate and the sheet-shaped magnets can be brought into close contact with each other when the sheet-shaped magnets are laminated, and the adsorption force can be enhanced by the yoke effect. As a magnetic material, a thin iron plate or a very thin iron foil is often used, but the same effect can be obtained by using another magnetic material.

The means for integrating the substrate, the magnetic body and the sheet-shaped magnet is not selected. The frame frame may be supported, or any position may be fixed by an adhesive or a fastener on the laminated side, or a frame, a support of a partition, or a scale member of a wall may be used.

In the magnetic pole of the display panel according to the present invention, as shown in the original dimensions and enlarged views of (a) and (b) of FIG. 4, the N and S poles are arranged in a mesh shape. As shown in FIG. 3, the sliding magnet (a) having a mesh-like stimulus on a display panel having a mesh-like stimulus repeats repulsion and adsorption every multiple of the magnetizing pitch even if it slides in both longitudinal and lateral directions. It can be precisely parallelized at regular intervals (see arrows a, b, c in FIG. 3). At this time, even if the stimulus width is thin, the repulsive action appears, so all the adsorption action with the close stimulus is active, so the sheet does not fall during the repulsion and can be moved in parallel at regular intervals like the hepatic movement.

In addition, as shown in Fig. 3, when a band-shaped multipolar magnetized magnet b is used as the display magnet, it can slide smoothly in the longitudinal direction of the magnetic pole. Therefore, it is possible to slide in any of the longitudinal or transverse directions of the display panel only by changing the movement of the display magnet b by 90 degrees. When the display magnets (b) of the multipolar magnets are adsorbed on a display panel having a network magnetic pole, the narrower portions of the magnetic poles shown in FIG. 4 (b) correspond to the copper poles. Because of its low magnetic flux density, it can be slid so that almost no repulsive force can be felt in operation.

Example 1

1 is a partial partial perspective view showing a first embodiment of the present invention. (1) is a substrate made of a synthetic resin foam, (2) is a thin iron plate laminated on the upper surface of the substrate (1) to support the surface uniformly and evenly, and to exhibit a yoke effect. (3) is an anisotropic sheet-shaped magnet, which has a net magnetic pole.

In the present embodiment, a method of forming a network stimulus will be described. First, when the first magnetization is performed with a pitch of 2.5mm and an output voltage of 400V, the strip-shaped N pole and S pole are multi-pole magnetized in parallel with each other. Next, secondary magnetization is performed with a pitch of 2.5mm and an output voltage of 200V. At this time, when the band-shaped magnetic pole formed by the first magnetization and the second-shaped magnetic pole-shaped magnetic pole are magnetized orthogonally, the overlapping portions of the same poles remain unchanged as the N pole or the S pole, and the overlapping portions of the pole poles are secondary. All of the overlapping parts by the magnetization do not change to reverse polarity and the primary magnetization remains. For this reason, the portion of the same pole prevails and becomes eroded to the portion where the two poles overlap, and as shown in Fig. 4 (a) and (b), a net magnetic pole is displayed. This sheet-shaped magnet 3 is absorbed over the entire surface of the thin iron plate 2.

(4) is a decorative film integrally adhered to the surface side of the sheet-shaped magnet 3, and may be thick enough to not inhibit the adsorption force of the sheet-shaped magnet 3. In this embodiment, 0.15 mm is stuck. (5) is a frame body which covers and integrates the perimeter which laminated | stacked the iron plate 2, the sheet-like magnet 3, and the decorative film.

Example 2

2 shows another embodiment, which is a perspective view of an exploded main portion thereof. The board | substrate 1 and the iron plate 2 are laminated | stacked the same thing as Example 1. FIG. (6) and (7) are sheet magnets in which the N and S poles are magnetized in a band at the same pitch, and the sheet magnets 6 are attracted and fixed to the upper surface of the iron plate 2. The sheet-shaped magnets 6 and 7 are bonded together with the decorative film 4 on the surface of the sheet-shaped magnets 6, and are laminated on the upper surface of the sheet-shaped magnet 6 in a direction perpendicular to each other. In this way, when the sheet-shaped magnets 6 and 7 which are multi-pole bonded closely contact each other, a mesh magnetic pole can be formed as in the first embodiment. The board | substrate 1, the iron plate 2, and the sheet | seat shape are integrated by covering the frame 5 around the lamination | stacking of the magnets 6 and 7 and the decorative film 4 laminated | stacked.

In any of the above embodiments, a mesh-like stimulus appears on the surface and has the same effect. That is, as shown in FIG. 3, a magnet (a) having the same magnetic pole as that of the surface of the display panel is used as the display magnet, and when the magnet (a) is pushed in the longitudinal or transverse direction to resist the attraction force, Repulsion and repulsion, but when pressed again, the bipolar stimulation and adsorption. That is, adsorption and repulsion are performed intermittently at each magnetizing pitch, and can be moved in parallel with each multiple of the magnetizing pitch as shown by arrows a, b, c, and d of FIG. Therefore, even in the case where the plurality of sheets are aligned vertically and horizontally, the interval can be adjusted with high precision, and the alignment can be performed neatly.

In addition, as shown in FIG. 3, the magnet for display attracts the magnet (b) multipole-magnetized at the same magnetization pitch as that of the sheet-shaped magnet for the display panel, and when the magnet (b) is pressed in the longitudinal direction of the magnetic pole, the resistance slides on the rail. It can slide smoothly, and it can slide in any direction of the displayed longitudinal or lateral direction only by changing the direction of the display magnet b by 90 degrees. When sliding on the display panel, the display magnet (b) of the multi-pole magnetizer also reacts with the same polarity at the narrow portion of the magnet in the shape of the mesh of the display panel. At first glance, you can slip so quietly that you can barely detect the repulsion. In the above embodiment, the expanded portion was 140 to 185 gauss and the narrow portion was 3 to 10 gauss.

In the case of Example 2, if the existing product is a magnet in the form of a sheet of multi-pole magnetizer, the magnetic pole of the net-like shape as in Example 1 can be formed on the surface without using the magnetizing equipment, and the net shape can be easily formed at a necessary place such as a construction site. It is possible to configure a display panel having a magnetic pole of.

The present invention as described above has the configuration and operation as described above, and the display magnets are horizontal and vertical on the surface of the display panel by using the display magnets having the multipolar magnetized display magnets and the network magnetic poles according to the use. It can slide smoothly in either direction, or precise parallel movement is possible at regular intervals. Therefore, the display magnets can be aligned in either vertical or horizontal direction, so that accurate alignment display can be performed as if there were guides or guide lines.

Claims (2)

After the first multipolar magnetization, the second magnet is formed with a magnetic pole of a band-like magnetic pole formed by the primary magnet and lower magnetic force than the first in the orthogonal direction. A display panel, which is laminated to integrate a sheet-shaped magnet, a magnetic body, and a substrate. Two sheets of multi-magnet-magnet magnets are stacked so that the strip-shaped magnetic poles are perpendicular to each other in a direction perpendicular to each other to form a surface material having a network-like magnetic pole on the surface. Display panel characterized in that the integrated.