CN113990217A - Network cable capable of being visually identified and wired and network cable equipment - Google Patents

Abstract

The invention discloses a network cable capable of visually identifying a routing and network cable equipment, wherein the network cable capable of visually identifying the routing comprises a network cable body, an optical fiber and a transparent sheath, wherein the optical fiber is arranged on the network cable body along the direction of the network cable body; the transparent sheath is used for protecting the network cable body and the optical fiber and is sleeved outside the network cable body and the optical fiber; the end part of the optical fiber extends out of the transparent sheath and is used for being connected with a light source, and when the end part of the optical fiber is connected with the light source, light rays emitted by the optical fiber penetrate through the transparent sheath and reach the outside of the transparent sheath. The optical fiber arranged along the trend of the network cable body emits light, so that the physical wiring position of the network cable can be rapidly and clearly identified by naked eyes.

Description

Network cable capable of being visually identified and wired and network cable equipment

Technical Field

The invention relates to the technical field of hardware equipment design, in particular to a network cable capable of being visually identified. In addition, the invention also relates to a network cable equipment of the network cable capable of being visually identified, which comprises the network cable capable of being visually identified.

Background

In the current data center, a traditional method for identifying the physical wiring position of a network cable is to attach paper labels at two ends (head and tail) of the network cable, and workers identify the wiring position through the paper labels, which may cause the occurrence of manual misoperation.

Under many circumstances, when looking for the network cable physical routing position, the staff identifies the label at the end of the network cable by naked eyes, but because the lighting of light in the cabinet is poor, the equipment carried in the cabinet is numerous, and various cables are mixed together, the working efficiency of the staff is greatly affected, especially under the condition of working pressure, the staff is very likely to misread the letters or numbers on the label, and the serious situation may cause serious damage to the equipment and data in the cabinet.

In some cases, in order to clearly identify letters or numbers on the network cable tags, even the network cable tags need to be manually fine-tuned for identification, which may cause poor quality network cables to fall off from the switch, and may cause data interruption seriously.

In summary, how to solve the problem of difficulty in identifying the physical routing position of the network cable is a problem to be solved urgently by those skilled in the art.

Disclosure of Invention

In view of the above, an object of the present invention is to provide a network cable capable of being visually identified, and the physical cable position of the network cable can be rapidly and clearly identified by the naked eye.

Another object of the present invention is to provide a mesh device of visually identifiable traces comprising the mesh of visually identifiable traces described above.

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

the utility model provides a but net twine of naked eye discernment line, includes the net twine body, still includes:

the optical fiber is arranged on the network cable body along the trend of the network cable body;

the transparent sheath is used for protecting the network cable body and the optical fiber and sleeved outside the network cable body and the optical fiber;

the end part of the optical fiber extends out of the transparent sheath and is used for being connected with a light source, and when the end part of the optical fiber is connected with the light source, light rays emitted by the optical fiber penetrate through the transparent sheath and reach the outside of the transparent sheath.

Preferably, wire holes are formed in both ends of the transparent sheath, and both ends of the optical fiber penetrate through the wire holes and are arranged outside the transparent sheath.

Preferably, an optical fiber exposure protective cover is arranged on the outer portion of the transparent sheath, and the end portion of the optical fiber penetrates through the outlet hole and is arranged inside the optical fiber exposure protective cover.

Preferably, the network cable body comprises a plurality of groups of signal lines and a blade framework, the blade framework divides the inner space of the transparent sheath into a plurality of spaces, and the optical fibers and the signal lines are respectively arranged in the spaces in a one-to-one correspondence manner.

Preferably, the optical fiber is a PMMA plastic optical fiber.

Preferably, the transparent sheath is a transparent PVC sheath.

The network cable equipment capable of visually identifying the routing comprises the network cable capable of visually identifying the routing and further comprises a light source device, wherein the light source device is used for being connected with an optical fiber to provide a power supply.

Preferably, the light source interface of the light source device is detachably connected to the end of the optical fiber.

Preferably, the light source device is provided with a plurality of light-emitting light source interfaces connected with the optical fibers.

Preferably, the light source device is provided with a plurality of light sources with different colors, and the light source device is provided with a light source switch which is connected with a controller of the light source device for controlling the light sources to emit light.

According to the network cable capable of visually identifying the routing, the optical fiber is arranged on the network cable body, the transparent sheath is used for protecting the optical fiber and the network cable body, when the physical routing position of the network cable needs to be checked, the optical fiber is connected with the light source, the whole optical fiber can emit light, the light emitted by the optical fiber can penetrate through the transparent sheath, and the physical routing of the network cable can be identified.

Through making the net twine luminous, the staff can be simply, conveniently with the physics of naked eye discernment net twine walk the line under the not good condition of light condition to improve work efficiency.

The invention also provides the network cable equipment with the network cable capable of visually identifying the wires, which comprises the network cable capable of visually identifying the wires.

Drawings

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

Fig. 1 is a cross-sectional view of a network cable with a trace visible to the naked eye according to the present invention;

FIG. 2 is a side view of a grid with visually identifiable traces according to the present invention;

fig. 3 is a schematic structural diagram of a light source device of a network cable device capable of visually identifying a routing provided by the invention.

In FIGS. 1-3:

the device comprises a transparent sheath 1, an optical fiber 2, an insulated wire 3, a conductor 4, a blade framework 5, a tearing rope 6, an optical fiber exposure protective cover 7, a luminous light source interface 8, a light source switch 9 and an indicator light 10.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The core of the invention is to provide the network cable capable of identifying the routing by naked eyes, and the physical routing position of the network cable can be rapidly and clearly identified by naked eyes.

Another core of the present invention is to provide a network cable device including the network cable of the above-mentioned visually identifiable line.

Referring to fig. 1-3, fig. 1 is a cross-sectional view of a network cable with wires capable of being visually identified; FIG. 2 is a side view of a mesh wire with visually identifiable traces; fig. 3 is a schematic structural diagram of a light source device.

The network cable capable of being visually identified comprises a network cable body, optical fibers 2 and a transparent sheath 1, wherein the optical fibers 2 are arranged on the network cable body along the trend of the network cable body; the transparent sheath 1 is used for protecting the network cable body and the optical fiber 2, and the transparent sheath 1 is sleeved outside the network cable body and the optical fiber 2; the end of the optical fiber 2 extends out of the transparent sheath 1 for connecting with a light source, and when the end of the optical fiber 2 is connected with the light source, the light emitted by the optical fiber 2 penetrates through the transparent sheath 1 and reaches the outside.

Specifically, inside transparent sheath 1 was located to the net twine body, optic fibre 2 set up in the net twine body, add an optic fibre 2 that moves towards the setting along the net twine body in transparent sheath 1 inside promptly.

When the physical line position of walking of net twine is examined to needs, connect the light source with the one end of optic fibre 2, make optic fibre 2 luminous, optic fibre 2 can be luminous along the trend of net twine body promptly, and the light that optic fibre 2 sent sees through transparent sheath 1 and reaches its outside, and at this moment, the staff can walk the line position through the physics of the light identification net twine that sees through out.

Through increasing optic fibre 2 and making it luminous, the physics that enables the staff quick, clearly discernment net twine walks the line position, is particularly useful for discerning under the dim condition of light such as rack to improve staff's inspection efficiency.

Optionally, two or more optical fibers 2 may be added.

Alternatively, the light sources may be connected to both ends of the optical fiber 2.

Optionally, the optical fiber 2 may have the same length as the mesh wire body, and is disposed in the transparent sheath 1 to limit the position of the entire mesh wire body, or the length of the optical fiber 2 may be smaller than the length of the mesh wire body, for example, three quarters of the length of the mesh wire body, so as to display the main body trend of the mesh wire body. In actual installation, it is preferable that the optical fiber 2 and the mesh wire body have substantially the same length.

On the basis of the above embodiment, both ends of the transparent sheath 1 are provided with the wire outlet holes, and both ends of the optical fiber 2 pass through the wire outlet holes and are arranged outside the transparent sheath 1.

Specifically, the wire outlet hole may be located at an end portion of the transparent sheath 1, i.e., an end portion of the mesh wire body, or, referring to fig. 2, may also be provided at a circumferential outer periphery of the transparent sheath 1 near the end portion of the mesh wire body so as to be connected to the light source.

When the physics of net twine was walked the line position when needs inspection, only need locate transparent sheath 1 outside one section with light source and 2 both ends of optic fibre and be connected, utilize the leaded light effect of optic fibre 2, make whole net twine body marked by luminous light 2, avoid the abnormal motion to other normal net twines, reduce the fortune and maintain the risk.

Alternatively, an openable and closable opening may be provided at a position on the transparent sheath 1 at both ends of the optical fiber 2, and when connection is required, the opening is opened to take out the optical fiber 2, or the opening is provided in another manner.

In addition to the above embodiments, the transparent sheath 1 is provided with the optical fiber exposure protective cover 7 on the outside, and the end of the optical fiber 2 is passed through the outlet hole and provided inside the optical fiber exposure protective cover 7.

Specifically, the fixed setting of optic fibre exposure safety cover 7 and the outside of transparent sheath 1, the part that optic fibre 2 both ends are located the outside of transparent sheath 1 sets up inside optic fibre exposure safety cover 7, when the physics of needs inspection net twine walks the line position, expose safety cover 7 with optic fibre 2 from optic fibre and take out and be connected with external light source can.

The arrangement of the optical fiber exposure protective cover 7 can avoid the problem that the optical fiber 2 positioned outside is damaged to cause poor connection or poor light guiding effect.

On the basis of any one of the above schemes, the network cable body comprises a plurality of groups of signal lines and a blade framework 5, in order to enable each signal line and each light ray 2 not to be influenced mutually, the blade framework 5 divides the inner space of the transparent sheath 1 into a plurality of spaces, and the optical fibers 2 and the signal lines of each group are respectively arranged in the plurality of spaces in a one-to-one correspondence manner. It should be noted that, a plurality of spaces all extend along the length direction of the net line body, please refer to fig. 1, at the cross section of the net line, each space is divided by the blade framework 5.

Specifically, the net twine body includes that tear rope 6, insulated wire 3, conductor 4 and blade skeleton 5, and one of them insulated wire 3 and a conductor 4 form a set of signal line, and blade skeleton 5 separates into a plurality of space with the inside space of transparent sheath 1 on the round, and every space has a set of signal line, and optic fibre 2 is located a space alone, tears rope 6 and a set of signal line and is located a space.

The optical fiber 2 is independently positioned in a space and is not positioned in the center of the inner space of the transparent sheath 1, so that the situation that light cannot penetrate out due to the fact that the optical fiber 2 is wrapped by other signal wires can be avoided.

Optionally, the optical fiber 2 and the network cable body may be arranged in other manners that enable the light of the optical fiber 2 to better penetrate out.

On the basis of any of the above solutions, the optical fiber 2 is a PMMA plastic optical fiber.

The PMMA plastic optical fiber has the advantages of selectable core diameter, soft texture, easy connection, light weight, low price, large transmission bandwidth and the like, and the PMMA plastic optical fiber can have good light guide effect under the condition of not increasing the cost.

Alternatively, optical fibers 2 of other materials may be used.

On the basis of any one of the above schemes, the transparent sheath 1 is a transparent PVC sheath.

The transparent PVC sheath has the characteristics of light weight, good insulation and low price, and the transparent sheath 1 made of other materials can be used.

The invention also provides the network cable equipment capable of visually identifying the routing, which comprises the network cable capable of visually identifying the routing disclosed by the embodiment, and the network cable equipment also comprises a light source device, wherein the light source device is used for being connected with the optical fiber 2 so as to provide a light source.

When the physical wiring position of the network cable needs to be checked, the light source device is connected with the end part of the optical fiber 2, the optical fiber 2 emits light through the light source emitted by the light source device, and therefore the physical wiring position of the network cable is identified through the light emitted from the transparent sheath 1, and the light source provided by the light source device is simple, convenient and quick.

Alternatively, the light source may be provided in other ways.

On the basis of the above embodiment, the light source interface 8 of the light source device is detachably connected to the end portion of the optical fiber 2.

Specifically, when the physical routing position of the network cable needs to be checked, the light-emitting light source interface 8 of the light source device is connected with the end part of the optical fiber 2; when the physical wiring position of the network cable does not need to be checked, the light-emitting light source interface 8 of the light source device is disconnected with the end part of the optical fiber 2.

The luminous light source interface 8 of the light source device is detachably connected with the end part of the optical fiber 2, so that the network cable does not need to be connected with the light source device during daily work, the space in a cabinet or other devices can be saved, and the volume is reduced.

Optionally, the light source is a hand-held multi-color LED light source or other light source.

On the basis of the above-described embodiment, the light source device is provided with a plurality of light-emitting light source interfaces 8 connected to the optical fibers 2.

Be equipped with a plurality of light source interface 8 that give off light on the light source ware, when the physics of inspection net twine walked the line position, can be connected the optic fibre 2 of many net twines with the light source ware simultaneously to can once inspect the physics of many net twines and walk the line position, improve work efficiency.

Alternatively, the light source controller may control the sequence of light emission of each optical fiber 2 or perform the inspection in other manners.

On the basis of any one of the above schemes, the light source device is provided with a plurality of light sources with different colors, the light source device is provided with a light source switch 9, and the light source switch 9 is connected with a controller of the light source device for controlling the light sources to emit light.

It is specific, every luminous light source interface 8 corresponds the light source of a colour, and be equipped with the pilot lamp 10 that the mark corresponds luminous light source interface 8's light source colour on the light source ware, when simultaneously with many net twines access light source ware, press light source switch 9, the controller control light source ware of light source ware sends the light source that corresponds the colour at every luminous light source interface 8, can obtain the net twine of many different colours, thereby distinguish the net twine according to the difference of 2 colours of optic fibre, the line position is walked to the physics of net twine is discerned according to 2 trends of optic fibre again, consequently, can realize discerning the line position is walked to the physics of many net twines simultaneously, improve staff's work efficiency.

Optionally, the physical routing positions of the multiple network cables can be identified simultaneously by using light sources with the same color and different intensities or in other manners. Alternatively, different light sources can be set to different states such as different flicker degrees, so as to distinguish different mesh wires.

Optionally, the light source device may also be provided with light source switches 9 corresponding to each light emitting source interface 8.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The network cable and the network cable equipment which can be visually identified and wired are described in detail above. The principles and embodiments of the present invention are explained herein using specific examples, which are presented only to assist in understanding the method and its core concepts. It should be noted that, for those skilled in the art, it is possible to make various improvements and modifications to the present invention without departing from the principle of the present invention, and those improvements and modifications also fall within the scope of the claims of the present invention.

Claims (10)

1. The utility model provides a but net twine of line is walked in naked eye discernment, includes the net twine body, its characterized in that still includes:

the optical fiber (2) is arranged on the network cable body along the trend of the network cable body;

the transparent sheath (1) is used for protecting the network cable body and the optical fiber (2), and the transparent sheath (1) is sleeved outside the network cable body and the optical fiber (2);

the end part of the optical fiber (2) extends out of the transparent sheath (1) and is used for being connected with a light source, and when the end part of the optical fiber (2) is connected with the light source, light rays emitted by the optical fiber (2) penetrate through the transparent sheath (1) and reach the outside of the transparent sheath.

2. The network cable of the trace capable of being identified by naked eyes according to claim 1, wherein both ends of the transparent sheath (1) are provided with wire holes, and both ends of the optical fiber (2) are arranged outside the transparent sheath (1) through the wire holes.

3. The network cable of the visually identifiable wire according to claim 2, wherein the transparent sheath (1) is provided with a fiber-exposed protective cover (7) on the outside, and the end of the optical fiber (2) is threaded through the outlet hole and is provided inside the fiber-exposed protective cover (7).

4. The network cable with the routing capable of being identified by naked eyes according to any one of claims 1 to 3, wherein the network cable body comprises a plurality of groups of signal lines and a blade framework (5), the blade framework (5) divides the internal space of the transparent sheath (1) into a plurality of spaces, and the optical fibers (2) and the signal lines of each group are respectively arranged in the plurality of spaces in a one-to-one correspondence manner.

5. The mesh of visually identifiable traces of any one of claims 1-3, wherein the optical fiber (2) is a PMMA plastic optical fiber.

6. A mesh wire of a visually identifiable wire according to any of the claims 1-3, characterised in that the transparent sheath (1) is a transparent PVC sheath.

7. A network cable device of a visually identifiable cable, comprising a network cable of a visually identifiable cable according to any one of claims 1-6, and further comprising a light source for connection to an optical fiber (2) for providing a power supply.

8. The mesh equipment of the trace capable of being identified by naked eyes as claimed in claim 7, wherein the light source interface (8) of the light source device is detachably connected to the end of the optical fiber (2).

9. Network cabling device of a visually identifiable wire according to claim 7, wherein said light source is provided with a plurality of light emitting light source interfaces (8) connected to said optical fibers (2).

10. The network cable equipment capable of visually identifying cabling according to claim 9, wherein the light source device is provided with a plurality of light sources with different colors, the light source device is provided with a light source switch (9), and the light source switch (9) is connected with a controller of the light source device, which controls the light sources to emit light.

Images