JP7148785B2 - three-dimensional map - Google Patents

Description

TECHNICAL FIELD The present invention relates to a three-dimensional map, and more particularly to a three-dimensional map having a terrain portion in which terrain is formed in three dimensions and a map displayed on the surface of the terrain portion.

2. Description of the Related Art Conventionally, a three-dimensional map is known in which maps such as contour lines and roads are displayed on the surface of a topographical portion formed three-dimensionally (Patent Literatures 1 and 2).
Such a three-dimensional map is suitable for understanding the map while recognizing the height difference due to topography, and is widely used in educational settings and when disasters occur.

JP-A-5-297804 JP-A-7-239653

Here, for example, when the above three-dimensional map is used in the event of a disaster, it is conceivable to set some sort of marker at the location where the disaster occurred. In addition, when a pin such as a thumbtack is used as a marker, there is a problem that a puncture mark remains on the three-dimensional map.
In view of such problems, the present invention provides a three-dimensional map in which markers can be placed even on slopes without leaving traces of placement.

That is, the three-dimensional map according to the invention of claim 1 is a three-dimensional map having a terrain portion in which the terrain is formed three-dimensionally and a map displayed on the surface of the terrain portion,
forming the topographical portion with a resin layer having a predetermined thickness and displaying the map on the surface of the resin layer;
A magnetic layer having a magnetic material is formed on the back surface of the resin layer so that a magnet can be magnetically attached to the map . It is characterized in that it is thicker than the thickness of the magnetic layer .
A three-dimensional map according to the second aspect of the present invention is a three-dimensional map having a topographical portion in which topographical features are formed three-dimensionally and a map displayed on the surface of the topographical portion,
A magnetic layer having a magnetic material is provided between the topographical portion and the map so that a magnet can be magnetically attached to the map. It is characterized in that it is made thicker than the thickness of the magnetic layer in the flat portion.
Further, a three-dimensional map according to the invention of claim 3 is a three-dimensional map having a topographical portion in which topographical features are formed three-dimensionally and a map displayed on the surface of the topographical portion,
A magnetic layer having a magnetic material is provided between the topographical portion and the map so that a magnet can be magnetically attached to the map,
An uneven shape is formed on the surface of the topographical portion, and the magnetic layer is filled inside the uneven shape,
It is characterized in that the uneven shape of the sloped portion that constitutes the terrain portion is made larger than the uneven shape of the flat portion.

According to the above invention, by providing the magnetic layer, it is possible to place a marker equipped with a magnet on the surface of the map. Therefore, the marker can be placed even on an inclined portion, and the marker can be repeatedly placed on the same place without leaving a puncture mark.

A perspective view of a three-dimensional map according to the first embodiment. Sectional view of a three-dimensional map according to the first embodiment Sectional view of a three-dimensional map according to the second embodiment Cross-sectional view of a three-dimensional map according to the third embodiment Enlarged cross-sectional view of a three-dimensional map according to the third embodiment

The illustrated embodiments will be described below. FIG. 1 shows a perspective view of a three-dimensional map 1 according to the first embodiment. and a map 3 displaying contour lines and roads on the surface of the resin layer 2 .
When the three-dimensional map 1 is used, for example, when a disaster occurs, it is possible to easily recognize the situation of the disaster using the three-dimensional map 1 by setting the marker 4 at the location where the disaster occurred, the position of the rescue team, or the like. It is possible.
In the three-dimensional map 1 of this embodiment, as shown in FIG. 2, a magnetic layer 5 having a magnetic material is provided on the back surface of the resin layer 2 so that the magnetic layer 5 provides the three-dimensional map 1 with magnets 4a. The marker 4 can be magnetically attached, and the marker 4 can also be installed on the slope of the mountain 2a. Further, the three-dimensional map of this embodiment can hold the marker 4 even if it is installed on a vertical wall.
Although it is possible to use a commercially available product for the marker 4 having the magnet 4a, it is desirable to use a marker with a small contact area because it is installed on uneven topography such as mountains 2a and valleys 2b. As the magnet 4a, it is desirable to use a magnet having a high magnetic force such as a neodymium magnet.

As the resin layer 2, for example, a thermoplastic resin such as vinyl chloride, polystyrene, or PTE having a thickness of about 0.3 to 0.5 mm can be used. is designed to form the above terrain.
The map 3 formed on the surface of the resin layer may be a sheet of film on which the names of the mountains 2a, contour lines, and topographical information such as rivers and roads are printed in advance. The map 3 is displayed on the surface of the resin layer 2 by pasting it on the surface of the resin layer 2 .
As a method for forming the map 3 on the surface of the resin layer 2, a resin plate is heat-molded to form the resin layer 2 having the topography, and then the map 3 is printed on the surface of the resin layer 2. Alternatively, a method in which a film on which the map 3 is printed in advance is attached to a resin plate before heat molding, and then the resin plate together with the map 3 is heat molded to form the resin layer 2.
In addition, a method of directly printing the map 3 on the resin layer 2 that has been thermoformed, or a method of directly printing the map 3 on a resin plate and then thermoforming the resin layer 2 can be considered.

Here, regarding the concave shape such as the valley 2b sandwiched between the mountains 2a among the topography, if the valley 2b is formed faithfully to the actual topography, the marker 4 can be magnetically attached. Sufficient ground contact area may not be secured.
For this reason, the shape of the resin layer 2 is modified with respect to the actual topography (broken line portion in the drawing) so as to secure a flat portion to the extent that the marker 4 can be placed in the valley 2b.
On the other hand, with respect to the convex shape such as the crest portion of the mountain 2a, if the actual crest of the mountain is sharp, the contact area of the marker 4 may not be ensured.
In this case, it is possible to secure the installation area by flattening the peak portion, but the difference in the shape of the convex portion such as the peak 2a compared to the concave shape such as the valley 2b gives a sense of discomfort to the viewer. Since they are large, it is desirable to mold these convex shapes according to the reduced scale as much as possible.

The magnetic layer 5 is formed by applying a paste obtained by kneading a magnetic material such as iron powder with a binder made of resin to the back side of the resin layer 2 on which the topography is formed. there is
Further, in this embodiment, the thickness of the magnetic layer 5 is varied according to the topography, and the thickness of the magnetic layer 5 in the inclined portion indicating the slope of the mountain 2a is set to the thickness of the magnetic layer 5 in the flat portion indicating the flat ground. It is made thicker than the thickness of 5. As a result, the marker 4 can be reliably installed on the inclined portion.
As the magnetic layer 5, iron balls having a diameter of about 0.3 to 0.5 mm are used instead of the iron powder. It is also possible to use a magnetic material other than iron, such as nickel, as the magnetic material constituting the magnetic layer.

The three-dimensional map 1 having the above configuration is suitable for use in school education and when a disaster occurs, and because topography such as three-dimensionally formed mountains 2a and valleys 2b can be easily recognized, the map 3 can be grasped more accurately. It is supposed to help
For example, when the marker 4 is placed at a location where a disaster has occurred, the magnet 4a provided on the marker 4 is used to magnetically attach the marker 4 to the required location on the map 3 in the case of the three-dimensional map 1 of the present embodiment. is possible, and the marker 4 can be placed even on the slope of the mountain 2a.
Furthermore, in the case of this embodiment, since the marker 4 is magnetically attached to the three-dimensional map 1, even if the marker 4 is removed, no trace remains, and the marker 4 can be repeatedly installed in the same place. there is
On the other hand, if a pin such as a thumbtack is placed on the three-dimensional map 1 as a marker 4, a puncture mark will remain, and if the pin is repeatedly placed in the same place, there is a problem that the map 3 will be difficult to distinguish due to the puncture mark. .
Further, in this embodiment, since the thickness of the magnetic layer 5 is set to be thicker in the inclined portions such as the slopes of the mountain 2a, the markers 4 are held so as not to fall off even if they are placed on the inclined portions. It is possible.

FIG. 3 shows a cross-sectional view of a three-dimensional map 1 according to the second embodiment. In the three-dimensional map 1 of this embodiment, the magnetic layer 5 is provided between the resin layer 2 and the map 3 as the topographical portion. It is configured.
In this configuration, after molding the resin layer 2 having the topography in advance, the magnetic layer 5 is formed on the surface of the resin layer 2, and the surface of the magnetic layer 5 is smoothed. A map 3 is displayed on the surface of the layer 5 .
As a method for displaying the map 3, a method of attaching a film on which topographical information is printed on the surface of the magnetic layer 5 or a method of directly printing the topographical information on the surface of the magnetic layer 5 can be considered.
With such a configuration, only the map 3 is positioned between the magnet 4a of the marker 4 and the magnetic layer 5, so that the magnetic force of the marker 4 is stronger than in the first embodiment. It is possible to magnetize the marker 4 even if it is weak.
Therefore, the contact area of the magnet 4a used for the marker 4 can be reduced, or the thickness of the magnetic layer 5 can be made thinner than that of the magnetic layer 5 of the first embodiment.
On the other hand, in the case of the three-dimensional map 1 of the first embodiment, since the resin layer 2 on which the topography is formed is located on the surface side, it is easy to express the topography in accordance with the scale, and a more detailed three-dimensional map 1 can be provided. There is an advantage.

Also in the three-dimensional map 1 of the present embodiment, the thickness of the magnetic layer 5 in the sloping portion indicating the slope of the mountain 2a in the topography is set thicker than the thickness of the magnetic layer 5 in the flat portion. As a result, the marker 4 can be reliably magnetically attached to the inclined portion.
In the case of this embodiment, since the magnetic layer 5 is formed on the surface side of the resin layer 2, the shape of the topography when molding the resin layer 2 is determined according to the thickness of the magnetic layer 5 to be formed. It is desirable to correct it.
Further, the shape of the concave portion such as the valley 2b is also designed to form a flat portion to the extent that the marker 4 can be installed. In this case, the valleys 2b are formed in the resin layer 2 according to the actual scale, and when the magnetic layer 5 is formed after that, the magnetic layer 5 is formed thicker in the valleys 2b to form the flat portions. may be formed. Also, as in the first embodiment, when molding the resin layer 4, the shape of the valley 2b may be flattened.

FIG. 4 shows a cross-sectional view of the three-dimensional map 1 according to the third embodiment, and the topography portion 102 of this embodiment is formed by cutting wood or resin blocks to form topography such as the mountains 102a and the valleys 102b. It has become a thing.
Then, the magnetic layer 5 is provided on the surface of the topographical portion 102 and the map 3 is displayed on the surface of the magnetic layer 5, so that the magnetic layer 5 is positioned between the topographical portion 102 and the map 3. It is formed.
In this embodiment, as in the second embodiment, only the map 3 is positioned between the magnet 4a of the marker 4 and the magnetic layer 5. Therefore, even if the magnetic force of the magnet 4a is weak, the marker 4 can can be retained.

As shown in FIG. 5, when cutting the topography portion 102 to form the topography, an end mill 106 having a hemispherical tip is used, and the end mill 106 is vertically erected and horizontally aligned. The end mill 106 is moved up and down along the topography while moving in the direction, and when the end mill 106 reaches the end of the three-dimensional map 1, the end mill 106 is shifted by about half a pitch and reciprocated in the opposite direction. conduct.
As a result, on the surface of the topography portion 102, an uneven shape is formed by convex streaks 102c made of machining residue along the movement locus of the end mill 106, and between the streaks 102c and 102c, a magnetic It is possible to form the magnetic layer 5 on the surface of the topographical portion 102 by filling a paste-like material containing a body.
At this time, the streaks 102c formed on the inclined portions such as the peaks 102a shown in FIG. 5A are higher than the streaks 102c formed on the flat portions shown in FIG. It is possible to increase the amount of paste-like magnetic material accumulated between the streaks 102c and the inclined portion.
As a result, the thickness of the magnetic layer 5 in the sloped portions such as the peaks 102a can be made thicker than that in the flat portions, and the markers 4 can be reliably placed on the sloped portions as in the first and second embodiments. can be installed in

1 Three-dimensional map 2 Resin layer (terrain part)
2a Mountain 2b Valley 3 Map 4 Marker 4a Magnet 5 Magnetic layer 102 Terrain portion 102c Streak (uneven shape)

Claims (3)

In a three-dimensional map having a topographical portion in which topographical features are three-dimensionally formed and a map displayed on the surface of the topographical portion,
forming the topographical portion with a resin layer having a predetermined thickness and displaying the map on the surface of the resin layer;
A magnetic layer having a magnetic material is formed on the back surface of the resin layer so that a magnet can be magnetically attached to the map . A three-dimensional map characterized by being thicker than the thickness of the magnetic layer . In a three-dimensional map having a topographical portion in which topographical features are three-dimensionally formed and a map displayed on the surface of the topographical portion,
Between the above terrain part and the above map A magnetic layer having a magnetic material is provided so that a magnet can be magnetically attached to the map.In addition, the thickness of the magnetic layer in the inclined portion that constitutes the topography is made thicker than the thickness of the magnetic layer in the flat portion.A three-dimensional map characterized by: In a three-dimensional map having a topographical portion in which topography is three-dimensionally formed and a map displayed on the surface of the topographical portion,
Between the above terrain part and the above map A magnetic layer having a magnetic material is provided so that a magnet can be magnetically attached to the map.Along with
An uneven shape is formed on the surface of the topographical portion, and the magnetic layer is filled inside the uneven shape,
The uneven shape of the sloping part that makes up the terrain part is made larger than the uneven shape of the flat part.A three-dimensional map characterized by:

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