CN210574657U - Substrate with velvet touch feeling and product packaging shell - Google Patents

Abstract

The utility model relates to a substrate and product packaging shell with velvet sense of touch. The base material includes: a substrate body having a surface to be modified; a plurality of first raised lines which are arranged on the surface to be modified and are parallel and spaced; a plurality of second convex strips which are arranged on the surface to be modified and are parallel to and spaced from the first convex strips, wherein second convex strips are arranged between part of adjacent first convex strips, and every two adjacent convex strips have equal space and are 5-20 mm; the distance between two adjacent first convex strips between two adjacent second convex strips is equal and is 0.01-0.1 mm; the third raised lines are arranged on the surface to be modified and are parallel and spaced, the third raised lines are perpendicular to the first raised lines, every two adjacent raised lines are equal in distance, and the distance is 5-20 mm; relative treating the veneer, the height of second sand grip and third sand grip equals, and the height of second sand grip is greater than the height of first sand grip. The coarse and fine stripes on the substrate are criss-cross to form a grid, and the surface area of the grid contacting with the outside is small, so sweat stains and hand marks are not easy to be stained, and the appearance is not influenced.

Description

Substrate with velvet touch feeling and product packaging shell

Technical Field

The utility model relates to a printed matter packing field especially relates to a substrate and product packaging shell with velvet sense of touch.

Background

Velvet is favored by people because of its smooth, soft, and delicate comfortable touch, and attempts have been made to introduce its comfortable touch to items that people often touch (e.g., product packaging shells), but it is obviously uneconomical to coat velvet materials directly onto the surface of the item.

At present, the velvet touch process used in the field of printed matter packaging is mainly realized by coating touch oil on the surface of the printed matter or compounding a layer of touch film coated with the touch oil, and products applying the process are easily stained with sweat stains and hand marks to influence the appearance.

SUMMERY OF THE UTILITY MODEL

Accordingly, there is a need for a velvet touch substrate that is less prone to sweat stains and hand marks.

In addition, a product packaging shell is also provided.

A substrate having a velvet touch comprising:

a substrate body having a surface to be modified;

a plurality of first convex strips which are arranged on the surface to be modified in parallel and at intervals;

a plurality of second convex strips which are arranged on the surface to be modified and are parallel to and spaced from the first convex strips, wherein the second convex strips are arranged between part of adjacent first convex strips, and the distance between every two adjacent second convex strips is equal and is 5-20 mm; the distance between two adjacent first convex strips between two adjacent second convex strips is equal and is 0.011 mm-0.1 mm; and

a plurality of third protruding strips which are arranged on the surface to be modified and are parallel and spaced, wherein the third protruding strips are perpendicular to the first protruding strips and the second protruding strips, and the distance between every two adjacent third protruding strips is equal and is 5-20 mm;

the first protruding strip is provided with a first cambered surface, and the first cambered surface is far away from the surface to be modified; the second convex strip is provided with a second cambered surface, and the second cambered surface is far away from the surface to be modified; the third raised line is provided with a third cambered surface, and the third cambered surface is far away from the surface to be modified; and relatively, the heights of the second convex strip and the third convex strip are equal, and the height of the second convex strip is greater than that of the first convex strip.

The base material with velvet touch feeling is provided with a first convex strip which is relatively thin, a second convex strip which is relatively thick and a third convex strip which are relatively thick, the thick and thin stripes form a grid at proper intervals, when the palm of a user touches the touch feeling layer, the nerves on the fingers contacting the thick stripes can feel a little more pressure, and under the condition that the pressure is not completely eliminated, the fingers are contacted with the thin stripes, and the thin stripes generate a little less pressure on the fingers; the large pressure and the small pressure generated by the thick stripes and the thin stripes are mutually staggered, so that the human brain generates illusion, and the illusion is like stroking on velvet, and a user feels that the substrate has velvet touch. The thick stripes and the thin stripes on the substrate with velvet touch form grids in a criss-cross mode, and the surface area of the grids contacting with the outside is small, so sweat stains and hand marks are not easily stained, and the look and feel are not influenced.

At present, materials with similar touch feeling are mostly realized by coating touch feeling oil on the surface of a base material or compounding a touch feeling film coated with the touch feeling oil, and the materials have large surface area contacting with the outside and are easily polluted by sweat stains or hand marks to influence the appearance.

In one embodiment, the height of the first convex strip is 0.01 mm-0.1 mm.

In one embodiment, the height of the second convex strip and the height of the third convex strip are both 0.2 mm-1 mm.

In one embodiment, the distance between the first convex strips is 0.05mm, the distance between the second convex strips is 10mm, and the distance between the third convex strips is 10 mm; the height of first sand grip is 0.05mm, the height of second sand grip and third sand grip is 0.5 mm.

In one embodiment, the first cambered surface is a cylindrical surface of a semi-cylinder with the radius of 0.01 mm-0.1 mm; the second cambered surface and the third cambered surface are both cylindrical surfaces of semi-cylinders with the radius of 0.2 mm-1 mm. So set up, the substrate that has the velvet sense of touch has better sense of touch.

In one embodiment, the first protruding strip, the second protruding strip and the third protruding strip are all hard pieces. Thus, the striped surface of the base material having a velvet touch is less likely to be scratched.

In one embodiment, the surface to be modified of the substrate body is further printed with a graphic information layer. Therefore, the substrate with velvet touch feeling has better visual aesthetic feeling.

In one embodiment, the first convex strips are transparent convex strips.

In one embodiment, the second protruding strip and the third protruding strip are transparent protruding strips. Thus, the user can observe the graphic information of the graphic information layer arranged on the base material layer through the grids among the thick stripes and the thin stripes.

A product packaging shell comprises the substrate with velvet touch feeling.

Drawings

FIG. 1 is a schematic view of a substrate having a velvet touch according to one embodiment.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

As shown in FIG. 1, one embodiment of a substrate 100 having a velvet touch may be used to form a product package. The substrate 100 with velvet touch comprises a substrate body 110, a plurality of first ribs 120, a plurality of second ribs 130 and a plurality of third ribs 140.

The substrate body 110 serves to wrap a specific product (not shown, the same applies below) and to print a plurality of first ribs 120, a plurality of second ribs 130, and a plurality of third ribs 140. The material of the substrate body 110 is a conventional packaging material, such as paper, plastic, glass, and the like. The substrate body 110 has a surface to be modified 110 a. Further, a graphic information layer (not shown, the same applies below) is printed on the surface to be modified 110a, and the first protrusion 120, the second protrusion 130 and the third protrusion 140 are disposed on the graphic information layer. Specifically, the graphic information layer may be a pattern or text containing a commodity logo printed on the surface to be modified 110a in a form of digital printing. Thus, the substrate 100 with velvet touch can be more visually attractive.

A plurality of parallel and spaced first protruding strips 120 are disposed on the surface to be modified 110a of the substrate body 110. A plurality of second ribs 130 are disposed on the surface to be modified 110a, and are parallel to and spaced apart from the first ribs 120. Second convex strips 130 are arranged between part of adjacent first convex strips 120, and the distance between every two adjacent second convex strips 130 is equal and is 5-20 mm; the distance between two adjacent first convex strips 120 located between two adjacent second convex strips 130 is equal and is 0.01 mm-0.1 mm.

A plurality of parallel and spaced third ribs 140 are disposed on the surface to be modified 110 a. The third protruding strips 140 are perpendicular to the first protruding strips 120 and the second protruding strips 130, and the distance between every two adjacent third protruding strips 140 is equal and is 5 mm-20 mm.

The first protruding strips 120 have a first arc surface (not shown, the same below), and the first arc surface is far away from the surface to be modified 110 a; the second protruding strip 130 has a second arc surface (not shown, the same applies below), and the second arc surface is far away from the surface to be modified 110 a; the third protruding strip has a third arc surface (not shown, the same applies below), and the third arc surface is far away from the surface to be modified 110 a. Relative to the surface to be modified 110a, the heights of the second ribs 130 and the third ribs 140 are equal, and the height of the second ribs 130 is greater than the height of the first ribs 120. Specifically, the height of the first protruding strip 120 is 0.01mm to 0.1 mm; the height of the second protruding strip 130 and the height of the third protruding strip 140 are both 0.2mm to 1 mm.

In some embodiments, the first ribs 120 are disposed in a printing manner; further, the printing mode is selected from one of silk screen printing, gravure printing, embossing and embossing. Specifically, the first ribs 120 are printed with UV varnish. The second protruding strips 130 and the third protruding strips 140 are arranged in a printing mode; further, the printing mode is selected from one of silk screen printing, gravure printing and embossing. Specifically, the second ribs 120 and the second ribs 130 are printed by UV varnish.

Preferably, the distance between the first ribs 120 is 0.05mm, the distance between the second ribs 130 is 10mm, and the distance between the third ribs 140 is 10 mm; the height of the first rib 120 is 0.05mm, and the height of the second rib 130 and the third rib 140 is 0.5 mm. Such an arrangement is based on manufacturing difficulties and cost considerations.

Furthermore, the first cambered surface is a cylindrical surface of a semi-cylinder with the radius of 0.01 mm-0.1 mm; the second cambered surface and the third cambered surface are both cylindrical surfaces of semi-cylinders with the radius of 0.2 mm-1 mm. This arrangement can provide the substrate 100 with a velvet touch feeling with a better touch feeling.

Further, the first protrusion 120, the second protrusion 130, and the third protrusion 140 are all hard members. The arrangement can enable the substrate 100 with velvet touch feeling to have better scratch resistance and not to be scratched easily.

Further, the first ribs 120 are transparent ribs. Similarly, the second ribs 130 and the third ribs 140 are transparent ribs. Thus, the user can observe the image-text information of the image-text information layer through the stripes and the grids between the stripes.

The substrate 100 with velvet touch feeling is provided with the first convex strips 120 which are relatively thin, the second convex strips 130 which are relatively thick and the third convex strips 140 which are relatively thick, the thin strips are arranged at proper intervals and characteristics to form a grid, when the palm of a user touches the touch feeling layer, nerves on fingers which contact the thick strips feel a little more pressure, and under the condition that the pressure is not completely eliminated, the nerves are contacted with the thin strips which generate a little less pressure on the fingers; the large and small pressures generated by the thick stripes and the thin stripes are interlaced with each other, so that the human brain can generate illusion like stroking on velvet, and the user can feel that the substrate 100 has velvet touch. The thick and thin stripes on the velvet touch base material 100 are criss-cross to form a grid, and the surface area contacting with the outside is small, so sweat and hand marks are not easily contaminated, and the appearance is not influenced.

An embodiment of a product package comprises the substrate 100 having a velvet touch as described above.

The product packaging shell has at least the following advantages:

(1) because the relatively thin first protruding strip 120, the relatively thick second protruding strip 130 and the third protruding strip 140 are disposed on the substrate body 110, when a user touches the substrate, due to the alternately generated pressure, the human brain generates an illusion, such as touching on velvet, so that the user feels that the substrate 100 with velvet touch has the velvet touch.

(2) The thick and thin stripes on the velvet touch base material 100 are criss-cross to form a grid, and the surface area contacting with the outside is small, so sweat and hand marks are not easily contaminated, and the appearance is not influenced.

(3) The first protrusion strip 120, the second protrusion strip 130 and the third protrusion strip 140 are all hard pieces, so that the scratch resistance is better, and the scratch resistance is not easy to occur.

(4) The product packaging shell is also printed with an image-text information layer, and a user can observe specific image-text information of the image-text information layer through the transparent first convex strip 120, the transparent second convex strip 130, the transparent third convex strip 140 and grids among the three, so that the product packaging shell has better visual aesthetic feeling.

The following are specific examples

Example 1

As shown in fig. 1, in the substrate 100 of the present embodiment, the pitch between the first ribs 120 is 0.05mm, the pitch between the second ribs 130 is 10mm, and the pitch between the third ribs 140 is 10 mm; the height of the first rib 120 is 0.05mm, and the height of the second rib 130 and the third rib 140 is 0.5 mm.

Example 2

In the substrate 100 of the present embodiment, the distance between the first protruding strips 120 is 0.01mm, the distance between the second protruding strips 130 is 5mm, and the distance between the third protruding strips 140 is 5 mm; the height of the first rib 120 is 0.05mm, and the height of the second rib 130 and the third rib 140 is 0.5 mm.

Example 3

In the substrate 100 of the present embodiment, the distance between the first ribs 120 is 0.1mm, the distance between the second ribs 130 is 20mm, and the distance between the third ribs 140 is 20 mm; the height of the first rib 120 is 0.05mm, and the height of the second rib 130 and the third rib 140 is 0.5 mm.

Comparative example 1

The substrate of this comparative example is similar to that of example 1 except that the height of the second ribs 130 is 0.05mm as the height of the first ribs 120, and other parameters are the same as those of example 1; that is, the second ribs 130 and the first ribs 120 are generally thick and thin ribs; the third ribs 140 are coarse ribs.

Comparative example 2

The substrate of this comparative example is similar to that of example 1, except that the height of the third ribs 140 is 0.05mm, which is the same as that of the first ribs 120, and the other parameters are the same as those of example 1, i.e., the third ribs 140 and the first ribs 120 are generally thick and thin ribs; the second ribs 130 are coarse ribs.

Comparative example 3

The substrate of this comparative example is similar to that of example 1, only the height of the first ribs 120, the second ribs 130, and the third ribs 140 are all 0.05mm, and other parameters are the same as those of example 1; that is, the first ribs 120, the second ribs 130, and the third ribs 140 are generally thick and thin ribs.

Comparative example 4

The substrate of this comparative example is similar to that of example 1, and only the height of the first ribs 120, the second ribs 130, and the third ribs 140 are all 0.5mm, and the other parameters are the same as those of example 1, that is, the first ribs 120, the second ribs 130, and the third ribs 140 are generally coarse and are all coarse ribs.

Comparative example 5

The substrate of this comparative example is similar to that of example 1, the pitch between the first ribs 120 is also 10mm, and other parameters are the same as those of example 1.

Comparative example 6

The substrate of this comparative example is similar to that of example 1, the pitch between the third ribs 140 is also 0.05mm, and other parameters are the same as those of example 1.

Comparative example 7

The comparative example was a base material coated with a model BT-W91 tactile oil from Baihong environmental science and technology Co., Ltd, Dongguan, and the material of the base material body was the same as that of the example.

Effect testing

Velvet touch test and anti-fingerprint and sweat stain pollution test:

100 volunteers were recruited randomly and divided into 10 groups of 10 persons each, and the groups were designated as #1 to #10 groups. The substrate of example 1 was subjected to a petition test after allowing 10 volunteers of group #1 to blind and then allowed to fill in the questionnaire form of table 1. The substrate of example 2 was subjected to a petition test after allowing 10 volunteers of group #2 to blind and then allowed to fill in the questionnaire form of table 1. Similarly, the substrates of example 3 and comparative examples 1 to 7 were distributed to volunteers of groups #2 to #10 for a touch test and filled out in the following questionnaire.

After the volunteer touches the skin and experiences, the sweat stain and fingerprint pollution on the surface of the substrate are observed by naked eyes or a magnifier, and the table 3 is filled according to different pollution degrees, namely severe pollution (various hand lines and sweat stains can be seen by the naked eyes at a glance, the appearance is poor), moderate pollution (some hand lines and sweat stains can be seen by the naked eyes, but the hand lines and the sweat stains are not particularly obvious and have general appearance), and slight pollution (some stained hand lines and sweat stains can be seen by the naked eyes at certain angles or by means of the magnifier).

Table 1 touch test tactile questionnaire for substrate

TABLE 2 statistics of questionnaire results filled out by each group of volunteers

TABLE 3 statistics of questionnaire results filled out by each group of volunteers

Source of substrate	Severe pollution	Moderate pollution	Slight pollution
				Example 1	-	-	√
Example 2	-	-	√
				Example 3	-	-	√
Comparative example 1	-	-	√
				Comparative example 2	-	-	√
Comparative example 3	-	-	√
				Comparative example 4	-	√	-
Comparative example 5	-	-	√
				Comparative example 6	-	-	√
Comparative example 7	√	-	-

According to the statistical results, the following results are obtained: the substrates of examples 1-3 were blindly tested by over 90% of volunteers and considered to have a smooth, soft, and fine velvet touch; whereas the substrates of comparative examples 1-6 (i.e., tested in groups #4 to #9 of volunteers) were considered by most volunteers to have a different feel from velvet; comparative example 7 also had a very good velvet touch using a base coated with touch oil. In addition, after the base materials of each example and each proportion are tested by 10 volunteers in each group, the observation shows that the latticed base material has good fingerprint and sweat stain resistant effects, while the base material coated with the touch oil in the comparative example 7 is heavily polluted by fingerprints and sweat stains.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A substrate having a velvet touch comprising:

a substrate body having a surface to be modified;

a plurality of first convex strips which are arranged on the surface to be modified in parallel and at intervals;

a plurality of second convex strips which are arranged on the surface to be modified and are parallel to and spaced from the first convex strips, wherein the second convex strips are arranged between part of adjacent first convex strips, and the distance between every two adjacent second convex strips is equal and is 5-20 mm; the distance between two adjacent first convex strips between two adjacent second convex strips is equal and is 0.01-0.1 mm; and

a plurality of third protruding strips which are arranged on the surface to be modified and are parallel and spaced, wherein the third protruding strips are perpendicular to the first protruding strips and the second protruding strips, and the distance between every two adjacent third protruding strips is equal and is 5-20 mm;

the first protruding strip is provided with a first cambered surface, and the first cambered surface is far away from the surface to be modified; the second convex strip is provided with a second cambered surface, and the second cambered surface is far away from the surface to be modified; the third raised line is provided with a third cambered surface, and the third cambered surface is far away from the surface to be modified; and relatively, the heights of the second convex strip and the third convex strip are equal, and the height of the second convex strip is greater than that of the first convex strip.

2. The substrate with a velvet touch according to claim 1, wherein the first ridges have a height of 0.01 to 0.1 mm.

3. The substrate with a velvet touch according to claim 2, wherein the height of each of the second ridges and the height of each of the third ridges are 0.2mm to 1 mm.

4. The substrate according to any one of claims 1 to 3, wherein the first ribs have a pitch of 0.05mm, the second ribs have a pitch of 10mm, and the third ribs have a pitch of 10 mm; the height of first sand grip is 0.05mm, the height of second sand grip and third sand grip is 0.5 mm.

5. The substrate with velvet touch according to claim 1, wherein the first curved surface is a cylindrical surface of a semi-cylinder with a radius of 0.01mm to 0.1 mm; the second cambered surface and the third cambered surface are both cylindrical surfaces of semi-cylinders with the radius of 0.2 mm-1 mm.

6. The substrate with a velvet touch according to claim 1, wherein the first rib, the second rib and the third rib are all rigid members.

7. The substrate with velvet touch according to claim 1, wherein the surface to be modified of the substrate body is further printed with a graphic information layer, and the first, second and third ribs are disposed on the graphic information layer.

8. The substrate with a velvet touch according to claim 7, wherein the first ridges are transparent ridges.

9. The substrate with a velvet touch according to claim 1 or 8, wherein the second ridges and the third ridges are transparent ridges.

10. A product packaging case comprising the substrate having a velvet touch according to any one of claims 1 to 9.

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