CN111525352A - Multi-port data line for game machine - Google Patents

Abstract

The invention discloses a multi-port data line for a game machine, which comprises a microphone wiring terminal, an influence wiring terminal, a USB interface terminal, a shielding shell and a VGA data port, wherein the shielding shell is connected with the VGA data port through a trunk data line, the other end of the shielding shell is connected with the USB interface terminal, the influence wiring terminal and the microphone wiring terminal through branch data lines, each trunk data line comprises an aluminum foil layer, a first elastic filling layer is wrapped in the aluminum foil layer, the aluminum foil layer is connected with the first elastic filling layer through epoxy resin, and three graphene layers are symmetrically arranged in the first elastic filling layer. According to the invention, the temperature switch is arranged on the VGA data port, when the circuit is unstable and the data line is heated, the temperature reaches the threshold value, and the temperature switch is switched off, so that the possible fire and burning out of the data line caused by overheating of the data line are effectively avoided.

Description

Multi-port data line for game machine

Technical Field

The invention relates to the technical field of data lines, in particular to a multi-port data line for a game machine.

Background

The data line is used for connecting a mobile device and a computer to achieve the purpose of data transmission or communication, and is a popular point that the data line is a path tool for connecting the computer and the mobile device to transmit files such as videos, ringtones, pictures and the like.

With the development of communication utilities, mobile phones have become an indispensable multiport data line communication tool for game consoles, and people often carry more than a plurality of mobile phones according to business needs, but mobile phones of different models and brands have different charging wires and data transmission lines respectively.

The multi-port data line of the existing game machine commonly used in the market can be easily broken or plastically deformed due to external pulling force, self gravity or repeated winding and winding in the using process, even the damage of a core wire of the data line is caused, the service life of the data line is greatly reduced, the current is too large due to unstable circuits sometimes, the data line is easily heated due to long-term use, the fire and other problems can be caused, and the safety performance is not enough.

To this end, we propose a multiport data line for gaming machines that solves the above-mentioned problems.

Disclosure of Invention

The invention aims to solve the defects in the prior art, such as: the data line that current market was used commonly is in the use, because external pulling force, the gravity of self or repeated winding and winding can easily break or take place plastic deformation, appear the data line heart yearn harm even, greatly reduced data line's life to sometimes the circuit unstability can lead to the electric current too big, long-term use leads to the data line to generate heat easily and probably causes conflagration scheduling problem, and the security performance is not enough.

In order to achieve the purpose, the invention adopts the following technical scheme:

a multi-port data line for a game machine comprises a microphone wiring terminal, an influence wiring terminal, a USB interface terminal, a shielding shell and a VGA data port, wherein the shielding shell is connected with the VGA data port through a main data line, the other end of the shielding shell is connected with the USB interface terminal, the influence wiring terminal and the microphone wiring terminal through branch data lines, each main data line comprises an aluminum foil layer, a first elastic filling layer is wrapped in the aluminum foil layer, the aluminum foil layer is connected with the first elastic filling layer through epoxy resin, three graphene layers are symmetrically arranged in the first elastic filling layer, each graphene layer is bonded with the first elastic filling layer through epoxy resin, a second elastic filling layer is arranged in each graphene layer, and the graphene layers are bonded with the second elastic filling layer through epoxy resin, every all include two shielding insulating layers in the second elasticity filling layer, bond together two through epoxy between second elasticity filling layer and the shielding insulating layer symmetry sets up, every the copper core has all been wrapped up in the shielding insulating layer, bond through epoxy between copper core and the shielding insulating layer, every branch data line all includes the restrictive coating, every the internal outer shielding layer that all includes of restrictive coating, bond together through epoxy between restrictive coating and the outer shielding layer, every all be provided with the enhancement layer in the outer shielding layer, bond together through epoxy between outer shielding layer and the enhancement layer, every all be provided with the aluminium core in the enhancement layer, bond together through epoxy between enhancement layer and the aluminium core.

Preferably, the first elastic filling layer and the second elastic filling layer are both made of elastic rubber materials.

Preferably, the sheath layer is made of one of polyvinyl chloride and polyurethane, and is used for the multi-port data line of the game machine.

Preferably, the diameter of each aluminum core is twice that of the copper core, and each aluminum core is connected with two copper cores.

Preferably, the reinforcing layer is made of a polyvinyl alcohol fiber material or a polyethylene terephthalate material.

Preferably, a flame retardant is arranged in the sheath layer.

Preferably, the length of the main data line is 0.5 meter, and the length of each branch data line is 0.1 meter.

Preferably, the diameter of the trunk data line is larger than the diameter of each branch data line.

Compared with the prior art, the invention has the beneficial effects that:

1. in the invention, the temperature switch is arranged on the VGA data port, when the circuit is unstable and the data line is heated, the temperature reaches a threshold value, and the temperature switch is switched off, thereby effectively avoiding possible fire and burning out of the data line caused by overheating of the data line.

2. According to the main data line, the first elastic filling layer is filled in the gap between the graphene layer and the aluminum foil layer and is made of the elastic rubber material, the first elastic filling layer has certain flexibility and elasticity, and when the data cable is bent by external force, the data cable is guaranteed to have the performance of bending without irreversible deformation to a certain extent, so that the data cable can be used in a repeatedly bent environment, and the environmental adaptability of the data cable is improved.

3. According to the graphene data wire, the shielding insulating layer adopts the doped cross-linked polymer formed by ion exchange of sodium tetrachlorocuprate and zinc borate to form a three-dimensional network structure, so that the mechanical property and the chemical stability are improved, the polymer forms the ionic polymer of tetrachlorocuprate acid radicals and borate radicals through ion exchange, other small molecular substances are not added, and the phenomena of phase separation and molecular permeation of inorganic small molecules in the using process are effectively avoided.

Drawings

FIG. 1 is a schematic front view of a multiport data cable for a gaming machine according to the present invention;

FIG. 2 is a schematic cross-sectional view of a trunk data line of a multi-port data line for a gaming machine according to the present invention;

FIG. 3 is a schematic cross-sectional view of a branch data line in a multi-port data line for a gaming machine according to the present invention.

In the figure: 1 microphone terminal, 2 influence terminals, 3USB interface ends, 4 branch data lines, 5 shielding shells, 6 trunk data lines, 7VGA data ports, 8 aluminium foil layers, 9 first elastic filling layers, 10 graphene layers, 11 second elastic filling layers, 12 shielding insulating layers, 13 copper cores, 14 sheathing layers, 15 outer shielding layers, 16 enhancement layers and 17 aluminium cores.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the 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.

Referring to fig. 1-3, a multi-port data line for a game machine, includes a microphone terminal 1, an influencing terminal 2, a USB interface terminal 3, a shielding shell 5 and a VGA data port 7, a temperature switch is disposed on the VGA data port 7, when the circuit is unstable and the data line is heated, the temperature reaches a threshold value, the temperature switch is turned off, thereby effectively avoiding fire and burnout of the data line caused by overheating of the data line, the shielding shell 5 and the VGA data port 7 are connected by a main data line 6, the other end of the shielding shell 5 is connected with the USB interface terminal 3, the influencing terminal 2 and the microphone terminal 1 by branch data lines 4, each main data line 6 includes an aluminum foil layer 8, the diameter of the main data line 6 is greater than that of each branch data line 4, the length of the main data line 6 is 0.5 meter, the length of each branch data line 4 is 0.1 meter, the aluminum foil layer 8 is internally wrapped with a first elastic filling layer 9, the aluminum foil layer 8 is connected with the first elastic filling layer 9 through epoxy resin, three graphene layers 10 are symmetrically arranged in the first elastic filling layer 9, each graphene layer 10 is bonded with the first elastic filling layer 9 through the epoxy resin, each graphene layer 10 is internally provided with a second elastic filling layer 11, the first elastic filling layer 9 and the second elastic filling layer 11 are both made of elastic rubber materials, the graphene layers 10 are bonded with the second elastic filling layer 11 through the epoxy resin, each second elastic filling layer 11 is internally provided with two shielding insulating layers 12, the second elastic filling layer 11 is bonded with the shielding insulating layers 12 through the epoxy resin, the two shielding insulating layers 12 are symmetrically arranged, each shielding insulating layer 12 is wrapped with a copper core 13, and the copper cores 13 are bonded with the shielding insulating layers 12 through the epoxy resin, each branch data line 4 comprises a sheath layer 14, the sheath layer 14 is made of one of polyvinyl chloride and polyurethane and used for a game machine multiport data line, an outer shielding layer 15 is arranged in each sheath layer 14, a fire retardant is arranged in each sheath layer 14, so that the sheath layer 14 is effectively protected, the phenomenon of overheat spontaneous combustion is prevented, the sheath layer 14 and the outer shielding layer 15 are bonded together through epoxy resin, a reinforcing layer 16 is arranged in each outer shielding layer 15, the outer shielding layer 15 and the reinforcing layer 16 are bonded together through epoxy resin, a filler reinforcing layer 16 is composed of a cotton fiber line and a water-blocking powder mixture, on one hand, the cotton fiber line can enable an aluminum core 17 not to be easily damaged by external force, on the other hand, water-blocking powder can be conveniently prevented from entering the conductor, the conductor is protected from being damaged, an aluminum core 17 is arranged in each reinforcing layer 16, and the diameter of each aluminum core 17 is twice that of a copper core 13, each aluminum core 17 is connected with two copper cores 13, the reinforcing layer 16 is bonded with the aluminum cores 17 through epoxy resin, the reinforcing layer 16 is made of polyvinyl alcohol fiber materials or polyethylene terephthalate materials, the softness, the bending resistance and the tensile strength of the branch data wire 4 are effectively improved, and the service life of the branch data wire is prolonged.

In the invention, a temperature switch is arranged on a VGA data port 7, when a circuit is unstable and causes the data line to generate heat, the temperature reaches a threshold value, the temperature switch is switched off, thereby effectively avoiding the fire and the burning out of the data line caused by overheating of the data line, a first elastic filling layer 9 is filled in a gap between a main data line 6, a graphene layer 10 and an aluminum foil layer 8, the first elastic filling layer 9 is made of an elastic rubber material, the first elastic filling layer 9 has certain flexibility and elasticity, when the data cable is bent by external force, the data cable is ensured to have the performance of bending without irreversible deformation to a certain extent, the data cable can be used in a repeatedly bending environment, the environmental adaptability of the data cable is improved, and a shielding insulating layer 12 adopts a doped cross-linked polymer formed by ion exchange of sodium tetrachloro-cuprate and zinc borate, the polymer forms an ionic polymer of tetrachloro copper acid radical and borate through ion exchange, and other small molecular substances are not added, so that the phenomena of phase separation and molecular permeation of inorganic small molecules in the use process are effectively avoided.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (8)

1. The utility model provides a be used for game machine multiport data line, includes microphone wiring end (1), influences wiring end (2), USB interface end (3), shielding shell (5) and VGA data port (7), its characterized in that, connect through trunk data line (6) between shielding shell (5) and VGA data port (7), the other end and USB interface end (3), influence wiring end (2) and microphone wiring end (1) of shielding shell (5) all are connected through branch data line (4), every trunk data line (6) all include aluminium foil layer (8), the parcel has first elasticity filling layer (9) in aluminium foil layer (8), connect through epoxy between aluminium foil layer (8) and first elasticity filling layer (9), the symmetry is provided with three graphite alkene layer (10) in first elasticity filling layer (9), every graphite layer (10) and first elasticity filling layer (9) are all bonded through epoxy between bonding Together, every all include second elasticity filling layer (11) in graphite alkene layer (10), bond through epoxy between graphite alkene layer (10) and second elasticity filling layer (11), every all include two shielding insulating layer (12) in second elasticity filling layer (11), bond together through epoxy between second elasticity filling layer (11) and shielding insulating layer (12), two shielding insulating layer (12) symmetry sets up, every shielding insulating layer (12) are interior all wrapped up copper core (13), bond through epoxy between copper core (13) and the shielding insulating layer (12), every branch data line (4) all include restrictive coating (14), every all include outer shielding layer (15) in restrictive coating (14), bond together through epoxy between restrictive coating (14) and outer shielding layer (15), each outer shielding layer (15) is internally provided with a reinforcing layer (16), the outer shielding layer (15) and the reinforcing layer (16) are bonded together through epoxy resin, each reinforcing layer (16) is internally provided with an aluminum core (17), and the reinforcing layer (16) and the aluminum core (17) are bonded together through epoxy resin.

2. The multiport data line for gaming machines according to claim 1, wherein the first and second resilient filler layers (9, 11) are each made of a resilient rubber material.

3. The multi-port data line for the game console according to claim 1, wherein the sheath layer (14) is made of one of polyvinyl chloride and polyurethane for the multi-port data line for the game console.

4. The multiport data line for gaming machines according to claim 1, wherein each of said aluminum cores (17) has a diameter twice that of a copper core (13), each of said aluminum cores (17) being connected to two copper cores (13).

5. The multiport data line for gaming machines of claim 1, wherein the reinforcing layer (16) is made of a polyvinyl alcohol fiber material or a polyethylene terephthalate material.

6. The multiport data line for gaming machines of claim 1, wherein a flame retardant is disposed within the jacket layer (14).

7. The multiport data line for gaming machines as in claim 1, wherein the trunk data line (6) has a length of 0.5 meters and each of the branch data lines (4) has a length of 0.1 meters.

8. The multiport data line for gaming machines according to claim 1, wherein the trunk data line (6) has a diameter greater than the diameter of each branch data line (4).

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