CN114348441A - Container with color refraction and reflection display effect, manufacturing method of container and mold corresponding to container - Google Patents

Abstract

The invention relates to a container with color refraction and reflection display effects, a manufacturing method of the container and a mold corresponding to the container, wherein the container is a light-transmitting cup-shaped container with an upward opening; the bottom surface of the outer wall of the container is provided with colors, the peripheral surface of the outer wall is provided with grains, and the cross section of the peripheral surface of the inner wall is arc-shaped; the light from the bottom surface of the outer wall is reflected by the circumferential surface of the inner wall, faces the circumferential surface of the outer wall and is refracted to the outside of the container through the circumferential surface of the outer wall to form the color refraction and reflection display effect. When the container is used, a user observes the container in different sight directions, can see the display effect of different colors on the peripheral surface of the outer wall, can fill a candle into the container, and when the candle burns, candle light is refracted and reflected through the wall of the container cup to form special dynamic fusion light effect, so that the container has artistic aesthetic feeling. In addition, the container of this application only colors at the outer wall bottom surface, compares in prior art and colors at outer wall global, environmental protection more.

Description

Container with color refraction and reflection display effect, manufacturing method of container and mold corresponding to container

Technical Field

The present disclosure relates to container technologies, and particularly to a container with color refraction and reflection display effects, a method for manufacturing the container, and a mold corresponding to the container.

Background

The surface patterns of the prior art cups (such as candle cups) are colored directly on the surface of the outer wall of the cup, the traditional coloring mode comprises adhering stained paper, spraying paint and the like, and the colored patterns are fixed on the wall of the cup, so that the cup has no variability and is easy to cause aesthetic fatigue. In addition, the paint spraying also easily causes pollution to the environment.

Therefore, there is a need for a container with a cup wall color pattern having a variable display effect and which is more environmentally friendly.

Disclosure of Invention

The present invention is directed to overcome the above-mentioned disadvantages of the prior art, and provides a container with a cup wall displaying colors with a variable display effect and a more environmentally friendly color refraction and reflection display effect, a method for manufacturing the container, and a mold corresponding to the container.

In order to achieve the above object, the present invention has the following configuration:

the invention comprises a container with color refraction and reflection display effect, which is a transparent cup-shaped container with an upward opening;

the bottom surface of the outer wall of the container is provided with colors, the peripheral surface of the outer wall is provided with grains, and the cross section of the peripheral surface of the inner wall is arc-shaped; the light from the bottom surface of the outer wall is reflected by the circumferential surface of the inner wall, faces the circumferential surface of the outer wall and is refracted to the outside of the container through the circumferential surface of the outer wall to form the color refraction and reflection display effect.

In the container with the color refraction and reflection display effect, the peripheral lines of the outer wall are a plurality of grooves arranged around the peripheral surface of the outer wall in the horizontal direction.

In the container with the color refraction and reflection display effect, the cross section of the groove is semicircular, and a chamfer is arranged at the joint of the groove and the peripheral surface of the outer wall.

In the container with the color refraction and reflection display effect, the arrangement distance of the grooves is gradually reduced from the bottom of the container to the top of the container.

In the container with the color refraction and reflection display effect, the section line of the peripheral surface of the inner wall is an arc line with the horizontal distance from the top of the container to the bottom surface of the inner wall increased from the peripheral surface of the outer wall, and the shape of the arc line influences the display effect of the color on the peripheral surface of the outer wall.

In the container with the color refraction and reflection display effect, the peripheral surface of the inner wall continuously extends downwards to form an arc surface to form the bottom surface of the inner wall of the container.

In the container with the color refraction and reflection display effect, the bottom surface of the inner wall of the container is a plane.

In the container with the color refraction and reflection display effect, the light-transmitting cup-shaped container is a glass container, and a candle is filled in the container.

The application also comprises a mold for manufacturing the container with the color refraction and reflection display effect, wherein the mold comprises an inner mold and an outer mold, and when the inner mold and the outer mold are matched, the middle cavity area is cup-shaped;

the cross section of the outer peripheral surface of the inner die is arc-shaped, and the width of the outer peripheral surface is increased from the bottom of the inner die to the top;

the outer mould comprises a plurality of convex rings which are respectively arranged along the horizontal direction of the inner surface, the arrangement intervals of the convex rings are gradually reduced from bottom to top, the cross section of each convex ring is semicircular, and a chamfer angle is arranged at the joint of each convex ring and the inner surface of the outer mould.

The application also includes a method of manufacturing a container using the above mold, comprising the steps of

S1, injecting a light-transmitting material solution into the outer mold;

s2, the inner die is die-cast downwards along the axis of the outer die to form a container, the peripheral surface of the outer wall of the container is provided with a groove corresponding to the convex ring, and the cross-sectional shape of the inner peripheral wall surface of the container is an arc shape corresponding to the outer peripheral surface of the die;

s3, polishing the container after die-casting;

and S4, forming color on the outer surface of the bottom of the container.

The container with the color refraction and reflection display effect, the manufacturing method of the container and the mold corresponding to the container are adopted, and the container is a light-transmitting cup-shaped container with an upward opening; the bottom surface of the outer wall of the container is provided with colors, the peripheral surface of the outer wall is provided with grains, and the cross section of the peripheral surface of the inner wall is arc-shaped; the light from the bottom surface of the outer wall is reflected by the circumferential surface of the inner wall, faces the circumferential surface of the outer wall and is refracted to the outside of the container through the circumferential surface of the outer wall to form the color refraction and reflection display effect. When the container is used, a user observes the container in different sight directions, can see the display effect of different colors on the peripheral surface of the outer wall, and can also fill a candle into the container, when the candle burns, candle light is refracted and reflected through the wall of the container cup to form special dynamic light effect, and the container has artistic aesthetic feeling. In addition, the container of this application only colors at the outer wall bottom surface, compares in prior art and colors at outer wall global, environmental protection more.

Drawings

FIG. 1 is a schematic view of a container structure and a ray path diagram of a first preferred embodiment of the present application;

FIG. 2 is a schematic view of a container structure and a ray path diagram of a second preferred embodiment of the present application;

FIG. 3 is a schematic view of a container structure and a light path diagram of a third preferred embodiment of the present application;

FIG. 4 is a bottom view of the outer wall illustrating the practical effects of the preferred embodiment of the present application;

FIG. 5 is a front view showing the actual effect of the preferred embodiment of the present application;

FIG. 6 is an oblique top view of the actual effect of the preferred embodiment of the present application;

FIG. 7 is a schematic view of a preferred candle-containing container construction and light path;

FIG. 8 is a front view of the actual effect of the preferred candle-filled container of the present application;

FIG. 9 is an oblique top view of the actual effect of the preferred candle-filled container of the present application;

FIG. 10 is a step diagram of the container manufacturing method of the present application;

description of the symbols: an outer wall peripheral surface 1; an outer wall bottom surface 2; an inner wall peripheral surface 3; a groove 4; candle light 5.

Detailed Description

The technical solutions in the embodiments of the present disclosure will be clearly and completely described below with reference to the accompanying drawings, and it is to be understood that the described embodiments are only some embodiments of the present disclosure, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the disclosed embodiments without making any creative effort, also belong to the protection scope of the present invention.

As used in this application and the appended claims, the terms "a," "an," "the," and/or "the" are not intended to be inclusive in the singular, but rather are intended to be inclusive in the plural unless the context clearly dictates otherwise. The terms "first" and "second" are not limiting words, and are used for explanation only and understanding of the technical solutions of the present invention, and the terms "first" and "second" may be substituted for each other. In general, the terms "comprises" and "comprising" merely indicate that steps and elements are included which are explicitly identified, that the steps and elements do not form an exclusive list, and that a method or apparatus may include other steps or elements. Embodiments of the invention may be referred to, individually and/or collectively, by the term "embodiment" in this protocol for convenience only if more than one embodiment or inventive concept is in fact recited in the present application and is not intended to limit the scope of the present application to any one embodiment or inventive concept.

The components, relative arrangements, functions, and numerical values set forth in these embodiments do not limit the scope of the present invention unless specifically stated otherwise. Also, it is apparent that the dimensions of the various parts shown in the drawings are not drawn to scale in practice for ease of description. Techniques, methods and apparatus that are known to those of ordinary skill in the relevant art have not been described in detail for the time being, but are intended to be part of the specification as appropriate. In all examples shown and discussed herein, any particular value should be construed as exemplary only and not as a limitation.

The invention comprises a container with color refraction and reflection display effect, which is a transparent cup-shaped container with an upward opening;

the bottom surface of the outer wall of the container is provided with colors, the peripheral surface of the outer wall is provided with grains, and the cross section of the peripheral surface of the inner wall is arc-shaped; the light from the bottom surface of the outer wall is reflected by the circumferential surface of the inner wall, faces the circumferential surface of the outer wall and is refracted to the outside of the container through the circumferential surface of the outer wall to form the color refraction and reflection display effect.

For convenience of explanation and explanation, the following description will refer to the outer wall bottom surface and the outer wall peripheral surface collectively as the outer wall surface, and the inner wall peripheral surface and the inner wall bottom surface collectively as the inner wall surface.

In the preferred embodiment, as shown in FIG. 1, light ray A, B, C, D is used as an example to illustrate the reflected path of the light ray inside the container material and the path of the light ray refracted out of the container, it being understood that in practice the light ray is not limited to the number and path illustrated by light ray A, B, C, D, and as such, the following list of light rays in this application is illustrative and should not be construed as limiting. In the example of fig. 1, the light ray A, B, C, D starts at the bottom of the container and goes upward perpendicular to the bottom of the container to reach the inner wall surface of the container, the light ray D returns after being reflected at the bottom of the planar inner wall, the light ray A, B, C is reflected by the inner wall surface of the container and goes toward the outer wall surface of the container, the inner wall surface in the example is a cambered surface, the slope corresponding to the cambered surface closer to the bottom surface of the container is about small, and the surfaces where the tangents of the light rays A, B, C respectively contact the cambered surface are used as reflection surfaces and are reflected toward the outer wall surface of the container (the embodiment of the light ray A, B, C is refracted to enter the outside of the container is not detailed). The directions of reflection of light rays A, B, C are respectively as shown in fig. 1. The path of the light ray a to the outer wall of the container and refracted out of the container is also shown in fig. 1. The path of the refracted light ray B, C out of the container is not shown in fig. 1, it being understood that light ray B, C could also be refracted out of the container. In the embodiment of fig. 1, the color of the bottom surface 2 of the outer wall is reflected and refracted by the path exemplified by the light ray A, B, C, so as to form a color effect which can be observed by human eyes and is displayed on the peripheral surface 1 of the outer wall of the container, and the color effect has an artistic display effect of amplification, blurring and gradual change compared with the color of the bottom surface 2 of the outer wall.

In other embodiments, the cross-sectional line of the inner wall peripheral surface 3 is an arc line with a horizontal distance from the outer wall peripheral surface 1 increasing from the top of the container to the bottom surface of the inner wall, and the shape of the arc line affects the display effect of the color on the outer wall peripheral surface 1. As shown in fig. 2, the horizontal distance between the section line of the peripheral surface 3 of the inner wall and the peripheral surface 1 of the outer wall increases from the top of the container to the bottom surface of the inner wall, and the arc lines are changed as shown in the left cup wall of the container in fig. 2, for comparison, the right cup wall is the same as that shown in fig. 1, but it should be understood that, in actual use, the left and right cup walls may have the same shape. In the example shown in fig. 2, as in fig. 1, the light ray A, B, C, D is taken as an example to illustrate the reflection path of the light ray inside the container material and the path refracted out of the container, the light ray C, D is reflected at the bottom of the planar inner wall and returns, the light ray A, B is reflected by the inner wall surface of the container and faces the outer wall surface of the container, and the surface where the tangent line of the contact position of the light ray A, B with the inner wall surface is respectively located is taken as a reflection surface and is reflected towards the outer wall surface of the container. The directions of reflection of light rays A, B, respectively, are shown in fig. 2. Compared with fig. 1, the section arcs of the inner wall peripheral surface 3 in fig. 2 are different, in the embodiment of fig. 2, the light ray C directly enters the outside of the container through the inner wall bottom surface and does not reach the outer wall peripheral surface 1 of the container through reflection, so that the display range of the colors of the outer wall bottom surface 2 in fig. 2 is different from that of the embodiment of fig. 1, and the partial color from the point of the light ray B on the outer wall bottom surface 2 to the point of the light ray D on the outer wall peripheral surface 1 in the embodiment of fig. 2 cannot be displayed. In addition, the display heights of the light rays A, B on the outer wall peripheral surface 1 in the embodiment of fig. 2 are respectively lower than the display heights of the light rays A, B in the embodiment of fig. 1. Therefore, changing the shape of the inner wall peripheral surface 3 can change the display range of the color of the outer wall bottom surface 2 and the display range of the color on the outer wall peripheral surface 1.

It should be understood that in other embodiments, the shape of the cup wall is not limited to the shape shown in fig. 1 or fig. 2, the shape of the inner wall peripheral surface 3 is not limited to an arc shape, and may be any shape that is not perpendicular to the outer wall bottom surface 2, and different shapes may have different color display effects on the outer wall peripheral surface 1. The shape of the cup wall may also be non-uniform, as in the embodiment shown in fig. 2, where different color displays are visible when the container is viewed from different ranges.

The bottom surface of the inner wall of the embodiment of fig. 1 and 2 is a flat surface. As the light ray D in fig. 1 and the light ray C, D in fig. 2 return through the plane, in some embodiments applying this solution, because the bottom surface of the inner wall of the container is a plane, the light ray under the plane is not reflected to the outer wall peripheral surface 1, and the bottom of the outer wall peripheral surface 1 of the container has no color display. In other preferred embodiments, as shown in fig. 3, the inner wall peripheral surface 3 extends downward to form an arc surface to form an inner wall bottom surface of the container, i.e. the inner wall bottom surface is an arc surface continuous with the inner wall peripheral surface 3. The corresponding position of the light ray E in fig. 1 is below the planar inner wall bottom surface, and in the embodiment of fig. 3, the light ray E reaches the inner wall bottom surface which is a cambered surface and then is reflected towards the outer wall peripheral surface 1, and the reflection path is as shown in fig. 3. Therefore, when the bottom surface of the inner wall is an arc surface, the bottom of the peripheral surface 1 of the outer wall of the container has a color display effect. Therefore, the change in the shape of the bottom surface of the inner wall affects the color display effect of the peripheral surface 1 of the outer wall of the container, and the color display effect of the peripheral surface 1 of the outer wall of the container can be changed by changing the shape of the bottom surface of the inner wall.

The bottom surface of the outer wall of the container is colored to the surface, or a colored bottom surface of the outer wall (e.g., a colored glass bottom surface) is used. In a preferred embodiment, the bottom surface of the outer wall is covered with a full color, and the display range of the color on the peripheral surface of the outer wall in the embodiment is maximum in comparison with other coverage ranges at the same viewing angle. Other preferred embodiments further include that the colors cover the bottom surface of the outer wall in a circular shape (that is, a blank circle that is not colored is left at the center of the circle of the bottom surface of the outer wall, and the colors are colored at other positions), and the display effect of the colors at the peripheral surface of the outer wall is not obvious, so that the technical scheme of the embodiment can achieve the maximum benefit of color use. In addition, the display device also comprises any range of coloring on the bottom surface of the outer wall, and different coloring ranges can have different display effects on the peripheral surface of the outer wall. A preferred colored container outer wall bottom surface 2 is shown in fig. 4. Reference may be made to the bottom of the corresponding outer wall of the container shown in figures 5, 6, 8 and 9 described below.

As shown in fig. 5 and 6, the colors at the bottom of the outer wall in fig. 5 and 6 are reflected and refracted to show the gradual color display effect of the peripheral surface 1 of the outer wall, which can be observed by naked eyes, fig. 5 is a front view, and fig. 6 is a downward oblique top view, so that the color display effect of the peripheral surface 1 of the outer wall is different at different visual observation angles.

In a preferred embodiment, as shown in fig. 1 and 2, the pattern of the outer wall peripheral surface 1 is a plurality of grooves 4 arranged around the outer wall peripheral surface 1 in the horizontal direction, the cross-sectional shape of the groove 4 is semicircular, and a chamfer is arranged at the connection position of the groove 4 and the outer wall peripheral surface 1. The groove 4 can change the color display effect observed by naked eyes on the peripheral surface 1 of the outer wall, and the refraction path of light at the groove 4 can be changed by arranging the groove 4. In the case of the containers with different viewing angles as shown in fig. 5 and 6, the grooves 4 and the outer wall periphery 1 have different color display effects as a whole. In fig. 5, the color display at the groove 4 is less, the groove 4 at the top of the peripheral surface 1 of the outer wall does not display the color effect, the groove 4 at the lower part of the peripheral surface 1 of the outer wall cuts off the overall color display effect of the peripheral surface 1 of the outer wall, and the groove becomes the artistic display effect with the corrugation, and the lower half part of the groove 4 displays the color display. As shown in fig. 6, after changing the visual angle, the color display effect in the groove 4 and the overall color display effect of the peripheral surface 1 of the outer wall all change, the color at the groove 4 becomes obvious compared with that in fig. 5, the groove 4 at the top of the peripheral surface 1 of the outer wall displays the color effect, the groove 4 at the lower part of the peripheral surface 1 of the outer wall presents the line shape in the overall color display effect of the peripheral surface 1 of the outer wall, and the overall color effect is not cut off for display. Therefore, the ornamental value of the container can be improved by adding the groove 4, and the groove 4 is further added on the basis that the container is observed to display different color display effects through different visual angles, so that the artistry of the display effects is improved, and the distinctiveness of the different visual angles is improved.

In a preferred embodiment, the arrangement pitch of the grooves 4 is gradually reduced from the bottom to the top of the container. This technical scheme further promotes recess 4 to the influence of whole color display effect, makes the display effect more have the structure aesthetic feeling. When viewed from the front as shown in fig. 5, the color divisions having the adjacent grooves 4 as dividing lines gradually decrease from bottom to top. As shown in fig. 6, the reduction range of the arrangement distance of the grooves 4 is further enlarged by the oblique overlooking visual angle, so that the color display of the adjacent grooves 4 presents the aesthetic feeling of a gradually-widened structure from top to bottom.

In a preferred embodiment, the container can be used as a candle cup, the light-transmitting cup-shaped container is a glass container, a candle is filled in the container, and fig. 8 and 9 are color display effect diagrams focusing on the peripheral surface 1 of the outer wall after the candle. Referring to fig. 7, which illustrates the path of light from candle 5 when the candle is burning in a container, there is shown light F, G, H, light F, G, H starting from candle 5 refracts into the container after reaching the inner wall peripheral surface 3 of the container and then refracts out of the container into the atmosphere, and exemplary light F, G, H path is shown in fig. 7. In this embodiment, candle light 5 enters the container and because the air density is less than the container density, the angle of refraction is less than the angle of incidence and when light is emitted through the container and out of the container, the angle of refraction is greater than the angle of incidence. Therefore, the candlelight 5 has a magnified display effect when observed with the naked eye at the outer wall peripheral surface 1. And because candle light 5 is beating, the display effect of the peripheral 1 of outer wall presents the enlarged candle light 5 of change, because the peripheral 1 of outer wall is provided with recess 4, has promoted the hierarchy nature that candle light 5 shows.

In practical use, the candle is through burning, and its light source reduces inside the container gradually, and when candle light just started burning, candle light is at the non-intersect of the display effect of the global display effect of outer wall and the color of outer wall bottom surface at the global display effect of outer wall, and along with going on of burning, candle light's display effect descends to outer wall bottom surface gradually, and is crossing with the display effect of the color of bottom of cup, is presented in the display effect that candle light and outer wall bottom surface color fuse mutually. The fusion reality effect is that the colors are fused from part to all together along with the depth of the intersection degree after the intersection, and the color display effect is changed continuously, so that the interestingness and the ornamental value are very high.

In a preferred embodiment, the color of the bottom surface of the outer wall is colored by pasting stained paper, painting or silk-screen printing. To the mode of coloring that sprays paint, prior art's container is colored at the outer wall global, and the paint vehicle that needs is more, pollutes heavier, and this application technical scheme only needs color at the outer wall bottom surface, the paint vehicle that has significantly reduced needs, environmental protection more.

The application also comprises a mold for manufacturing the container with the color refraction and reflection display effect, wherein the mold comprises an inner mold and an outer mold, and when the inner mold and the outer mold are matched, the middle cavity area is cup-shaped;

the cross section of the outer peripheral surface of the inner die is arc-shaped, and the width of the outer peripheral surface is increased from the bottom of the inner die to the top;

the outer mould comprises a plurality of convex rings which are respectively arranged along the horizontal direction of the inner surface, the arrangement intervals of the convex rings are gradually reduced from bottom to top, the cross section of each convex ring is semicircular, and a chamfer angle is arranged at the joint of each convex ring and the inner surface of the outer mould.

The shapes of the inner die and the outer die correspond to the container, so that the structural characteristics of the container can be correspondingly applied to the inner die and the outer die.

The present application further comprises a method of manufacturing a container using the above-described mold, comprising the steps of

S1, injecting a light-transmitting material solution into the outer mold;

s2, the inner die is die-cast downwards along the axis of the outer die to form a container, the peripheral surface of the outer wall of the container is provided with a groove corresponding to the convex ring, and the cross-sectional shape of the inner peripheral wall surface of the container is an arc shape corresponding to the outer peripheral surface of the die;

s3, polishing the container after die-casting;

s4, coloring the outer surface of the bottom of the container;

and S5, pouring the candle into the container.

The foregoing is illustrative of the present invention and is not to be construed as limiting thereof. Although a few exemplary embodiments of the present invention have been described, those skilled in the art will readily appreciate that many modifications are possible in the exemplary embodiments without materially departing from the novel teachings and advantages of this invention. Accordingly, all such modifications are intended to be included within the scope of this invention as defined in the claims. It is to be understood that the foregoing is illustrative of the present invention and is not to be construed as limited to the specific embodiments disclosed, and that modifications to the disclosed embodiments, as well as other embodiments, are intended to be included within the scope of the appended claims. The invention is defined by the claims and their equivalents.

Claims (10)

1. A container with color refraction and reflection display effect is characterized in that the container is a light-transmitting cup-shaped container with an upward opening;

the bottom surface of the outer wall of the container is provided with colors, the peripheral surface of the outer wall is provided with grains, and the cross section of the peripheral surface of the inner wall is arc-shaped; the light from the bottom surface of the outer wall is reflected by the circumferential surface of the inner wall, faces the circumferential surface of the outer wall and is refracted to the outside of the container through the circumferential surface of the outer wall to form the color refraction and reflection display effect.

2. The container with color refraction and reflection display effect as claimed in claim 1, wherein the outer wall peripheral surface is provided with a plurality of grooves arranged around the outer wall peripheral surface in the horizontal direction.

3. The container with color refraction and reflection display effect as claimed in claim 2, wherein said groove has a semicircular cross-sectional shape, and a chamfer is provided at the connection of said groove and the outer peripheral surface.

4. The container with color refraction and reflection display effect according to claim 2, wherein the arrangement pitch of said grooves is gradually decreased from the bottom to the top of the container.

5. The container of claim 1, wherein the cross-sectional line of the inner wall perimeter is an arc that increases in horizontal distance from the outer wall perimeter from the top of the container to the bottom of the inner wall, the arc having a shape that affects the color displayed on the outer wall perimeter.

6. The container with color refraction and reflection display effect according to claim 5, wherein said inner wall periphery surface extends downward to form an arc surface to form an inner wall bottom surface of said container.

7. The container with color refraction and reflection display effect according to claim 1 or 5, wherein the bottom surface of the inner wall of the container is a plane.

8. The container with color refraction and reflection display effect as claimed in claim 1, wherein said light-transparent cup-shaped container is a glass container, and a candle is filled in the container.

9. A mould for manufacturing a container with a color refraction and reflection display effect is characterized by comprising an inner mould and an outer mould, wherein when the inner mould and the outer mould are matched, a middle cavity area is in a cup shape;

the cross section of the outer peripheral surface of the inner die is arc-shaped, and the width of the outer peripheral surface is increased from the bottom of the inner die to the top;

the outer mould comprises a plurality of convex rings which are respectively arranged along the horizontal direction of the inner surface, the arrangement intervals of the convex rings are gradually reduced from bottom to top, the cross section of each convex ring is semicircular, and a chamfer angle is arranged at the joint of each convex ring and the inner surface of the outer mould.

10. A method of manufacturing a container using the mold of claim 9, comprising the steps of

S1, injecting a light-transmitting material solution into the outer mold;

s2, the inner die is die-cast downwards along the axis of the outer die to form a container, the peripheral surface of the outer wall of the container is provided with a groove corresponding to the convex ring, and the cross-sectional shape of the inner peripheral wall surface of the container is an arc shape corresponding to the outer peripheral surface of the die;

s3, polishing the container after die-casting;

and S4, forming color on the outer surface of the bottom of the container.

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