CN210579570U - In-mold insert injection molding shell and electronic equipment - Google Patents

Abstract

The utility model relates to an in-mould mold insert shaping technical field provides an in-mould mold insert casing and electronic equipment of moulding plastics, and the in-mould mold insert casing of moulding plastics includes the body. The body is provided with a thin film layer, and one side of the thin film layer, which faces the body, is sequentially provided with at least one first ink layer and at least one second ink layer. When the electronic product is not electrified, no light source beam is emitted from the body, and the light transmittance of the first ink layer in the direction from the second end face to the first end face is greater than that in the direction from the first end face to the second end face, so that the in-mold insert injection molding shell has consistency in appearance, and the effect of consistent integral color difference can be achieved; and under the electronic product on-state, the light source light beam is outwards jetted from the body and penetrates through the pattern, and the light transmittance of the pattern on the second ink layer is greater than that of the first ink layer and greater than that of the second ink layer, so that the illumination brightness of the pattern is higher, and the parameter information of the electronic product is displayed.

Description

In-mold insert injection molding shell and electronic equipment

Technical Field

The utility model relates to an in-mold insert shaping technical field especially provides an in-mold insert casing of moulding plastics and has this in-mold insert electronic equipment of casing of moulding plastics.

Background

The technology of In-mold insert injection Molding (IML for short) has the very obvious characteristics that: the surface of a product produced by the in-mold insert injection molding process is a hardened transparent film, the middle of the product is a printing pattern layer, the back of the product is a plastic layer, the transparent film covers the printing pattern layer, the transparent film is firstly contacted in the using process, the transparent film can protect the product, the wear resistance of the surface of the product is improved, the surface of the product is prevented from being scratched, meanwhile, the printing ink on the printing pattern layer is clamped in the middle of the product, the printing ink can be prevented from being scratched, and the color of the printing ink can be kept bright for a long time.

At present, more and more electronic products are made of shells by adopting an in-mold insert injection molding process, along with the improvement of the consumption level of substances of people, the selection of some consumers on the electronic products is not limited to the functions of the consumers, more and more consumers hope that the purchased electronic products can be used as ornaments when not used, and no parameters or patterns are displayed; the electronic product can be used as an electronic product after being electrified, and the parameters and the pattern information of the electronic product are normally displayed; thus, new requirements are put on the shell structure of the electronic product.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an in-mould inlay piece casing of moulding plastics, the unable problem that realizes under the no circular telegram state of parameter and pattern information demonstration and have under the circular telegram state parameter and pattern information demonstration of the unable realization of casing that aims at solving current electronic product.

In order to achieve the above object, the utility model adopts the following technical scheme: an in-mold insert injection molding shell comprises a body, wherein the body is provided with a thin film layer with light transmittance, one side of the thin film layer facing the body is sequentially provided with at least one first ink layer and at least one second ink layer, the first ink layer is provided with a first end face facing the thin film layer and a second end face facing the body, a reflecting surface used for reflecting part of incident light entering from one side of the thin film layer out of the thin film layer is formed between the thin film layer and the first ink layer, the reflection rate of the incident light entering the reflecting surface from one side of the thin film layer is far greater than that of the incident light entering the reflecting surface from one side of the body, the light transmittance of the light from the second end face of the first ink layer to the thin film layer direction is greater than that of the thin film layer to the second end face of the first ink layer, the second ink layer is provided with patterns corresponding to the light source, and the light transmittance of the patterns is greater than that of the first ink layer and greater than that of the second ink layer.

Specifically, the first ink layer and the second ink layer are both shading ink layers, and the light transmission color of the second ink layer is the same as the light transmission color of the first ink layer.

Specifically, the first ink layer is a shading ink layer, the second ink layer is a semi-transparent ink layer, and the light-transmitting color of the second ink layer is the same as the light-transmitting color of the first ink layer.

Specifically, the pattern is any one of a hollow pattern, a light-transmitting pattern and a semi-light-transmitting pattern which are arranged on the second ink layer.

Preferably, the pattern is a semi-transparent pattern, and the light transmission color of the semi-transparent pattern is the same as the light transmission color of the first ink layer.

Specifically, the sum of the number of layers of the first ink layer and the second ink layer is less than or equal to ten.

Specifically, the body is made of a light-transmitting material, and the light transmittance of the light-transmitting material is 10% -95%.

Specifically, one side of the body, which is far away from the thin film layer, is recessed towards the thin film layer direction to form an accommodating cavity which corresponds to the pattern and is used for accommodating the light source, and the thickness range of the bottom of the accommodating cavity is 0.1-2.0 mm.

Further, the in-mold insert injection molding shell further comprises an adhesive layer, and the adhesive layer is arranged between the body and the second ink layer.

The utility model has the advantages that: the utility model discloses an in-mold insert casing of moulding plastics, from outer to inner, be equipped with thin layer, an at least first printing ink layer and an at least second printing ink layer on the body in proper order. The thin layer plays the effect on protecting first printing ink layer and second printing ink layer, simultaneously, guarantees to be able to see through the thin layer by the body beam of external radiation. When the electronic product is not electrified, no light source beam is emitted from the body, and in addition, the light transmittance of two sides of the first ink layer is different, namely the light transmittance of the light from the second end face of the first ink layer to the thin film layer direction is greater than the light transmittance from the thin film layer to the second end face of the first ink layer direction, so that the in-mold insert injection molding shell has consistency in appearance, and the effect of consistent integral color difference can be achieved; and under the electronic product on-state, the light source light beam is outwards jetted from the body and penetrates through the pattern, and because the light transmittance of the pattern on the second ink layer is greater than the light transmittance of the first ink layer and greater than the light transmittance of the second ink layer, the illumination brightness of the pattern is higher, and the purpose of displaying the parameters and the information of the electronic product is realized.

The utility model also provides an electronic equipment, including the aforesaid mould inner insert casing of moulding plastics.

The utility model has the advantages that: the utility model discloses an electronic product, on the basis that has above-mentioned mould internal mold insert injection moulding casing, when the light-emitting component in the electronic product was not opened, the inside light of electronic product was darker than the normal light under its external environment, because the difference of the luminousness of first printing ink layer both sides, the pattern on second printing ink layer can be sheltered from to first printing ink layer for people can't see the pattern on the second printing ink layer from the outside directly, is favorable to guaranteeing the outward appearance uniformity of electronic product like this; when the light-emitting element in the electronic product is turned on, the light rays in the electronic product are strong, and a small amount of light rays penetrate through the body to irradiate the pattern, so that the pattern or parameter information of the electronic product in use is displayed, and the normal use function of the electronic product is favorably ensured.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a sectional view of an in-mold insert injection molding housing provided by an embodiment of the present invention.

Wherein, in the figures, the respective reference numerals:

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Referring to fig. 1, an in-mold insert injection molding housing 100 according to an embodiment of the present invention includes a body 10. The body 10 is provided with a film layer 20 with light transmission, one side of the film layer 20 facing the body 10 is sequentially provided with at least one first ink layer 31 and at least one second ink layer 32, the first ink layer 31 is provided with a first end face 31a facing the film layer 20 and a second end face 31b facing the body 10, one side of the film layer 20 facing the first ink layer 31 is a smooth plane, a (one-way) reflecting face for reflecting part of incident light entering from one side of the film layer 31 out of the film layer 31 is formed between the film layer 20 and the first ink layer 31, the reflection rate of the incident light entering the reflecting face from one side of the film layer 31 is far greater than that of the incident light entering the reflecting face from one side of the body 10, the light transmittance of the light in the direction from the second end face 31b of the first ink layer 31 to the thin film layer 20 is greater than the light transmittance in the direction from the thin film layer 20 to the second end face 31b of the first ink layer 31. The second ink layer 32 is provided with a pattern 32a corresponding to the light source, and the light transmittance of the pattern 32a is greater than that of the first ink layer 31 and greater than that of the second ink layer 32.

It should be noted that the (unidirectional) reflection surface is not absolutely only unidirectional reflection, but only means that the reflection rate of light entering from one side of the reflection surface is much higher than the reflection rate of light entering from the opposite side, the light can only be transmitted in one direction by human eyes, the reflection rate of light entering from one side of the reflection surface is very high, and the reflection rate of light entering from the opposite side is very low, so that the light transmittance of light entering from one side of the reflection surface is very low, the light transmittance of light entering from the opposite side of the reflection surface is high, the reflection and transmission principles are similar to those of a common double-sided mirror with unidirectional perspective function, and the setting and effect of the reflection surface during actual operation are subject to the requirement that the light can only be transmitted in one direction through the film layer 20 and the first ink layer 31 under the condition of visible light in a normal room; the following were referenced for specific testing: observing the film layer 20 provided with the first ink layer 31 against light (under outdoor light or normal indoor light conditions), wherein light transmission cannot be observed from one side of the first ink layer 31 when the film layer 20 is against light, namely, after shading treatment is carried out on the periphery of one side of the first ink layer 31, light transmission cannot be observed from one side of the ink layer by visual observation; in addition, when the first ink layer 31 side is illuminated, weak light can be observed from the thin film layer 20 side, that is, after the periphery of the thin film layer 20 side is shaded, weak light can be observed from the thin film layer 20 side by visual inspection; of course, the light transmittance of the two sides of the thin film layer 20 provided with the first ink layer 31 can be detected by using a corresponding optical detection instrument to meet the requirements of one side shading and the other side light transmission under the normal indoor light condition, so that the thickness or the number of layers of the first ink layer 31 can be adjusted conveniently.

When light irradiates the body 10 from the thin film layer 20, most of the light is reflected out of the thin film layer 20 by the reflecting surface, and the first ink layer 31 has a certain shading effect, so that the light finally enters the pattern 32a on the second ink layer 32 after passing through the first ink layer 31 from one side of the thin film layer 20, namely, the light transmittance of the light is extremely low when the light enters the second ink layer 32 from one side of the thin film layer 20, and even if a small amount of light enters the pattern 32a on the second ink layer 32 from one side of the thin film layer 20, the reflected light illuminating the pattern 32a is difficult to penetrate through the first ink layer 31 and the thin film layer 20 and then is emitted; after the electronic product is assembled, the internal structure of the electronic product is in a closed environment, and the internal light is weak, so even if the light transmittance from the first ink layer 31 to the thin film layer 20 is strong, the light inside the electronic product cannot illuminate the pattern 32a and finally passes through the thin film layer 20, so when no light source beam illuminates the body 10 and only the light in the surrounding environment illuminates one side of the thin film layer 20, the pattern 32a cannot be observed; after the light source inside the electronic product is turned on, the light beam of the light source can make up for the defect of insufficient light inside the electronic product (i.e. insufficient light on one side of the body 10), so as to illuminate the pattern 32a, and make the illuminated pattern 32a show through the first ink layer and the thin film layer 20.

The embodiment of the utility model provides a casing 100 is moulded plastics to mold insert in, from outer to inner, be equipped with thin layer 20, an at least first printing ink layer 31 and an at least second printing ink layer 32 on body 10 in proper order. The film layer 20 plays a role of protecting the first ink layer 31 and the second ink layer 32, and at the same time, it is ensured that the light beam radiated outward from the body 10 can penetrate the film layer 20. When the electronic product is not powered on, no light source beam is emitted from the body 10, and in addition, the difference of the light transmittance of the two sides of the first ink layer 31, that is, the light transmittance of the light from the second end face 31b of the first ink layer 31 to the direction of the thin film layer 20 is greater than the light transmittance from the thin film layer 20 to the direction of the second end face 31b of the first ink layer 31, so that the in-mold insert injection molding shell 100 has consistency in appearance, and the effect of consistent integral color difference can be achieved; when the electronic product is powered on, the light source beam is emitted from the body 10 and penetrates through the pattern 32a, and since the light transmittance of the pattern 32a on the second ink layer 32 is greater than the light transmittance of the first ink layer 31 and greater than the light transmittance of the second ink layer 32, the illumination brightness at the pattern 32a is higher, and the purpose of displaying the parameters and information of the electronic product is achieved.

Specifically, in this embodiment, the first ink layer 31 is a light-shielding ink, the second ink layer 32 is a light-shielding ink or a semi-transparent ink, and a transparent color of the second ink layer 32 is the same as or close to a transparent color of the first ink layer 31, where "close" means that a color between the two allows a certain color difference or a depth allows a small difference, and may not be completely the same in an absolute sense, and thus, the transparent color refers to a color of a light beam filtered by the ink layers. Thus, the light shielding effect of the body 10 in the absence of light source is advantageously improved, that is, the internal light source of the electronic product cannot be transmitted to the outside from the pattern 32a, so that the in-mold insert injection molding housing 100 has consistency in appearance.

Specifically, in the present example, the pattern 32a is a hollow pattern or a light-transmitting pattern provided on the second ink layer 32. In this way, it is beneficial for the light source beam inside the electronic product to pass through the pattern 32a, so that the user can easily observe the parameters and information of the electronic product from the exterior of the in-mold insert injection molding housing 100.

Preferably, in the present embodiment, the pattern 32a is a semi-transparent pattern, the transparent color of the semi-transparent pattern is the same as or close to the transparent color of the first ink layer 31, where "close" means that the colors between the two allow a certain color difference or the shade allows a small difference, and may not be completely the same in absolute sense. Thus, the in-mold insert injection molded housing 100 has a consistent appearance in the absence of a light source.

Specifically, in this embodiment, the sum of the number of layers of the first ink layer 31 and the second ink layer 32 is ten layers or less. Preferably, the number of layers of the first ink layer 31 and the second ink layer 32 is three, in actual operation, the number of layers of the first ink layer 31 and the second ink layer 32 can be set as required, so that the first ink layer 31 can block the pattern 32a on the second ink layer 32 when the electronic product is in a non-energized state, the pattern 32a on the second ink layer 32 is illuminated in operation, of course, the thickness of the first ink layer 31 and the thickness of the second ink layer 32 also have a certain influence on the light shielding performance of the first ink layer 31 and the second ink layer 32 in actual operation, so that the specific number of layers and the thickness of each layer can be set according to actual conditions, and the specific number of layers and the thickness of each layer are.

Specifically, in the embodiment, the body 10 is a transparent material body, and the light transmittance of the transparent material body is in a range of 10% to 95%.

Specifically, referring to fig. 1, in the present embodiment, an accommodating cavity 10a corresponding to the pattern 32a and used for accommodating the light source is formed in a concave manner in a direction toward the thin film layer 20 on a side of the body 10 away from the thin film layer 20, and a bottom thickness of the accommodating cavity 10a ranges from 0.1mm to 2.0 mm. That is, the light source of the electronic product is installed at the accommodating cavity 10a, which is beneficial to illuminating the bottom of the accommodating cavity 10a and then illuminating the pattern 32a on the second ink layer 32 after the light emitting element is turned on, so that the pattern 32a and the parameter information of the electronic product in use can be observed from the outside of the in-mold insert injection molding housing 100. Preferably, the bottom thickness of the accommodating cavity 10a may be any one of 0.1mm, 0.2mm, 0.3mm, 0.4mm, 0.5mm, 0.6mm, 0.7mm, 0.mm, 0.9mm, 1.0mm, 1.1mm, 1.2mm, 1.3mm, 1.4mm, 1.5mm, 1.6mm, 1.7mm, 1.8mm, 1.9mm, and 2.0 mm.

Further, referring to fig. 1, in the present embodiment, the in-mold insert injection molding housing 100 further includes an adhesive layer 40, and the adhesive layer 40 is disposed between the body 10 and the second ink layer 32. Specifically, the adhesive layer 40 is a transparent or semi-transparent adhesive layer, when the adhesive layer 40 is a semi-transparent adhesive layer, the transparent color of the adhesive layer is the same as or close to the transparent color of the first ink layer 31, where "close" means that the color between the two allows a certain color difference or a small difference in depth, which may not be completely the same in an absolute sense, and the adhesive layer 40 can protect the first ink layer 31 and the second ink layer 32 when the body 10 is injection-molded onto a film, so that the first ink layer 31 and the second ink layer 32 can be prevented from being damaged to affect the use effect.

The embodiment of the utility model provides an electronic product is still provided, including above-mentioned mould internal mold insert casing 100 of moulding plastics.

On the basis of the in-mold insert injection molding shell 100, when a light emitting element in an electronic product is not turned on, the internal light of the electronic product is darker than the normal light of the external environment, and due to the difference of the light transmittances of the two sides of the first ink layer 31, the first ink layer 31 can shield the pattern 32a of the second ink layer 32, so that people cannot directly see the pattern 32a on the second ink layer 32 from the outside, which is beneficial to ensuring the appearance consistency of the electronic product; when the light-emitting element in the electronic product is turned on, the light in the electronic product is strong, and a small amount of light passes through the body 10 and irradiates the pattern 32a, so that the pattern 32a or parameter information of the electronic product in use is displayed, and the normal use function of the electronic product is ensured.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. An in-mold insert injection molding casing which is characterized in that: the light source comprises a body, the body is provided with a thin film layer with light transmission, one side of the thin film layer facing the body is sequentially provided with at least one first ink layer and at least one second ink layer, the first ink layer is provided with a first end face facing the thin film layer and a second end face facing the body, a reflecting surface used for reflecting part of incident light entering from one side of the thin film layer out of the thin film layer is formed between the thin film layer and the first ink layer, the reflection rate of the incident light entering from one side of the thin film layer into the reflecting surface is far greater than that of the incident light entering from one side of the body into the reflecting surface, the light transmittance in the direction from the second end face of the first ink layer to the thin film layer is greater than that of the thin film layer to the second end face of the first ink layer, and the second ink layer is provided with patterns corresponding, the light transmittance of the pattern is greater than that of the first ink layer and greater than that of the second ink layer.

2. The in-mold insert injection molding housing according to claim 1, wherein: the first ink layer and the second ink layer are shading ink layers, and the light transmission color of the second ink layer is the same as that of the first ink layer.

3. The in-mold insert injection molding housing according to claim 1, wherein: the first ink layer is a shading ink layer, the second ink layer is a semi-transparent ink layer, and the light-transmitting color of the second ink layer is the same as that of the first ink layer.

4. The in-mold insert injection molding housing according to any one of claims 1 to 3, wherein: the pattern is any one of a hollow pattern, a light-transmitting pattern and a semi-light-transmitting pattern which are arranged on the second ink layer.

5. The in-mold insert injection housing according to claim 4, wherein: the pattern is a semi-transparent pattern, and the light transmission color of the semi-transparent pattern is the same as the light transmission color of the first ink layer.

6. The in-mold insert injection molding housing according to any one of claims 1 to 3, wherein: the sum of the number of the first ink layer and the second ink layer is less than or equal to ten.

7. The in-mold insert injection molding housing according to claim 1, wherein: the body is a light-transmitting material body, and the light transmittance range of the light-transmitting material body is 10% -95%.

8. The in-mold insert injection molded housing according to claim 1 or 7, wherein: one side of the body, which deviates from the thin film layer, is recessed towards the direction of the thin film layer to form an accommodating cavity which corresponds to the pattern and is used for accommodating the light source, and the thickness of the bottom of the accommodating cavity ranges from 0.1mm to 2.0 mm.

9. The in-mold insert injection molding housing according to claim 1, wherein: the in-mold insert injection molding shell further comprises an adhesive layer, and the adhesive layer is arranged between the body and the second ink layer.

10. An electronic device, characterized in that: comprising an in-mold insert injection molded housing according to any of claims 1 to 9.

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