JPH04133000U - Molding mold for ice three-dimensional sculpture - Google Patents

Abstract

(57) [Summary] [Purpose] A beautiful three-dimensional ice sculpture 4 can be manufactured simply and easily, and can be mass-produced at low cost. [Structure] The mold includes a laminated plate 2 along a separation boundary line 1,
Alternatively, a closing plate 6 is provided. Laminated plate 2 or occlusion plate 6
is provided protruding from the outer surface of the mold. Laminated board 2
and the closing plate 6 have a laminated structure of two sheets, the outer edge of the laminated plate 2 is connected in a watertight structure, and the outer edge of the closing plate 6 is open. The two laminated plates 2 and the closing plate 6 are configured to freeze the three-dimensional ice sculpture in close contact with each other or in close proximity to each other, and to expand the separation boundary line 1 when the three-dimensional ice sculpture 4 is taken out. . [Effect] The three-dimensional ice sculpture 4 can be easily taken out by expanding the separation boundary line.

Description

[Detailed explanation of the idea]

0001

[Industrial application field]

This invention relates to a mold for a three-dimensional ice sculpture that is frozen into a three-dimensional shape.

0002

[Conventional technology]

Three-dimensional ice sculptures have an extremely cool and unique beauty, so they are popular among parties. It is widely used in the arts and other industries. However, processing costs for three-dimensional ice sculptures are significant. The disadvantage is that it is expensive. It was frozen into large pillars by skilled workers. This is because the ice is carved into three-dimensional shapes using a chisel and a hammer. Also, Since the carvings are done in a freezing room to prevent the ice from melting, the work environment is extremely poor.

0003 To solve this problem, a device that freezes water in a mold to produce three-dimensional ice sculptures. has been developed (Japanese Unexamined Patent Publication No. 193200/1983). Described in this bulletin The device uses a plastic mold. The mold is made of styrene resin, etc. Blow molded material is used. The mold has an opening to let water in. From here, water is poured into the freezing chamber and frozen. Three-dimensional sculpture on the inside of the mold It has a pattern.

0004 This mold is made by applying a heated and softened sheet to the inner surface of the female mold using air pressure. Shape. If the female mold has a deep recess or the opening of the recess is small and the depth is large. In this case, it is difficult to remove the mold from the female mold. Furthermore, this If water is poured into a mold and allowed to freeze, the mold must be cut and removed. For this reason, there is a drawback that it takes time and effort to take out the three-dimensional ice sculpture. That is, complex When removing a three-dimensional ice sculpture with a three-dimensional pattern from the mold, it is necessary to take care of the unevenness of the pattern. It is necessary to adjust the cutting position of the shape mold. If the cutting position of the mold is incorrect, it may be difficult to remove the mold. Sometimes, the convex part of the three-dimensional ice sculpture is damaged. Furthermore, molds with complex shapes are It may be difficult to evacuate the air and fill the area with water. Air in part of the mold This air can accumulate and be difficult to vent. Air remaining in the mold will turn into ice. A dent is created on the surface of the frozen three-dimensional ice sculpture, making it a defective product.

[0005] For this reason, three-dimensional ice sculptures with complex unevenness require different molds to match the unevenness. It is necessary to cut and remove the parts in complicated shapes. If the cutting position of the mold is incorrect, The three-dimensional ice sculpture that was taken out was damaged. The partially damaged ice sculpture It loses its commercial value as a decoration. In addition, the cutter that cuts the mold is an ice cube. This damages the surface of the sculpture, which also reduces its commercial value.

[0006] In order to eliminate this drawback, the inventor developed a mold that can be opened and closed with a chuck. did. This mold can be easily opened with a zipper, so there is no ice inside. To easily take out a frozen three-dimensional ice sculpture without damaging it.

[0007]

[Problem that the idea aims to solve]

However, this mold requires the chuck to have a watertight structure. it is This is because the freezing chamber has a watertight structure when the chuck is closed. others Therefore, it is necessary to use a chuck with a special structure. In addition, chuck It is also extremely difficult to connect it to the mold. If the connection between the chuck and the mold is poor, ice formation may occur. There is a drawback in that the surface of the body sculpture has a noticeable border line along the chuck. boundary The lines significantly reduce the commercial value of the three-dimensional ice sculpture.

[0008] For this reason, molds with this structure have the disadvantage of being labor-intensive and expensive to manufacture. Ta. This invention was developed with the aim of resolving this drawback. The important purpose of the invention was to create a beautiful ice holder that was simple, easy to manufacture, and inexpensive. To provide a mold capable of producing body sculptures.

[0009]

[Means to solve the problem]

The mold for the three-dimensional ice sculpture of this invention has the following structure in order to achieve the above-mentioned purpose. It has the ability to In other words, the mold of this invention has a freezing chamber with a three-dimensional carved pattern. -3 inside. Furthermore, the mold is separated along the separation boundary line 1, and the inside of the mold is separated. It is configured to take out the ice three-dimensional sculpture 4 frozen in the freezing chamber 3. Ru.

0010 Furthermore, the mold of this invention has the following configurations (a) to (f). It is characterized by

[0011] (a) The molds are stacked along the part that separates when the three-dimensional ice sculpture 4 is taken out. It is equipped with a plate 2. (b) The laminate plate 2 is attached to the mold so as not to affect the external shape of the three-dimensional ice sculpture 4. It is provided to protrude from the outer surface. (c) When taking out the ice three-dimensional sculpture 4, the laminated plate 2 is placed along the separation boundary line 1. It has a two-layered structure and is made of rubber-like elastic sheets so that it can be expanded. (d) The outer edge of the laminate 2 has a watertight structure to make the freezing chamber 3 watertight. is connected to. (e) The inner edges of the laminates 2 are connected along the separation boundary line 1 of the mold. (f) The two laminates 2 should not touch each other when the liquid is frozen in the mold. When taking out the ice three-dimensional sculpture 4 that has been frozen in close contact with or close to the 1 is expanded to take out the three-dimensional ice sculpture 4.

0012 Furthermore, the mold for the three-dimensional ice sculpture with another structure of this invention can be used instead of the laminate plate 2. A closing plate 6 is provided. The closing plate 6 has outer edges connected in a watertight manner like a laminated plate. There is no need to As shown in FIG. This is because the ice protrudes above the liquid surface and freezes the three-dimensional ice sculpture.

[0013]

【Example】

Hereinafter, embodiments of this invention will be described based on the drawings. However, the examples shown below This is an example of a mold for a three-dimensional ice sculpture to embody the technical idea of this invention. Therefore, the mold of this invention has the material, shape, structure, and arrangement of the component parts as shown below. It is not specific to The mold of this invention is as stated in the claims for utility model registration. Various changes are made in scope.

[0014] Furthermore, this specification includes examples to make it easier to understand the scope of the claims for utility model registration. Enter the number corresponding to the indicated component in the ``Claims of Utility Model Registration'' and ``Traditional Charges. Add notes to the parts shown in the "Means for solving the problem column" and the "Effect column". Ru. However, the parts indicated in the claims for utility model registration are specified as the parts in the examples. It's definitely not a thing.

[0015] The mold for the three-dimensional ice sculpture shown in Figure 1 is made entirely of a rubber-like elastic sheet and is watertight. It is shaped like a bag. The mold is filled with liquid such as water and freezes, so It has a freezing chamber 3 with a three-dimensional carved pattern inside. The mold is used to take ice three-dimensional sculptures. The top end is open for access.

[0016] The mold is provided with a laminated plate 2 protruding from the outer surface along a separation boundary line 1. As shown in Figure 2, the laminated plate 2 is designed to be able to be expanded when taking out the three-dimensional ice sculpture. It has a two-layered structure. Furthermore, the laminate 2 is filled into the freezing chamber 3. Connect the outer edge watertightly and the inner edge to separation boundary line 1 to prevent water from leaking. ing. The width of the laminated plate 2 is large enough to be expanded when taking out the freezing chamber 3. Determine. It can be made larger by increasing the width of the laminate 2. For this reason, three-dimensional ice sculpture For items with large protrusions, make the width of the laminate 2 wider so that they can be taken out easily. Make it.

[0017] The mold shown in FIG. 2 is made entirely of a rubber-like elastic sheet. However, this mold It is not necessary that the entire sheet be made of a rubber-like elastic sheet. Laminate plate 2 is made of rubber-like elastic material. The molds other than the laminate 2 are made of a hard material such as synthetic resin or metal. It is also possible to mold it. It is possible to create an ice cube by expanding the laminated plate 2. This is because the sculpture can be demolded.

[0018] A mold made entirely of a rubber-like elastic sheet can be manufactured using the following steps.

[0019] Create a sculpture sample 7 with the same shape as the three-dimensional sculpture ice. Material for engraving sample 7 Wood, plaster, cuttable synthetic resin blocks, etc. can be used for this purpose. These materials The shapes of the three-dimensional sculpture samples include animals such as cranes and turtles, as well as human figures. Deru, flowers, plants, Kadomatsu, etc. can be used.

[0020] As shown in Figure 3, the part of the surface of the engraving sample that will become the separation boundary line 1 of the mold A thin hard plate 8 is fixed along the length. The hard plate 8 is perpendicular to the surface of the engraving sample. Fix it. For the hard plate 8, use a metal plate or a synthetic resin plate as thin as possible. Ru. This is because the thick hard plate 8 widens the gap between the laminated plates 2. For this reason, the hard plate 8 For example, the thickness is 0.03 to 1 mm, preferably 0.05 to 0.5 mm. use.

[0021] A release agent (not shown) is applied to the surfaces of the engraving sample 7 and the hard plate 8.

[0022] As shown in Fig. 4, paste-like rubber is applied to the surfaces of the sculpture sample 7 and the hard plate 8 Apply raw material 9. Silicone rubber is most suitable for the rubber raw material 9.

[0023] The rubber raw material 9 is cured to form a mold. De-shape sculpture sample 7 from the mold Ru.

[0024] The inner shape of the mold made in this way is a three-dimensional shape equivalent to engraving sample 7. It is formed into a shape. Further, a laminate plate 2 is connected to the separation boundary line 1 of the mold.

[0025] The mold manufactured in this state is used as shown in FIG. i.e. Fill the freezing chamber 3 of the mold with water and keep the opening above the water level of the brine solution 5. hold In this state, the laminated plates 2 are in close contact or close to each other, and the brine liquid 5 is interposed between them. The mold is cooled, and the water filled in the freezing chamber 3 of the mold is used to create an ice three-dimensional sculpture. Freeze as a thing. When the mold is immersed in the brine solution 5, as shown in Figure 5. It is also possible to force the laminate 2 into close contact by clamping the outside of the laminate with clips 10. can. The brine liquid 5 that cools the mold is cooled to below 0°C by a cooling means (not shown). cooled down. The brine solution 5 is cooled to 0° C. or lower so as not to freeze, for example. It is an aqueous solution of sodium chloride, calcium, etc.

[0026] 6 to 8 show a mold in which the opening is closed with a closing plate 6. FIG. This formation The shape connects obstructing plates 6 extending upward along the separation boundary line 1 on the upper surface. A mold with this structure is made by immersing the entire freezing chamber 3 in brine liquid 5 to form an ice cube. Body sculpture 4 can be frozen. The three-dimensional ice sculpture 4 frozen in the freezing chamber is indicated by the arrow. As shown, the closure plate 6 can be separated and taken out.

[0027]

[Effect of the idea]

The mold for the three-dimensional ice sculpture of this invention has a laminated plate along the separation boundary line. Ru. A mold with this structure can be immersed in a brine solution to freeze the water, etc. When the laminated plates are placed in close contact with each other, as shown by the solid line in FIG. This form In this process, a freezing chamber with a three-dimensional carved pattern is formed inside the mold. this condition In this state, the three-dimensional ice sculpture is frozen in a freezing chamber. Ice sculpture in a freezing chamber Once the carved material has been frozen, the laminate is expanded to separate the molds, as shown by the chain lines in Figure 2. When the separation line is opened, ice forms inside and the three-dimensional ice sculpture can be easily demolded. this structure The molds can be used in all shapes, including three-dimensional carved patterns with narrow openings and large interiors. You can easily demold ice three-dimensional sculptures. Especially compared to conventional chuck-type molds, It has the advantage of being able to demold ice three-dimensional sculptures with incomparable ease. It is a laminate The reason is that expanding the chuck is extremely easy compared to sliding the chuck. Ru.

[0028] Furthermore, the noteworthy feature of this invention is that it is possible to master the surface of frozen three-dimensional ice sculptures. The reason is that it can freeze beautifully. It is a conventional method that connects a chuck to the separation boundary line. The mold of this invention had a conspicuous boundary line along the chuck, but the mold of this invention This is because this boundary line can be made almost invisible. Furthermore, the mold of this invention Even if a burr-like boundary line is created by the laminated plate, this is not a thin layer of ice. by soaking in water, pouring water over it, or melting this part with a heating iron. Therefore, you can easily melt the ice and create beautiful three-dimensional ice sculptures.

[0029] Furthermore, the mold of this invention requires the use of an expensive watertight chuck. It has an extremely simple structure and is easy to manufacture, so it can be easily and easily manufactured. It also has the advantage of being able to be mass-produced at low cost.

[0030] Furthermore, the mold of this invention reduces the amount of air remaining in the freezing chamber. The feature is that the surface of the product can be formed neatly. It is done by opening the laminate. This is because the areas where it is difficult for water to enter can be widened and air can be exhausted. Sky The air-free freezing chamber is filled with water to create beautiful ice with no dents on the surface. Forming three-dimensional sculptures.

[Brief explanation of drawings]

[Fig. 1] A perspective view showing a mold for a three-dimensional ice sculpture showing one embodiment of this invention.

[Fig. 2] A cross-sectional view showing how the mold shown in Fig. 1 is used.

[Figure 3] Cross-sectional view showing the manufacturing process of the mold

[Figure 4] Cross-sectional view showing the manufacturing process of the mold

[Figure 5] Cross-sectional view showing how the mold is used

[Fig. 6] Side view of a mold showing another embodiment of this invention.

[Figure 7] Cross-sectional view of the mold shown in Figure 6

[Fig. 8] A sectional view of a mold showing another embodiment of this invention.

[Explanation of symbols]

1... Separation boundary line 2... Laminated board 3...Freezing chamber 4...Ice three-dimensional sculpture 5...Brine liquid 6...Occluded plate 7...Engraving sample 8...Hard board 9...Rubber raw material 10...Clip

Claims (2)

[Scope of utility model registration request] Claim 1: A mold comprising a freezing chamber with a three-dimensional sculptural pattern therein and configured to separate along a separation boundary line (1) and take out an ice three-dimensional sculpture frozen in the freezing chamber, A mold for a three-dimensional ice sculpture, characterized by having the following configurations (a) to (f). (a) The mold has a laminate (2) along the separation boundary line (1). (b) The laminate (2) is provided to protrude from the outer surface of the mold. (c) The laminate (2) has a two-layer structure and is made of rubber-like elastic sheets. (d) The outer edges of the laminates (2) are connected in a watertight manner. (e) The inner edges of the laminates (2) are connected along the separation boundary line (1) of the mold. (f) The two laminate plates (2) should be in close contact or close to each other when the liquid is frozen in the mold, and the separation boundary line (1) should be widened when the frozen three-dimensional ice sculpture is taken out. It is composed of 2. A mold comprising a freezing chamber with a three-dimensional sculptural pattern therein and configured to separate along a separation boundary line (1) and take out the frozen three-dimensional sculpture in the freezing chamber, A mold for a three-dimensional ice sculpture, characterized by having the following configurations (a) to (f). (a) The mold has a closing plate (6) along the separation boundary line (1). (b) The closing plate (6) is provided to protrude from the outer surface of the mold. (c) The closing plate (6) has a laminated structure of two sheets and is made of a rubber-like elastic sheet. (d) The outer edges of the stacked closure plates (6) are separated from each other. (e) The inner edge of the closing plate (6) is connected along the separation boundary line (1) of the mold. (f) When the liquid is frozen in the mold, the two closing plates (6) come into close contact with each other or come close to each other.
The upper edge of (6) protrudes from the liquid level of the brine liquid and freezes the ice three-dimensional sculpture inside, and when removing the frozen three-dimensional ice sculpture, the blocking plate (6) is inserted along the separation boundary line (1). It is configured to expand.