JP2002337242A - Electric transmission system for product - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an electric transmission system for a product which electrically transmits the product in the form of information without transporting the product itself and shapes it at a destination site according to product information. SOLUTION: This electric transmission system for a product comprises a product information furnishing device 10 which furnishes product information including shape information for specifying the shape of the finished product, a product information receiving device 20 which is connected to the device 10 through a communication means 30 and receives finished product information to be furnished by the device 10, a material supplying device 22 which supplies materials constituting the product and a product shaping device 21 which shapes the product using the materials to be supplied by the device 22, based on the product information to be outputted from the device 22.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a product transmission system for transmitting shape information and material information for specifying a product, and forming the product locally based on the product information.

[0002]

2. Description of the Related Art Conventionally, many types of materials have been transported from material manufacturers dispersed around the world to product manufacturers scattered around the world, and products are manufactured using these materials. Transported to consumers scattered throughout the country.

[0003] The transportation of products from product manufacturers to consumers involves:
It is often performed intermittently through one or more distribution stages (buffers). In recent years, along with the spread of the infrastructure such as the Internet, the number of cases where a consumer directly places an order with a product maker and the product is directly delivered to the consumer from the product maker has increased.

[0004]

However, there is a problem that the transportation of such a product involves an environmental load.
Specifically, consumption of petroleum resources, emission of CO ₂ , air pollution, heat pollution, energy consumption, and the like occur by transportation means.
In recent years, in the case of home delivery, which has become popular, since the transportation is extremely small lots, an even greater environmental load occurs. In addition, the cost of transporting the product becomes large.

SUMMARY OF THE INVENTION In view of the above, an object of the present invention is to provide a product transmission system for transmitting a product as information without transporting the product itself, and for forming a product locally based on the product information. .

[0006]

According to the first aspect of the present invention, there is provided a product information providing apparatus (10) for providing product information including shape information for specifying a shape of a product. Information providing device (10) and communication means (3
0), a product information receiving device (20) for receiving product information provided from the product information providing device (10), and a material supply device (22) for supplying a material constituting the product. And a product forming device (21) for forming a product using a material supplied from a material supply device (22) based on product information output from the product information receiving device (20).

As described above, by decomposing a product into shape information and material information and converting the information into information and transmitting the information, it is possible to form a product locally based on the transmitted product information without transporting the product itself. It becomes possible. As a result, it is possible to prevent various problems associated with the transportation of the product.

According to the invention described in claim 2, the product information providing device (10) for providing product information including shape information on the shape of the product is connected via communication means (30), and the product Product information receiving device (20) for receiving product information provided from information providing device (10)
And a material supply device (2) for supplying a material constituting the product.
2) and a product modeling device (21) for modeling a product using a material supplied from a material supply device (22) based on product information output from the product information receiving device (20). And

According to the third aspect of the present invention, a product information providing device (10) for providing product information including shape information for specifying a shape of a product, a product information providing device (10), and a communication means (30). ), A material supply device (22) for supplying the material constituting the product, and a material supply based on the product information output from the product information reception device (20). Product shaping device (21) for shaping a product using the material supplied from the device (22)
A means for requesting transmission of product information from the product information receiving device (20) to the product information providing device (10), and a product information providing device (1).
0) means for transmitting product information to the product information receiving device (20) in response to the transmission request, means for the product information receiving device (20) to receive the product information, and product information receiving device (20) Means for outputting product information to a product forming apparatus (21), and means for forming a product using a material supplied from a material supply apparatus (22) based on the product information. It is characterized by having.

Further, according to the present invention, a product information providing apparatus (10) for providing product information including shape information for specifying a shape of a product is connected to a product information via a communication means (30). Receiving device (20), material supply device (22) for supplying material constituting the product, and material supplied from material supply device (22) based on product information output from product information receiving device (20) A product shaping device (21) for shaping a product by using the product information receiving device (20), wherein the product information receiving device (20) requests the product information providing device (10) to transmit product information. When,
The product information receiving device (20) is connected to the product information providing device (1).
0) means for receiving the product information transmitted from the apparatus, a product information receiving device (20) for outputting the product information to the product shaping device (21), and a product shaping device (21) based on the product information. Means for shaping a product using the material supplied from the material supply device (22).

Further, according to the invention described in claim 5, the product information receiving device (21) includes a storage device capable of storing the product information provided from the product information providing device (10). Features. As a result, for the same product as the product information once downloaded from the product information providing device, the product information stored in the product information storage device can be used, and there is no need to download again.

In the invention according to claim 6, the product shaping device (21) includes a product table (22c) as a platform for shaping a product, and a material table provided by the material feeding device (22). (22c) a material injection unit (21a) for injecting the material onto the material injection unit (21a), and a moving unit capable of moving at least one of the material injection unit (21a) and the product table (22c) in the X-axis, Y-axis, or Z-axis directions. It is characterized by having.

[0013] With such a configuration of the product forming apparatus, it is possible to three-dimensionally form a product using the material supplied from the material supply apparatus based on the product information.

Further, in the invention according to claim 7, the product shaping apparatus (21) is provided with a heating means for heating the material injected from the material injection section (21a) or a cooling means for cooling the injected material. It is characterized by having at least one.

With such a configuration, the product shaping apparatus (2)
During product shaping according to 1), the temperature of the basic material injected from the material injection section (21a) can be easily adjusted.
Thereby, even if the temperature and the injection speed of the particles to be bonded vary, the shape accuracy after the particles are fixed can be kept constant, and trimming after the product shaping is not required.

Further, in the invention according to claim 8, the product information includes material information on materials constituting the product. Thereby, in the product modeling device (21), the material injected from the material injection unit can be specified. When the product is composed of a plurality of materials, it is specified where each material is arranged in the three-dimensional shape.

According to the ninth aspect of the present invention, a product information receiving device (20), a material supply device (22) for supplying a material constituting a product, and a product information receiving device (20) are output. Material supply device based on product information (22)
A product information providing device connected via a communication means (30) to a product information receiving device (20) in a product transmission system including a product shaping device (21) for shaping a product using the supplied material. And the product information receiving device (2
In response to a request for transmission of product information from 0), a means for transmitting product information to the product information receiving device (20) is provided.

Further, in the invention according to claim 10, a product information providing device (10) for providing product information including shape information for specifying a shape of a product, and a product information providing device (10)
And a product information receiving device (20) connected via communication means (30), a material supply device (22) for supplying a material constituting the product, and product information output from the product information receiving device (20) Product forming device (2) that forms a product using the material supplied from the material supplying device (22) based on the
1) a product manufacturing method performed by a product transmission system comprising: (a) requesting a product information providing device (10) to transmit product information from a product information receiving device (20); 10) transmitting product information to the product information receiving device (20) in response to the transmission request, receiving the product information by the product information receiving device (20), and transmitting the product information to the product information receiving device (20). Outputting the product information to the product modeling device (21), and forming the product using the material supplied from the material supply device (22) based on the product information. It is characterized by having.

According to the eleventh aspect of the present invention, there is provided a product manufactured by the method for manufacturing a product according to the tenth aspect, wherein the product is made of two or more different materials, and interfaces of the different materials are fitted to each other. It is characterized by being formed in an uneven shape. In this way, when the product is made of a different material, by structurally joining the different materials, the different materials can be firmly joined without using an adhesive. Further, according to the product shaping apparatus (21) for shaping a product by injecting a material based on the product information, it is possible to easily form a complicated shape including different kinds of materials.

According to a twelfth aspect of the present invention, there is provided a product manufactured by the product manufacturing method according to the tenth aspect, wherein the product is made of two or more different materials, and the two or more different materials are at least And a material composed of lighter particles that are lighter than the main particles. In this way, a lightweight product can be obtained by forming a product by combining the relatively heavy main particles and the lightweight lightweight particles in a complex manner. Further, according to the product modeling device (21) for molding a product by injecting a material on the basis of product information, a shape in which main particles and lightweight particles are arranged in a complex manner can be easily formed, and the size of the void and The arrangement can be easily controlled.

Note that the reference numerals in parentheses of the above means indicate the correspondence with specific means described in the embodiments described later.

[0022]

DESCRIPTION OF THE PREFERRED EMBODIMENTS (First Embodiment) A first embodiment of the present invention will be described below with reference to FIGS. Book first
In the product transmission system of the embodiment, a product maker (data provider) provides a general user (data user) with product information including shape information and material information.

FIG. 1 is a conceptual diagram showing the overall configuration of the product transmission system of the first embodiment. As shown in FIG. 1, the product transmission system includes a product data providing device 10, a product data receiving device 20, a product forming device 21, and a basic material supply device 22. The product data providing device 10 and the product data receiving device 20 are connected via a communication network 30. Communication network (communication means) 30
For example, the Internet can be used.

The product data providing device 10 can be, for example, a personal computer, and is located on the side of a product maker as a data provider. The product data providing device 10 includes a storage device (for example, a hard disk) (not shown), and stores product data (product information) in the storage device. The product data providing device 10 has a function of transmitting product information to the product data receiving device 20 via the communication network 30.

The product information is composed of shape information on the three-dimensional shape of the product and material information on the materials constituting the product. When the product is composed of a plurality of materials, it is specified where each material is arranged in the three-dimensional shape. Solid data is used for the shape information.

As the three-dimensional shape information of the product, for example, CAD data produced by a three-dimensional CAD (shape information producing device) can be used. Further, as the shape information producing apparatus, a three-dimensional scanner or the like that obtains three-dimensional shape information by reading a three-dimensional shape from an actual product or a model having the same shape as the product can be used. The three-dimensional shape information producing device may be configured to also be used as the product data providing device 10, or may be configured as a device separate from the product data providing device 10.

Product data receiving device 20, product molding device 2
1. The basic material supply device 22 is arranged on the side of a general user who is a data user. These can be placed at the user's home or at a store located near the user's home. The product data receiving device 20, the product shaping device 21, and the basic material supply device 22 may be configured separately from each other, or may be configured integrally.

As the product data receiving device 20, for example, a personal computer can be used. The product data receiving device 20 has a function of receiving the product information transmitted from the product data providing device 10 and outputting the product information to the product modeling device 21.

FIG. 2 is a perspective view of the product forming apparatus 21. The product modeling device 21 can use three-dimensional deposit jitter. As shown in FIG. 2, the three-dimensional deposit jitter 21 is
A material injection unit 21b provided with a nozzle 21a for injecting one or a plurality of basic materials, a product table 21c that is a platform for forming a product, and at least one of the material injection unit 21b and the product table 21c is X-axis and Y-axis. , Three-dimensional moving means for moving in the Z-axis direction. In the first embodiment, the material injection unit 21b has two nozzles 2
1a are provided, and different materials are ejected from these nozzles 21a. In the first embodiment, the product table 21c is fixed, and the material injection unit 21b
Are configured to be movable in the XYZ axis directions.

The three-dimensional depositor 21 is configured to control the amount of material injection from the nozzle 21a and the amount of movement of the material injection part 22b in the XYZ-axis directions by the three-dimensional moving means based on product information. The three-dimensional shape information used in the three-dimensional depositor 21 is data converted into slice data (two-dimensional data) having a cross-sectional shape obtained by laminating three-dimensional solid data into layers at regular intervals. The conversion from the solid data to the slice data may be performed by any of the product data receiving device 20, the product forming device 21, and the basic material supply device 22.

FIG. 3 is a partially enlarged view of the three-dimensional depositor 21. As shown in FIG. 3, the three-dimensional depositor 21 includes an energy beam generating unit (heating unit) 21d and a gas injection unit (cooling unit) 21e. The energy beam generator 21d and the gas injector 21e are connected to the nozzle 2
A temperature adjusting means for adjusting the temperature of the basic material injected from 1a is constituted. The energy beam generator 21d irradiates the basic material ejected from the nozzle 21a with an energy beam (for example, a laser beam) to heat the basic material. The gas injection unit 21e injects an assist gas to the laser irradiation unit. The assist gas injected from the gas injection unit 21e is
When the laser is stopped, it can be used as a cooling gas for cooling the basic material.

FIG. 4 shows the operation of the three-dimensional depositor 21. As shown in FIGS. 4A and 4B, in the three-dimensional depositor 21, a basic material is laminated in layers based on product information, and a product is formed. Specifically, based on the shape information converted to the slice data, the material injection unit 21b
It moves in the axial direction, and a different type of basic material is appropriately ejected from the nozzle 21a based on the material information (dropping or ejection).
Is done. Material injection unit 2 by the thickness of the basic material laminated
1b is moved in the Z-axis direction, and the same operation is repeated to complete the shaping of the product.

The basic material supply device 22 stores the basic material, and the nozzle 21 a of the three-dimensional depositor 21.
It is configured to supply the basic material to the As a basic material, a resin, a metal, a ceramic, or the like can be used. As the resin, for example, polyethylene and polyethylene terephthalate can be used, and as the metal, for example, stainless steel can be used. The base material is supplied in powder form. In the case of the resin, the resin can be supplied in a molten state, so that it can be supplied in the form of tablets or pellets having a larger particle diameter than the powder state, or can be supplied in a liquid state depending on the type of resin. These basic materials are supplied from the material maker to the user side by high bulk transportation or, if liquid, by a pipeline.

When a metal or ceramic is used as a basic material, it is injected in a powder state from a nozzle 21a, and is heated and sintered by a heating means. When the basic material is a resin, it is injected from the nozzle 21a in a liquid state and solidified.

Next, the operation of the product transmission system of the first embodiment will be described with reference to the flowchart of FIG.

First, a product maker (data provider) provides a user (data user) with a communication network 30.
The product data for confirmation is provided via (Step S)
10). For example, by publishing a list (catalog) of product designs on a homepage (web page) on the Internet, a product maker can provide a product design to a user.

The user checks the product design provided by the product maker (step S20). The user can browse a list of product designs held by the product maker on the screen of the product data receiving device 20.

Next, the user selects a desired product design from the product designs provided by the product maker, and requests the product maker to transmit product information including shape information and material information (step S21). . This is performed by transmitting a product information request signal from the product data receiving device 20 to the product data providing device 10.

The product data providing device 10 receives the product information request signal from the product data receiving device 20, and transmits product information to the product data receiving device 20 (step S11). The product data receiving device 20 receives (downloads) the product information transmitted from the product data providing device 10 (step S22).

The product data receiving section 20 outputs the product information to the three-dimensional depositor 21. In the three-dimensional depositor 21, the product is formed based on the product information, and the product is completed (step S23).

As described above, by decomposing a product into shape information and material information and converting the information into information and transmitting the information, the product can be formed locally on the basis of the transmitted product information without transporting the product itself. Becomes possible. As a result, it is possible to prevent various problems associated with the transportation of the product.

In the first embodiment, the energy boom generating device 21d and the gas injection device 21e are provided.
The temperature of the basic material injected from 1a can be easily adjusted. Thereby, even if the temperature and the injection speed of the particles to be bonded vary, the shape accuracy after the particles are fixed can be kept constant, and trimming after the product shaping is not required.

(Second Embodiment) Next, a second embodiment of the present invention will be described. The description of the same parts as those in the first embodiment is omitted.

Parts are transported between the parts maker and the finished goods maker that assembles the parts, resulting in an environmental load such as consumption of petroleum resources and emission of CO ₂ accompanying the transportation of the parts. In recent years, in order to reduce excess inventory as much as possible, manufacturers of finished products are increasingly demanding just-in-time deliveries to order necessary parts from component manufacturers when necessary. However, in the case of such just-in-time delivery, small lot transportation is required, and a greater environmental load is generated.

Therefore, in the second embodiment, the product transmission system of the present invention is applied between a part maker and a finished product maker. In the second embodiment, the product data provider is a component maker, and the product data user is a finished product maker. In the second embodiment, the product data receiving unit 2
0 is provided with a product information storage device (storage means) not shown. For example, a hard disk can be used as the product information storage device. Thus, the product data receiving unit 20 is configured to accumulate the product information downloaded from the product data providing device 10.

In the product transmission system of the second embodiment, product transmission is performed as follows. First, when a part needs to be ordered, the finished product maker requests the product data receiving device 20 to transmit the product information of the necessary component to the product data providing device 10 of the component maker.

The product data providing device 10 of the component maker transmits the product information of the component to the product data receiving device 20 of the finished product maker. The product data receiving device 20 outputs product information to the product modeling device 21 and stores the product information in the product information storage device. The product modeling device 21 models a product based on product information.

Thus, the product transmission system of the present invention
It can also be applied between finished product manufacturers and component manufacturers. Further, in the configuration of the second embodiment, when the finished product manufacturer needs to place an order for the same part again, the finished product manufacturer can use the product information stored in the product information storage device. No need to download.

Third Embodiment Next, a third embodiment of the present invention will be described with reference to FIGS. 6 and 7 are cross-sectional views of a product formed by the product transmission system according to the third embodiment. FIG. 6A shows a schematic cross-sectional configuration of a product, and FIG. 6B shows a particle cross-sectional configuration of the product. The same parts as those in the first embodiment are denoted by the same reference numerals, and description thereof is omitted.

In the case of joining particles of the same quality, such as plastics or metals, it can be achieved by heating the material to the melting point or higher. However, for bonding between different materials such as plastic and metal, for example, a method of interposing an adhesive having adhesiveness to both materials at the interface is usually used. In this method, there is a problem that the adhesive region determines mechanical properties, heat resistance temperature, weather resistance, life, and the like.

Therefore, in the third embodiment, a product having the structure shown in FIGS. 6 and 7 is formed by the product forming apparatus 21. That is, when a product is composed of different materials A and B, the materials A and B are arranged so as to have a structure that does not come off from each other, and the materials A and B are structurally joined.

In the example shown in FIG. 6A, material A and material B
An uneven shape is formed on each of the joint surfaces, and one convex portion is fitted into one concave portion. FIG.
As shown in (b), the particles of the material A and the particles of the material B may be respectively ejected from the two nozzles 21a so as to have irregularities.

Further, in the example shown in FIG.
Are formed so as to have a male screw shape and a female screw shape, and the material A and the material B
Are joined. In the case of such a screw pair, the portion made of the material A and the portion made of the material B can be easily separated, which is convenient for recycling after use.

As described above, when the product is made of a different material, by structurally joining the different materials, the different materials can be firmly joined without using an adhesive. Also,
According to the product shaping apparatus 21 that forms a product in layers based on product information, a shape in which different types of materials are involved can be easily formed.

(Fourth Embodiment) Next, a fourth embodiment of the present invention will be described with reference to FIG. FIG. 8 is a sectional view of a product formed by the product transmission system of the fourth embodiment. The same parts as those in the first embodiment are denoted by the same reference numerals, and description thereof is omitted.

In order to reduce the weight of products and parts, it is general to provide a gap in which a gas such as air exists. A typical example is foam molding in plastic products and concrete products. In recent years, a foamed plastic having a submicron void called a microcell foam (microcellular plastic) has also been proposed.

However, it is difficult to completely control the size and arrangement of the voids contained in the foamed plastic or the like. As a result, it is inevitable that the physical properties of the entire product after molding are uneven. Further, it has not been possible to sufficiently meet the demand for weight reduction due to environmental problems. Furthermore, no satisfactory weight reduction method has been proposed for metal or ceramic products.

Therefore, in the product transmission system of the fourth embodiment, the product having the configuration shown in FIG. That is, the main particles C and the space-filling particles D lighter than the main particles C among the particles constituting the product are ejected from the nozzle 21a, and these particles C, D
The product has a lightweight structure by combining. For example, an unfoamed product can be used as the main particles, and a foamed product having a hollow structure can be used as the space filling particles.

As described above, a light product can be obtained by forming a product by combining the relatively heavy main particles C and the light space filling particles D in a complex manner. In addition, according to the product shaping apparatus 21 that forms a product in layers based on product information, a shape in which the main particles C and the space filling particles D are arranged in a complex manner can be easily formed, and the dimensions and arrangement of the voids can be easily determined. Can be easily controlled.

(Other Embodiments) In each of the above embodiments, the product forming apparatus 21 is provided with two nozzles 21a. However, the present invention is not limited to this.
a may be one or two or more.

In each of the above embodiments, the product information transmitted from the product data providing device 10 to the product data receiving device is composed of shape information for specifying the shape of the product and material information for specifying the material of the product. However, when the material constituting the product is one type and is determined in advance, the product information may include only the shape information without including the material information.

Further, in each of the above-described embodiments, both the heating means and the cooling means are provided in the product shaping apparatus 21, but these can be appropriately selected according to the kind of the basic material and the like. It may be configured to provide only one of them, or may be configured not to provide both the heating means and the cooling means. For example, when a resin that is in a liquid state at room temperature and solidifies by dripping is used as a basic material, it is not necessary to provide a heating unit and a cooling unit.

[Brief description of the drawings]

FIG. 1 is a conceptual diagram showing the overall configuration of a product transmission system according to the first embodiment.

FIG. 2 is a perspective view of a product forming apparatus.

FIG. 3 is a partially enlarged view of the product forming apparatus.

FIG. 4 is a side view showing the operation of the product forming apparatus.

FIG. 5 is a flowchart showing the operation of the product transmission system.

FIG. 6 is a cross-sectional view of a product formed by the product transmission device.

FIG. 7 is a cross-sectional view of a product formed by a product transmission device.

FIG. 8 is a cross-sectional view of a product formed by the product transmission device.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 10 ... Product data provision apparatus, 20 ... Product data receiving apparatus, 21 ... Product molding apparatus, 22 Basic material supply apparatus, 30
... communication network.

Claims (12)

[Claims] 1. A product information providing device (10) for providing product information including shape information on a shape of a product, the product information providing device (10) being connected to the product information providing device (10) via communication means (30), A product information receiving device (20) for receiving product information provided from the product information providing device (10); and a material supply device (2) for supplying a material constituting the product.
2) and a product modeling device (2) that models the product using a material supplied from the material supply device (22) based on the product information output from the product information receiving device (20).
1) A product transmission system comprising: 2. A product information providing device (10) for providing product information including shape information relating to the shape of a product, which is connected via communication means (30) and provided from the product information providing device (10). Product information receiving device (20) for receiving product information to be supplied, and a material supply device (2) for supplying a material constituting the product.
2) and a product modeling device (2) that models the product using a material supplied from the material supply device (22) based on the product information output from the product information receiving device (20).
1) A product transmission system comprising: 3. A product information providing device (10) for providing product information including shape information for specifying a shape of a product, and a product connected to the product information providing device (10) via a communication means (30). An information receiving device (20), a material supply device (22) for supplying a material constituting the product, and the material supply device (22) based on the product information output from the product information receiving device (20). A product shaping device (21) for shaping the product using the supplied material, wherein the product information receiving device (20) transmits the product information to the product information providing device (10). Means for requesting transmission of product information; means for transmitting the product information to the product information receiving apparatus (20) in response to the transmission request; A communication device (20) for receiving the product information; and a product information receiving device (20) for receiving the product information.
Means for outputting the product information in 1), wherein the product shaping device (21) is based on the product information,
Means for shaping the product using a material supplied from the material supply device (22). 4. A product information receiving device (20) connected via a communication means (30) to a product information providing device (10) for providing product information including shape information for specifying the shape of a product.
A material supply device (22) for supplying a material constituting the product; and the material supply device (22) based on the product information output from the product information receiving device (20).
A product shaping device (21) for shaping the product using the supplied material, wherein the product information receiving device (20) is provided with respect to the product information providing device (10). Means for requesting the transmission of the product information, means for the product information receiving device (20) to receive the product information transmitted from the product information providing device (10), and the product information receiving device (20) Means for outputting the product information to the product modeling device (21), and the product modeling device (21)
Means for shaping the product using a material supplied from the material supply device (22). 5. The product information receiving device (21) includes a product information storage device capable of storing the product information provided from the product information providing device (10). The product transmission system according to claim 1 or 4. 6. The product modeling device (21), a product table (22c) serving as a platform for modeling the product.
A material injection unit (21) for injecting a material supplied from the material supply device (22) onto the product table (22c);
a) and at least one of the material injection section (21a) and the product table (22c) by X-axis, Y-axis or Z-axis.
The product transmission system according to any one of claims 1 to 5, further comprising a three-dimensional moving unit that is movable in an axial direction. 7. The product modeling device (21) includes at least one of a heating unit for heating the material injected from the material injection unit (21a) and a cooling unit for cooling the injected material. 2. The method according to claim 1, wherein
7. The product transmission system according to any one of items 6 to 6. 8. The product transmission system according to claim 1, wherein the product information includes material information on a material constituting the product. 9. A product information receiving device (20), a material supply device (22) for supplying a material constituting the product, and a shape for specifying the shape of the product output from the product information receiving device (20). A product information receiving device (20) in a product transmission system including a product forming device (21) for forming the product using a material supplied from the material supply device (22) based on product information including information; A product information providing device connected via communication means (30), wherein the product information receiving device (20) transmits the product information to the product information receiving device (20) in response to a request. A product information providing device, comprising: means for transmitting product information. 10. A product information providing device (10) for providing product information including shape information for specifying a shape of a product, and a product connected to the product information providing device (10) via communication means (30). An information receiving device (20), a material supply device (22) for supplying a material constituting the product, and the material supply device (22) based on the product information output from the product information receiving device (20). A product shaping device (21) for shaping the product using the material supplied from the product information transmission system, wherein the product information receiving device (20) sends the product information providing device (10). Requesting the transmission of the product information to the product information providing device (10), and transmitting the product information to the product information receiving device (20) in response to the transmission request. Steps and the product information and steps receiving device (20) receives the product information, the product information receiving apparatus (20) is the product modeling device (2
Outputting the product information to 1), wherein the product modeling device (21) is configured to output the product information based on the product information,
Forming the product using a material supplied from the material supply device (22). 11. A product manufactured by the product manufacturing method according to claim 10, wherein the product is made of two or more different materials, and an interface between the different materials is formed into an uneven shape that fits each other. A product characterized by: 12. A product manufactured by the product manufacturing method according to claim 10, wherein the product is made of two or more different materials, and the two or more different materials are at least a material made of main particles. A material comprising lightweight particles lighter than the main particles.