CN219066117U - Chair armrest display terminal - Google Patents

Abstract

The utility model discloses a chair armrest display terminal, which comprises an armrest structure main body and an intelligent display terminal arranged at the upper part of the armrest structure main body, wherein the intelligent display terminal consists of a display terminal main body, a touch screen and an antibacterial protective film, and the touch screen and the display terminal main body are attached through an optical adhesive layer; the antibacterial protective film is arranged on the upper surface of the touch screen, and is a transparent film doped with metal ion inorganic antibacterial agents. By arranging the antibacterial protective film on the surface of one side, which is frequently touched by a user, of the touch screen, the touch display terminal main body can utilize the antibacterial protective film to inhibit the breeding and reproduction of bacteria on the surface of the touch display terminal main body, so that the touch display terminal main body is ensured to be clean on the basis of not increasing maintenance operation on the touch display terminal main body, and the threat to user health due to the breeding and reproduction of bacteria on the surface of the touch display terminal main body is eliminated.

Description

Chair armrest display terminal

Technical Field

The utility model relates to the technical field of intelligent advertising equipment, in particular to a seat armrest display terminal.

Background

Public places such as airports, stations, hospitals, banks and the like can be provided with a plurality of seats, the seats are provided with a pair of armrests, a user can put arms on the armrests to relieve back pressure when resting, along with development of internet technology and intelligent terminal technology, a great deal of information interaction demands are met in the process of resting and waiting on the seats, and the demands of using the intelligent terminals on the armrests are increased, so that the intelligent armrests are provided, an armrest display terminal is integrally arranged on the armrests, and various informationized services such as advertisements, charging and information are provided through the armrest display terminal.

Because the seats are arranged in public places and distributed in areas such as airports, stations, hospitals and banks, the handrail display terminal generally adopts a touch display terminal main body, and the touch display terminal main body has the advantages of durability, high reaction speed, space saving, easiness in man-machine communication and the like, and a user can operate a host computer by lightly touching marks or text images on the display terminal main body by hands.

Bacteria, fungi, algae, other single-cell organisms and the like existing on the touch display terminal body are easy to grow and reproduce on the surface of the touch display terminal body, most of the touch display terminal bodies are in direct contact with operators, different operators are in direct contact with each other easily, environmental dust, bacteria or bacteria brought by the operators are accumulated on the touch surface of the touch display terminal body and are in contact propagation among different operators, and a public bacterial source is formed, so that bacteria prevention of the touch display terminal body is an urgent problem to be solved.

Disclosure of Invention

The utility model aims to provide a chair armrest display terminal, which solves the technical problem that the existing armrest display terminal cannot prevent bacteria.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the utility model provides a chair armrest display terminal, which comprises an armrest structure main body and an intelligent display terminal arranged at the upper part of the armrest structure main body, wherein the intelligent display terminal consists of a display terminal main body, a touch screen and an antibacterial protective film, and the touch screen and the display terminal main body are attached through an optical adhesive layer; the antibacterial protective film is arranged on the upper surface of the touch screen, and is a transparent film doped with metal ion inorganic antibacterial agents.

Further, the metal ion inorganic antibacterial agent is nano metal particles with the particle size of 1-100 nm. Optionally, the nano metal particles are one of nano silver particles, nano zinc particles or nano copper particles.

Further, the touch screen is a GFF structure touch screen.

Further, the antibacterial protective film sequentially comprises a PET protective structure layer, an antibacterial agent structure layer, a PET substrate structure layer and a silica gel structure layer from top to bottom, wherein the antibacterial agent structure layer is a resin structure layer doped with metal ion inorganic antibacterial agents; and the touch screen is adhered to the touch screen through the silica gel structure layer.

Further, a polarizing structure layer, a blue light preventing structure layer and an anti-dazzle structure layer are sequentially arranged between the PET substrate structure layer and the silica gel structure layer; the polarizing structure layer is used for converting natural light into linearly polarized light; the blue light preventing structure layer is used for eliminating blue wave band light rays; the anti-glare structure layer is used for scattering light.

Further, the seat armrest display terminal further comprises a charging connection assembly, the charging connection assembly comprises at least one charging interface, and the charging connection assembly is electrically connected with the intelligent display terminal.

Further, the charging connection assembly comprises at least one elastic telescopic connection line, and the charging interface is connected with the lower end of the intelligent display terminal through the elastic telescopic connection line.

Further, the charging interfaces are respectively arranged at one end of an anti-breaking connecting part, and the other end of the anti-breaking connecting part is connected with one end of the elastic telescopic connecting wire.

The utility model has the following beneficial effects:

according to the chair armrest display terminal provided by the embodiment of the utility model, the antibacterial protective film is arranged on the surface of one side of the touch screen, which is frequently touched by a user, the antibacterial protective film achieves the purpose of affecting bacterial growth by destroying the cell membrane of bacteria, and the bacterial reproduction is prevented by interfering with the synthesis of bacterial cell walls, proteins and nucleic acid, so that the antibacterial protective film can be utilized by the touch display terminal main body to inhibit the bacterial reproduction and reproduction on the surface of the touch display terminal main body, and the touch display terminal main body can ensure the cleanness of the surface of the touch display terminal main body on the basis of not increasing maintenance operation of the touch display terminal main body, and the threat to the health of the user due to the bacterial reproduction and reproduction on the surface of the touch display terminal main body is eliminated.

Drawings

FIG. 1 is a three-dimensional block diagram of a handrail display terminal provided by an embodiment of the utility model;

fig. 2 is a schematic cross-sectional view of an intelligent display terminal according to an embodiment of the present utility model;

FIG. 3 is a schematic cross-sectional view of a first antimicrobial protective film according to an embodiment of the utility model;

FIG. 4 is a schematic cross-sectional view of a second antimicrobial protective film according to an embodiment of the utility model;

the intelligent display terminal comprises a 10-intelligent display terminal, an 11-antibacterial protective film, a 12-touch screen, a 13-display terminal main body, a 14-optical adhesive layer, a 111-PET protective structure layer, a 112-antibacterial agent structure layer, a 113-PET substrate structure layer, a 114-silica gel structure layer, a 115-polarizing structure layer, a 116-blue light prevention structure layer and a 117-anti-dazzle structure layer;

20-a handrail structural body;

30-charging connection assembly, 31-elastic telescopic connecting wire, 32-charging interface, 33-anti-breaking connecting part.

The achievement of the objects, functional features and advantages of the present utility model will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

In the following description, suffixes such as "module", "component", or "unit" for representing elements are used only for facilitating the description of the present utility model, and have no specific meaning per se. Thus, "module," "component," or "unit" may be used in combination.

The armrest display terminal may be implemented in various forms. For example, the terminals described in the present utility model may include a hand-held display terminal such as a mobile phone, a tablet computer, a notebook computer, a palm computer, a Personal Digital Assistant (PDA), a portable media player (portable t1e T edia PT1aβer, PT 2P), a navigation device, a wearable device, a smart band, and a stationary terminal such as a digital TV, a desktop computer, and the like.

The following description will be given taking an example of a handrail display terminal, and those skilled in the art will understand that the configuration according to the embodiment of the present utility model can be applied to a fixed type terminal in addition to elements particularly used for a moving purpose.

Example 1

As shown in fig. 1 and 2, an embodiment of the present utility model provides a display terminal of a seat armrest, which includes an armrest structure main body 20 and an intelligent display terminal 10 disposed on an upper portion of the armrest structure main body 20, wherein the intelligent display terminal 10 is composed of a display terminal main body 13, a touch screen 12, and an antibacterial protective film 11, and the touch screen 12 and the display terminal main body 13 are attached through an optical adhesive layer 14; the antibacterial protective film 11 is arranged on the upper surface of the touch screen 12, and the antibacterial protective film 11 is a transparent film doped with metal ion inorganic antibacterial agent.

Wherein the metal ion inorganic antibacterial agent is nano metal particles. The nanoscale metal particles have biochemical activity, can penetrate through the cell wall of bacteria, cause the denaturation of intracellular enzyme proteins and have a natural death effect, and have the particle size of about 1nm-100 nm. Preferably, the nano metal particles are one of nano silver particles, nano zinc particles or nano copper particles.

Silver has a recognized antibacterial effect, generally speaking, one antibiotic can kill approximately 6 different antibiotics, but silver can kill more than 600 bacteria, and silver is a non-toxic substance, so that the silver has a quite wide application range and long history, the activity of silver particles is increased by a high-tech nano technology mode, the antibacterial function is enhanced, the quality of household environment and personal hygiene is improved, the nano-scale fine particles of silver have a remarkable antibacterial effect, and the nano-silver has 99.99% inhibition effect on coliform bacteria, staphylococcus aureus bacteria, salmonella and pseudomonas aeruginosa under the condition of multiple dilution.

Copper and zinc are more powerful than silver in killing fungi and algae. For colibacillus, the antibacterial rate of staphylococcus aureus and fungi is more than or equal to 90 percent.

According to the utility model, the antibacterial protective film is arranged on the surface of one side of the touch screen, which is frequently touched by a user, the antibacterial protective film achieves the purpose of affecting the growth of bacteria by destroying the cell membrane of the bacteria, and the bacteria propagation is prevented by interfering the synthesis of the cell wall, protein and nucleic acid of the bacteria, so that the main body of the touch display terminal can inhibit the bacteria propagation and propagation on the surface of the main body of the touch display terminal by using the antibacterial protective film, and the main body of the touch display terminal can ensure the surface of the main body of the touch display terminal to be clean on the basis of not increasing maintenance operation of the main body of the touch display terminal, and the threat to the health of the user due to the bacteria propagation and propagation on the surface of the main body of the touch display terminal is eliminated.

Optionally, the touch screen and the display terminal main body are attached through an optical adhesive layer. The optical glue is typically an OCA optical glue (Optically Clear Adhesive, optical glue) or a SCA optical glue (Solid Optically Clear Adhesive, solid optical glue), although other types of glue are possible if necessary.

Optionally, the touch screen 12 is a GFF structure touch screen.

As shown in fig. 3, the antibacterial protective film 11 sequentially includes a PET protective structure layer 111, an antibacterial agent structure layer 112, a PET substrate structure layer 113, and a silica gel structure layer 114 from top to bottom, wherein the antibacterial agent structure layer 112 is a resin structure layer doped with a metal ion inorganic antibacterial agent; and is adhered to the touch screen by the silicone structural layer 114.

Optionally, the thickness of the PET protection structural layer 111 ranges from 20 um to 45um; the thickness of the antimicrobial structure layer 112 ranges from 20 to 50um; the thickness of the PET substrate structural layer 113 ranges from 90 μm to 110 μm; the thickness of the PET substrate structural layer 114 ranges from 45 to 55 μm.

As shown in fig. 4, a polarizing structure layer 115, a blue light preventing structure layer 116, and an anti-glare structure layer 117 are further disposed between the PET substrate structure layer 111 and the silica gel structure layer 114 in order; the polarizing structure layer 115 is used for converting natural light into linearly polarized light; the blue light preventing structure layer 116 is used for eliminating blue band light; the antiglare structure layer 117 is for scattering light.

Specifically, the thickness of the blue light preventing structural layer 116 ranges from 35 um to 55um; the thickness of the polarizing structure layer 115 ranges from 40 to 60um; the thickness of the antiglare structure layer 116 ranges from 4 to 5 μm.

According to the utility model, the functions of anti-glare and anti-sunglasses can be realized by arranging the polarizing structure layer, the anti-blue light structure layer and the anti-glare structure layer in the antibacterial protection film in an integrated manner.

As shown in fig. 1, the armrest display terminal further includes a charging connection assembly 30, the charging connection assembly 30 includes at least one charging interface 32, and the charging connection assembly 30 is electrically connected with the smart display terminal 10.

Specifically, the charging connection assembly 32 includes at least one elastic telescopic connection line 31, and the charging interface 32 is connected to the lower end of the intelligent display terminal 10 through the elastic telescopic connection line 31.

Optionally, the charging interfaces 32 are respectively installed at one end of an anti-breaking connection portion 33, and the other end of the anti-breaking connection portion 33 is connected with one end of the elastic telescopic connecting wire 31.

According to the chair armrest display terminal provided by the embodiment of the utility model, the antibacterial protective film is arranged on the surface of one side of the touch screen, which is frequently touched by a user, the antibacterial protective film achieves the purpose of affecting bacterial growth by destroying the cell membrane of bacteria, and the bacterial reproduction is prevented by interfering with the synthesis of bacterial cell walls, proteins and nucleic acid, so that the antibacterial protective film can be utilized by the touch display terminal main body to inhibit the bacterial reproduction and reproduction on the surface of the touch display terminal main body, and the touch display terminal main body can ensure the cleanness of the surface of the touch display terminal main body on the basis of not increasing maintenance operation of the touch display terminal main body, and the threat to the health of the user due to the bacterial reproduction and reproduction on the surface of the touch display terminal main body is eliminated.

The foregoing description is only of the preferred embodiments of the present utility model, and is not intended to limit the scope of the utility model, but rather is intended to cover any equivalents of the structures or equivalent processes disclosed herein or in the alternative, which may be employed directly or indirectly in other related arts.

Claims (8)

1. The seat armrest display terminal is characterized by comprising an armrest structure main body and an intelligent display terminal arranged on the upper part of the armrest structure main body, wherein the intelligent display terminal consists of a display terminal main body, a touch screen and an antibacterial protective film, and the touch screen and the display terminal main body are attached through an optical adhesive layer; the antibacterial protective film is arranged on the upper surface of the touch screen, and is a transparent film doped with metal ion inorganic antibacterial agents.

2. The chair armrest display terminal of claim 1, wherein the metal ion inorganic antimicrobial agent is 1-100nm of nano-metal particles, the nano-metal particles being one of nano-silver particles, nano-zinc particles, nano-copper particles.

3. The chair armrest display terminal of claim 1, wherein the touch screen is a GFF structured touch screen.

4. The chair armrest display terminal according to claim 1, wherein the antibacterial protective film comprises a PET protective structural layer, an antibacterial agent structural layer, a PET base material structural layer, and a silica gel structural layer in this order from top to bottom, the antibacterial agent structural layer being a resin structural layer doped with a metal ion inorganic antibacterial agent; and the touch screen is adhered to the touch screen through the silica gel structure layer.

5. The chair armrest display terminal of claim 4, wherein a polarizing structure layer, a blue light preventing structure layer, and an anti-glare structure layer are further provided in sequence between the PET substrate structure layer and the silica gel structure layer; the polarizing structure layer is used for converting natural light into linearly polarized light; the blue light preventing structure layer is used for eliminating blue wave band light rays; the anti-glare structure layer is used for scattering light.

6. The armrest display terminal of claim 1, further comprising a charging connection assembly comprising at least one charging interface, the charging connection assembly electrically connected to the intelligent display terminal.

7. The chair armrest display terminal of claim 6, wherein the charging connection assembly comprises at least one elastic telescopic connection line, and the charging interface is connected with the lower end of the intelligent display terminal through the elastic telescopic connection line.

8. The armrest display terminal of claim 7, wherein the charging interfaces are respectively mounted at one end of an anti-snap connection portion, and the other end of the anti-snap connection portion is connected to one end of the elastic telescopic connection line.

Images