CN214266844U - Composite sheet and wristband - Google Patents

Abstract

The utility model provides a composite sheet (1) and tailor wrist strap (2) that forms with this composite sheet (1). The composite board (1) is formed by sequentially laminating a printing layer (10), a base material layer (20) and a rough layer (30) from top to bottom, the printing layer (10) is used for being printed, the rough layer (30) is made of resin, and the lower surface of the rough layer is in a concave-convex state.

Description

Composite sheet and wristband

Technical Field

The present invention relates to a composite sheet and a wristband cut from the composite sheet, and more particularly to a medical wristband that can be wound around a part of a human body (for example, a wrist or an ankle) to perform an identification function in a medical field or the like.

Background

Currently, wristbands have been widely used in various places such as medical places and entertainment places as labels for identifying persons.

A wristband is generally used which is made of synthetic paper and has identification information printed on the surface thereof. When in use, the wrist band is wound around the wrist of a human body and the like, and is firmly wound by an adhesive or a button. Thus, the identification information wound around the wristband worn on the human body is recognized by the visual living equipment, and the identity of the person wearing the wristband can be recognized.

However, as described above, the conventional wristbands are generally made of synthetic paper, and have a smooth and flat surface which contacts with the skin of the human body, and are poor in air permeability, so that the users wearing the wristbands tend to feel uncomfortable with feeling such as stuffiness, stickiness, and fullness due to sweat or the like, that is, discomfort occurs at the time of wearing the wristbands.

In addition, since the wristbands are generally finished products, the wristbands are fixed in size and length, and cannot be freely cut according to users. That is, if the user has a thicker wrist, the user will have a tight feel with a wristband of ordinary size, and vice versa if the user has a thinner wrist. Particularly, when the wearing position needs to be adjusted in order to fit the garment, the size of the wrist band cannot be adjusted according to the local conditions.

Documents of the prior art

Patent document

Patent document 1: JP patent publication No. 2019-202507

Patent document 2: JP 2011-145928

SUMMERY OF THE UTILITY MODEL

The present invention has been made in view of the above problems, and an object of the present invention is to provide a composite sheet and a wristband cut out from the composite sheet, which can reduce the discomfort of the user wearing the wristband, such as sultriness, stickiness, and fullness, and can adjust the size of the wristband as needed.

In order to achieve the above object, the present invention provides a composite board, which comprises a printing layer, a substrate layer, and a rough layer stacked in sequence from top to bottom, wherein the printing layer is a layer for being printed, the rough layer is made of resin, and the lower surface is in a concave-convex state.

Thus, if the wristband is cut from such a composite sheet, the lower surface of the wristband that contacts the skin of a person is uneven, so that the air permeability is improved, discomfort such as stuffiness, stickiness, and fullness of the user wearing the wristband is reduced, and discomfort does not occur during wearing the wristband.

The surface roughness of the lower surface may be a pattern or a shape of roughness formed by embossing.

In addition, the printing layer may be a thermosensitive layer, the printing may be thermosensitive printing, and the base material layer may be composed of synthetic paper.

In addition, the thickness of the rough layer may be 20 to 100 μm, and the maximum height difference of the unevenness of the lower surface of the rough layer (30) may be 10 to 90 μm.

In addition, the thickness of the substrate layer can be 20-100 μm.

In addition, the synthetic paper may be composed of polyolefin.

The whiteness of the printing layer (10) may be 85% or more.

Additionally, the utility model also provides a wrist strap, its characterized in that forms through tailorring foretell composite sheet to can convolute and wear on human part.

The wrist strap manufactured in this way can not only achieve the technical effects of the composite plate, but also be cut according to the needs of users, and particularly, when the wearing position needs to be adjusted in accordance with the clothes, the size of the wrist strap can be adjusted according to the conditions.

The wrist band may have a Gurley stiffness of 0.90mN or less and 0.10mN or more in the longitudinal direction.

In addition, the wristband may further include a connecting portion for wrapping the wristband around a part of a human body so that the lower surface of the rough layer is in contact with the skin of the human body.

The connecting portion may be formed of an adhesive layer provided on the wristband.

In addition, the connecting part may be formed of a hole and a button provided on the wrist band to be matched with each other.

As described above, the composite sheet and the wristband cut from the composite sheet can reduce discomfort such as stuffiness, stickiness, and fullness to a user wearing the wristband, and can adjust the size of the wristband as needed.

Drawings

Fig. 1 is a schematic cross-sectional view showing an example of a composite plate according to an embodiment of the present invention.

Fig. 2 is a schematic plan view showing an example of a wristband according to an embodiment of the present invention.

Description of the reference numerals

1 composite board

2 wrist strap

10 printing layer

20 base material layer

30 rough layer

40 connecting part

41 adhesive layer

42 holes

43 button

Detailed Description

In the following, an embodiment of the composite sheet and the wristband according to the embodiment of the present invention will be described with reference to the drawings, but the composite sheet and the wristband disclosed in the present invention are not limited to the following examples as long as the effects of the present invention can be achieved.

Fig. 1 is a schematic view showing an example of a composite plate 1 according to an embodiment of the present invention. Referring to fig. 1, a composite sheet 1 is configured by laminating a printing layer 10, a base layer 20, and a rough layer 30 in this order from the top.

Print layer 10 is a layer intended to be printed, either before or after being cut into wristbands. The printed layer 10 may be printed with any information for identification including, but not limited to, patterns, text, etc. Preferably, the print layer 10 is a thermal layer and the printing is thermal. In addition, for the convenience of identifying information, the whiteness of the printing layer 10 is preferably 85% or more.

Further, although not shown, another layer such as a protective layer may be laminated on the printing layer 10 as necessary.

The rough layer 30 is made of resin, has a thickness of preferably 20 to 100 μm, for example, 50 μm, and has a concave-convex lower surface. The surface irregularities may be in the form of a pattern or an indentation formed by embossing, and the maximum height difference of the irregularities is preferably 10 to 90 μm, for example, 41 μm. The method of processing the asperities is not particularly limited as long as the lower surface of the rough layer 30 can be formed into an asperity shape or a pattern shape.

Thus, if the wristband is cut from the composite sheet 1, the lower surface of the rough layer 30 that comes into contact with the human skin is uneven, so that the air permeability of the wristband is increased, discomfort such as stuffiness, stickiness, and fullness of the wearer wearing the wristband is reduced, and discomfort does not occur during wearing.

The base layer 20 may be made of synthetic paper, and preferably has a thickness of 20 to 100 μm, for example, 80 μm or 84 μm. If the thickness is less than 20 μm, the necessary rigidity cannot be obtained; however, if the thickness is more than 100. mu.m, the softness decreases, and the soft touch feeling decreases when the sheet is in contact with the skin.

The synthetic paper may be composed of one or more of polyolefin such as polypropylene (PP) and Polyethylene (PE), and Polystyrene (PS), but is preferably composed of polyolefin such as polypropylene (PP) and Polyethylene (PE). For example, 135FTS-L <80> synthetic paper manufactured by China Marek's corporation can be used as the synthetic paper. The synthetic paper has flexibility and toughness, and also has excellent water resistance and oil resistance.

An embodiment of cutting the composite sheet 1 of the present invention into wristbands 2 will be described with reference to fig. 2. Fig. 2 is a schematic plan view showing an example of a wristband according to an embodiment of the present invention. As shown in fig. 2, the composite sheet 1 is cut to be able to wrap a band-shaped wristband 2 worn around a part of a human body.

The wrist band 2 preferably has a Gurley stiffness of 0.90mN or less and 0.10mN or more in the longitudinal direction. When the wristband 2 is wrapped around a part of a human body (for example, a wrist), the longitudinal direction of the wristband 2 is the direction in which the hand is wrapped, and therefore flexibility in the longitudinal direction of the wristband 2 is particularly important. If the Gurley stiffness (Gurley stiffness) of the wristband 2 in the longitudinal direction thereof exceeds 0.90mN, insufficient flexibility is caused.

The gurley stiffness is measured, for example, in the following manner: the composite panel 1 was cut into a 38mm × 25mm square sample, and the Gurley stiffness in the longitudinal direction was measured by a Gurley stiffness tester based on the Gurley method (ガーレ method, Gurley method) specified in JIS L1096: 2010.

The wristband 2 further has a connecting portion 40 for winding the wristband 2 around a part of a human body in such a manner that the lower surface of the rough layer 30 is in contact with the skin of the human body.

The connecting portion 40 is not particularly limited as long as it can be worn by being wrapped around a human body, and may be constituted by, for example, an adhesive layer 41 having a tackiness provided on the wristband 2, and in this case, it can be worn by wrapping the wristband 2 around, for example, a wrist and then attaching the adhesive layer 41 to the other side of the wristband 2; the connecting portion 40 may be formed of a hole 42 and a button 43 which are fitted to each other and provided on the band 2, and in this case, the wearing can be completed only by fastening the hole 42 and the button 43 which are fitted to each other after the band 2 is wound around, for example, a wrist.

The wrist band 2 thus manufactured can also achieve the technical effects of the composite sheet 1 described above, that is, since the lower surface of the rough layer 30 contacting the skin of the person is in a concave-convex state, the air permeability of the wrist band can be improved, discomfort such as stuffiness, stickiness, and fullness of the user wearing the wrist band can be reduced, and discomfort during wearing can not occur.

In addition, the wrist strap 2 can be cut according to the needs of the user, and particularly when the wearing position needs to be adjusted in cooperation with the wearing, the size of the wrist strap can be adjusted according to the local conditions, so that discomfort caused during wearing is avoided.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention.

Claims (12)

1. A composite sheet (1) comprising a printed layer (10), a base material layer (20), and a rough layer (30) laminated in this order from the top down,

the printing layer (10) is a layer for being printed,

the rough layer (30) is made of resin, and the lower surface of the rough layer is in a concave-convex state.

2. The composite panel of claim 1,

the concave-convex shape of the lower surface is a pattern or concave-convex shape processed by concave-convex processing.

3. The composite panel of claim 1 or 2,

the printing layer (10) is a heat-sensitive layer, the printing is a heat-sensitive printing,

the base material layer (20) is made of synthetic paper.

4. The composite panel of claim 1 or 2,

the thickness of the rough layer (30) is 20-100 μm,

the maximum height difference of the unevenness of the lower surface of the rough layer (30) is 10-90 [ mu ] m.

5. The composite panel of claim 4,

the thickness of the substrate layer (20) is 20-100 mu m.

6. The composite panel of claim 3,

the synthetic paper is composed of polyolefin.

7. The composite panel of claim 1 or 2,

the whiteness of the printing layer (10) is more than 85%.

8. A wrist band (2) characterized in that,

the composite sheet (1) according to any one of claims 1 to 7 is cut out so as to be capable of being wound around a part of the human body.

9. The wristband as recited in claim 8,

the Gurley stiffness in the longitudinal direction is 0.90mN or less and 0.10mN or more.

10. The wristband as recited in claim 8,

and a connecting part (40) for winding and wearing the wrist band on a part of a human body in such a manner that the lower surface of the rough layer (30) is in contact with the skin of the human body.

11. The wristband as recited in claim 10,

the connecting portion (40) is formed of an adhesive layer (41) having adhesive properties and provided on the wristband.

12. The wristband as recited in claim 10,

the connecting part (40) is composed of a hole (42) and a button (43) which are matched with each other and arranged on the wrist strap.

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