CN110690921A - Wireless network transmitting terminal with optical fiber detection device for communication engineering - Google Patents

Abstract

The invention discloses a wireless network transmitting terminal with an optical fiber detection device for communication engineering, belonging to the field of wireless transmitting terminals, wherein each terminal and device in the communication engineering are modularized to form the division and cooperation between social animals living in nature, and each terminal and device are separately managed, so that each terminal and module respectively have independent function and are independently maintained, the influence of the damage of a single module on the whole communication engineering is reduced, in the process of maintaining the single module, a worker can clearly observe the scattering of optical signals after bending the optical fibers through a kaleidoscope lens device, the maintenance and the inspection of the worker are facilitated, and in the process of detecting and maintaining the optical fiber lines, the change of the position relationship between a protective skin and a heat dissipation paste can be realized, and rapidly positioning the fault point.

Description

Wireless network transmitting terminal with optical fiber detection device for communication engineering

Technical Field

The invention relates to the field of wireless transmitting terminals, in particular to a wireless network transmitting terminal with an optical fiber detection device for communication engineering.

Background

The fine optical fiber is packaged in a plastic sheath, so that the fine optical fiber can be bent without breaking, generally, a light emitting diode or a laser beam is used for transmitting light pulses to the optical fiber by a transmitting device at one end of the optical fiber, a photosensitive element is used for detecting the pulses by a receiving device at the other end of the optical fiber, and the technology used by the optical fiber is total internal reflection, which refers to the phenomenon that when light is emitted to an interface of an optically denser medium (namely, the refractive index of the light in the medium is large) and an optically thinner medium (namely, the refractive index of the light in the medium is small), the light is totally reflected back into the original medium, so that once a quartz line in the optical fiber is folded, the transmission quality.

In a biosphere, a plurality of social organisms such as ants, bees and the like exist, in the biological communities, division of labor among each insect is clear, for example, worker ants specially responsible for foraging and caring cubs, soldiers responsible for group confrontation and ground maintenance, male ants responsible for reproduction, postants and the like are arranged in an ant community, reasonable division of labor is conducted on members in the large community, reasonable work is arranged on different members, different division modules are formed, the relationship among members in the community is greatly simplified, the maintenance cost in the community is reduced, and meanwhile, the influence of injury or death of the members in a single module on the whole community is reduced.

The existing telecommunication system modularization is in an initial stage, the modularization degree of each part is low, and usually a certain telecommunication terminal in a certain area breaks down, so that the telecommunication system in the area is in a paralyzed state for a long time, the maintenance of workers is troublesome, and the user experience is seriously influenced.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a wireless network transmitting terminal provided with an optical fiber detection device for communication engineering, which can realize modularization of a communication system, is convenient for workers to maintain and repair, greatly reduces the working intensity of the workers, reduces the operation cost of the communication system and reduces the maintenance intensity of the communication system.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

A wireless network transmitting terminal with an optical fiber detection device for communication engineering comprises a wireless signal terminal, wherein the wireless signal terminal is connected with a limited signal terminal, the limited signal terminal is connected with a signal transmitting terminal, the wireless signal terminal is connected with a cloud storage device, the cloud storage device is in signal connection with the signal transmitting terminal, a jack is formed in the wireless signal terminal, a pair of clamps are inserted into the jack, each clamp comprises a limiting semi-ring and a sleeve ring, the limiting semi-rings are positioned on the outer sides of the jacks, the sleeve rings are inserted into the jacks, a pair of sliding grooves are formed in the wireless signal terminal, sliding rods are fixedly connected between the side walls of the sliding grooves, limiting sliding blocks matched with the sliding grooves are fixedly connected to the two limiting semi-rings respectively, the two sliding rods respectively penetrate through the limiting sliding blocks, and compression springs are fixedly connected between the limiting sliding blocks and the inner walls of the sliding, and compression spring cup joints in the slide bar outside, compression spring is located the one side that the jack was kept away from to spacing slider, can realize the communication system modularization, makes things convenient for the staff to maintain and repair, reduces staff's working strength by a wide margin, reduces communication system's running cost, reduces communication system's maintenance intensity.

Furthermore, the structure of the limiting half ring is the same as that of the lens in the kaleidoscope, namely the surface of the limiting half ring is provided with a plurality of regular rhombic lens units, and the limiting half ring made of the structure of the kaleidoscope lens can diffuse light beams and enlarge the light beam scattering.

Further, wired signal connection of wireless signal terminal has limited signal terminal, wired signal connection of limited signal terminal has signal transmission terminal, signal transmission terminal wireless signal connection has high in the clouds storage device, and wireless signal connection between high in the clouds storage device and the wireless signal terminal, and the communication service who is provided by signal transmission terminal conveys wireless signal terminal through limited signal terminal and is launched wireless signal by wireless signal terminal again, provides service for the communication user, divides each communication unit into different modules, makes things convenient for staff's routine maintenance and repair.

Furthermore, be connected with wear ring between slide bar and the spacing slider, and wear ring and spacing slider fixed connection, wear ring can reduce the wearing and tearing between spacing slider and the slide bar by a wide margin, makes the connection between spacing slider and the slide bar be difficult for appearing rocking.

Furthermore, two it has the quick-operation joint to peg graft between the clamping, a section fixedly connected with optic fibre line that wireless signal terminal was kept away from to the quick-operation joint, the optic fibre line is connected with optic fibre quartz core, and optic fibre quartz core pegs graft in the quick-operation joint, and optic fibre quartz core is the signal transmission medium of optic fibre main part for transmit optical signal, and the quick-operation joint then is the quick-operation joint of optic fibre line, makes things convenient for staff's routine maintenance work.

Furthermore, the optical fiber line comprises an optical fiber main body, the optical fiber quartz core is inserted in the optical fiber main body, and the optical fiber quartz core is a signal transmission medium of the optical fiber main body.

Furthermore, the optical fiber line includes four optical fiber main bodies, and four optical fiber main bodies are twisted together, and be in comparatively lax twist state between the four optical fiber main bodies, comparatively lax twist state neither can cause excessive damage to the optic fibre quartz core in the optical fiber main body, also can suitably increase the anti ability of buckling of optical fiber main body simultaneously, increases optical fiber main body's intensity by a wide margin.

Furthermore, four the outside parcel of optic fibre main part has the buffer layer, the protection skin has been cup jointed in the outside of buffer layer, and buffer layer and protection skin are the protection architecture of optic fibre main part, make the optic fibre main part be difficult for by external force damage.

Further, be equipped with the heat dissipation layer between optic fibre main part and the buffer layer, the one end fixedly connected with that the optic fibre main part was kept away from on the heat dissipation layer is a plurality of posts that run through, and runs through the post and run through buffer layer and protection skin in proper order, run through a section fixedly connected with heat dissipation subsides that the post was kept away from the heat dissipation layer, run through post and heat dissipation subsides the heat radiation structure for the optic fibre main part for optic fibre main part and external heat convection's speed makes the optic fibre main part be difficult for long-time in high temperature state work.

Furthermore, the heat dissipation pastes and adopts the countersunk head design, dispels the heat promptly and pastes and inlay in the protection skin surface, makes the protection skin be difficult for colluding the foreign object, is difficult for causing the protection skin to damage, it chooses for use high tenacity aluminum alloy to run through the post and the heat dissipation pastes to make, and runs through the surface of post and heat dissipation subsides and all pass through passivation treatment, and passivation treatment's the post that runs through and the heat dissipation pastes the surface and can form compact oxide film, increases the corrosion resisting ability that runs through post and heat dissipation subsides by a wide margin.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

according to the scheme, each terminal and the device in the communication engineering are modularized, the division and cooperation between social group animals in the similar nature is formed, each terminal and each device are managed separately, each terminal and each module have independent functions respectively and are maintained independently, the influence of damage of each module on the whole communication engineering is reduced as much as possible, in the process of daily maintenance of each module, the leakage of optical signals after bending of the optical fibers can be increased through a kaleidoscope lens structure, workers can clearly observe the scattering of the optical signals after bending of the optical fibers, the workers can conveniently perform daily maintenance inspection, when the optical fibers are detected and maintained, the position relation between the protective skin and the heat dissipation sticker can amplify the bending or folding of the inside of the optical fibers, and the workers can conveniently and quickly position fault points.

Drawings

FIG. 1 is a schematic diagram of the main structure of the present invention;

FIG. 2 is a side cross-sectional view of a wireless terminal interface of the present invention;

FIG. 3 is a schematic view of the structure at A in FIG. 2;

FIG. 4 is a cross-sectional view of an optical fiber of the present invention;

FIG. 5 is a schematic view of the structure at B in FIG. 4;

fig. 6 is a schematic structural diagram of a wireless interface according to the present invention.

The reference numbers in the figures illustrate:

the system comprises a signal transmitting terminal 1, a wired signal terminal 2, a wireless signal terminal 3, a cloud storage device 4, optical fibers 5, an optical fiber quartz core 6, a clamp 7, a limiting half ring 701, a lantern ring 702, a limiting sliding block 8, a sliding groove 9, a sliding rod 10, a compression spring 11, a heat dissipation layer 12, a buffer layer 13, a protective skin 14, a penetrating column 15, a heat dissipation paste 16 and a quick connector 17.

Detailed Description

The drawings in the embodiments of the invention will be combined; the technical scheme in the embodiment of the invention is clearly and completely described; obviously; the described embodiments are only some of the embodiments of the invention; but not all embodiments, are based on the embodiments of the invention; all other embodiments obtained by a person skilled in the art without making any inventive step; all fall within the scope of protection of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1:

referring to fig. 2-3, including a wireless signal terminal 3, the wireless signal terminal 3 is connected with a limited signal terminal 2, the limited signal terminal 2 is connected with a signal transmitting terminal 1, the wireless signal terminal 3 is connected with a cloud storage device 4, the cloud storage device 4 is in signal connection with the signal transmitting terminal 1, a jack is cut on the wireless signal terminal 3, a pair of clips 7 are inserted in the jack, both clips 7 include a limit half ring 701 and a collar 702, the limit half ring 701 is located outside the jack, the collar 702 is inserted in the jack, a pair of chutes 9 are cut on the wireless signal terminal 3, slide bars 10 are fixedly connected between the side walls of the chutes 9, limit sliders 8 matched with the chutes 9 are respectively fixedly connected on the two limit half rings 701, and the two slide bars 10 respectively penetrate through the limit sliders 8, compression springs 11 are fixedly connected between the limit sliders 8 and the inner walls of the chutes 9, and the compression spring 11 is sleeved outside the sliding rod 10, and the compression spring 11 is positioned on one side of the limiting sliding block 8 far away from the jack, so that the communication system can be modularized, the maintenance and repair of workers are facilitated, the working strength of the workers is greatly reduced, the operation cost of the communication system is reduced, and the maintenance strength of the communication system is reduced.

Referring to fig. 2-3, the structure of the half-stop ring 701 is the same as that of the lens in the kaleidoscope, that is, the surface of the half-stop ring 701 is provided with a plurality of regular rhombic lens units, the half-stop ring 701 made of the structure of the kaleidoscope lens can diffuse light beams and expand light beam scattering, a wear-resistant ring is connected between the slide bar 10 and the slide block 8 and fixedly connected with the slide block 8, the wear-resistant ring can greatly reduce the wear between the slide block 8 and the slide bar 10, so that the connection between the slide block 8 and the slide bar 10 is not easy to shake, a quick connector 17 is inserted between the two clips 7, a section of the quick connector 17 away from the wireless signal terminal 3 is fixedly connected with an optical fiber line, the optical fiber line is connected with an optical fiber quartz core 6, the optical fiber quartz core 6 is inserted in the quick connector 17, the optical fiber quartz core 6 is a signal transmission medium, the quick connector 17 is a quick connector for an optical fiber line, after the optical fiber is bent, the optical fiber quartz core 6 can also move to a certain extent, and at the moment, an optical signal transmitted by the optical fiber quartz core 6 can pass through the limiting half ring 701, so that a strong diffuse reflection phenomenon occurs, a worker can easily find the abnormal situation at the position of the clamp 7 in the routine maintenance process, and the routine maintenance work of the worker is facilitated.

Referring to fig. 4-5, the optical fiber line includes an optical fiber main body 5, the optical fiber quartz core 6 is inserted into the optical fiber main body 5, the optical fiber quartz core 6 is a signal transmission medium of the optical fiber main body 5, the optical fiber line includes four optical fiber main bodies 5, the four optical fiber main bodies 5 are screwed together, and the four optical fiber main bodies 5 are in a loose screwed state, the loose screwed state will not cause excessive damage to the optical fiber quartz core 6 in the optical fiber main body 5, and simultaneously can properly increase the bending resistance of the optical fiber main body 5, thereby greatly increasing the strength of the optical fiber main body 5, the outer sides of the four optical fiber main bodies 5 are wrapped with buffer layers 13, the outer sides of the buffer layers 13 are sleeved with protective skins 14, and the buffer layers 13 and the protective skins 14 are both protection structures of the optical fiber main bodies 5, so that the optical fiber main bodies 5.

Referring to fig. 4-5, a heat dissipation layer 12 is disposed between the optical fiber main body 5 and the buffer layer 13, one end of the heat dissipation layer 12 away from the optical fiber main body 5 is fixedly connected with a plurality of through pillars 15, the through pillars 15 sequentially penetrate the buffer layer 13 and the protective skin 14, a section of the through pillars 15 away from the heat dissipation layer 12 is fixedly connected with a heat dissipation patch 16, the heat dissipation layer 12, the through pillars 15 and the heat dissipation patch 16 are heat dissipation structures of the optical fiber main body 5, so as to accelerate the convection speed of heat between the optical fiber main body 5 and the outside, so that the optical fiber main body 5 is not easy to work at a high temperature for a long time, the heat dissipation patch 16 adopts a countersunk design, i.e. the heat dissipation patch 16 is embedded on the surface of the protective skin 14, so that the protective skin 14 is not easy to hook up foreign objects, the protective skin 14 is not easy to be damaged, the through pillars 15 and the heat dissipation patch 16 are made of high-toughness aluminum alloy, and the surfaces of the through, the corrosion resistance of the through column 15 and the heat dissipation sticker 16 is greatly improved, when the optical fiber main body 5, the buffer layer 13 and the protection skin 14 are bent, the optical fiber main body 5 can drive the through column 15 and the heat dissipation sticker 16 to move together, so that the through column 15 is partially ejected out of the protection skin 14, the bending amplitude of the optical fiber main body 5, the buffer layer 13 and the protection skin 14 is enlarged, and a worker can find out an accident point conveniently.

Referring to fig. 1, a wired signal of a wireless signal terminal 3 is connected with a limited signal terminal 2, the wired signal of the limited signal terminal 2 is connected with a signal transmitting terminal 1, the wireless signal of the signal transmitting terminal 1 is connected with a cloud storage device 4, and the cloud storage device 4 is in wireless signal connection with the wireless signal terminal 3, the communication service provided by the signal transmitting terminal 1 is transmitted to the wireless signal terminal 3 through the limited signal terminal 2, and then the wireless signal terminal 3 transmits a wireless signal, so that the service is provided for a communication user, each communication unit is divided into different modules, and the daily maintenance and repair of workers are facilitated.

In the normal working process of the communication system, the signal transmitting terminal 1 transmits signals to the limited signal terminal 2 through an optical fiber line, and then the limited signal terminal 2 transmits the signals to the wireless signal terminal 3 through the optical fiber line, wherein the signal transmitting terminal 1 is equivalent to the ant back in the ant colony society, is the most important structure in the whole communication system and is the core of the communication system, the limited signal terminal 2 is equivalent to the worker ant in the ant colony society, is numerous and is the basis of the communication system, and finally, the wireless signal terminal 3 is equivalent to the soldier ant in the ant colony society and is the most important device for the force development of the communication system, the division of labor among the signal transmitting terminal 1, the limited signal terminal 2 and the wireless signal terminal 3 is obvious, and separate modules are formed among the signal transmitting terminal 1 and the limited signal terminal 2 for separate maintenance and management, when the optical fiber line between the signal transmitting terminal 1 and the limited signal terminal 2 fails, the connection between the limited signal terminal 2 and the wireless signal terminal 3 normally exists, the limited signal terminal 2 can send a corresponding instruction to the cloud storage device 4, the cloud storage device 4 then transmits the corresponding instruction to the signal transmitting terminal 1, at the moment, a worker can specially maintain an optical fiber line between the signal transmitting terminal 1 and the limited signal terminal 2, when the optical fiber line between the limited signal terminal 2 and the wireless signal terminal 3 is damaged, the connection between the limited signal terminal 2 and the wireless signal terminal 3 is in a disconnected state, the limited signal terminal 2 can send the corresponding instruction to the cloud storage device 4, then the cloud storage device 4 transmits the corresponding instruction to the signal transmitting terminal 1, the sent instruction is sent by a single chip microcomputer installed in the wireless signal terminal 3, and professionals in related fields need to edit the corresponding instruction in advance in the single chip microcomputer, the daily maintenance of staff can be facilitated.

According to the scheme, each terminal and the device in the communication engineering are modularized, the division and cooperation between social group animals in the similar nature is formed, each terminal and each device are managed separately, each terminal and each module have independent functions respectively and are maintained independently, the influence of damage of each module on the whole communication engineering is reduced as much as possible, in the process of daily maintenance of each module, the leakage of optical signals after bending of the optical fibers can be increased through a kaleidoscope lens structure, workers can clearly observe the scattering of the optical signals after bending of the optical fibers, the workers can conveniently perform daily maintenance inspection, when the optical fibers are detected and maintained, the position relation between the protective skin and the heat dissipation sticker can amplify the bending or folding of the inside of the optical fibers, and the workers can conveniently and quickly position fault points.

The above; but are merely preferred embodiments of the invention; the scope of the invention is not limited thereto; any person skilled in the art is within the technical scope of the present disclosure; the technical scheme and the improved concept of the invention are equally replaced or changed; are intended to be covered by the scope of the present invention.

Claims (10)

1. A wireless network transmitting terminal with an optical fiber detection device for communication engineering comprises a wireless signal terminal (3), and is characterized in that: the wireless signal terminal (3) is connected with a limited signal terminal (2), the limited signal terminal (2) is connected with a signal transmitting terminal (1), the wireless signal terminal (3) is connected with a cloud storage device (4), the cloud storage device (4) is in signal connection with the signal transmitting terminal (1), jacks are formed in the wireless signal terminal (3), a pair of clamps (7) are inserted in the jacks, each of the two clamps (7) comprises a limit semi-ring (701) and a lantern ring (702), the limit semi-rings (701) are located on the outer sides of the jacks, the lantern rings (702) are inserted in the jacks, a pair of sliding grooves (9) are formed in the wireless signal terminal (3), a sliding rod (10) is fixedly connected between the side walls of the sliding grooves (9), and limit sliding blocks (8) matched with the sliding grooves (9) are fixedly connected to the two limit semi-rings (701) respectively, and two slide bars (10) run through limit slide block (8) respectively, fixedly connected with compression spring (11) between limit slide block (8) and spout (9) inner wall, and compression spring (11) cup joint in the slide bar (10) outside, compression spring (11) are located one side that limit slide block (8) kept away from the jack.

2. The launch terminal of claim 1 for a wireless network equipped with a fiber detection device for communication engineering, wherein: the structure of the limiting half ring (701) is the same as that of the lens in the kaleidoscope, namely the surface of the limiting half ring (701) is provided with a plurality of regular rhombic lens units.

3. The launch terminal of claim 1 for a wireless network equipped with a fiber detection device for communication engineering, wherein: the wireless signal terminal (3) is connected with limited signal terminal (2), limited signal terminal (2) is connected with signal transmission terminal (1), signal transmission terminal (1) is connected with high in the clouds storage device (4), and high in the clouds storage device (4) are connected with wireless signal terminal (3).

4. The launch terminal of claim 1 for a wireless network equipped with a fiber detection device for communication engineering, wherein: and a wear-resistant ring is connected between the sliding rod (10) and the limiting sliding block (8), and the wear-resistant ring is fixedly connected with the limiting sliding block (8).

5. The launch terminal of claim 1 for a wireless network equipped with a fiber detection device for communication engineering, wherein: two it has quick-operation joint (17) to peg graft between clamping (7), a section fixedly connected with optic fibre line that wireless signal terminal (3) were kept away from in quick-operation joint (17), the optic fibre line is connected with optic fibre quartz core (6), and optic fibre quartz core (6) peg graft in quick-operation joint (17).

6. The launch terminal of claim 5 for a wireless network equipped with a fiber detection device for communication engineering, wherein: the optical fiber wire comprises an optical fiber main body (5), and the optical fiber quartz core (6) is inserted in the optical fiber main body (5).

7. The launch terminal of claim 5 for a wireless network equipped with a fiber detection device for communication engineering, wherein: the optical fiber line comprises four optical fiber main bodies (5), the four optical fiber main bodies (5) are twisted together, and the four optical fiber main bodies (5) are in a loose twisted state.

8. The launch terminal of claim 1 for a wireless network equipped with a fiber detection device for communication engineering, wherein: the outer sides of the four optical fiber main bodies (5) are wrapped by buffer layers (13), and the outer sides of the buffer layers (13) are sleeved with protective skins (14).

9. The launch terminal of claim 1 for a wireless network equipped with a fiber detection device for communication engineering, wherein: be equipped with heat dissipation layer (12) between optical fiber main part (5) and buffer layer (13), the one end fixedly connected with that optical fiber main part (5) were kept away from in heat dissipation layer (12) is a plurality of to run through post (15), and runs through post (15) and run through buffer layer (13) and protection skin (14) in proper order, it pastes (16) to run through one section fixedly connected with heat dissipation that post (15) kept away from heat dissipation layer (12).

10. The launch terminal of claim 1 for a wireless network equipped with a fiber detection device for communication engineering, wherein: the heat dissipation paste (16) adopts a countersunk design, namely the heat dissipation paste (16) is embedded on the surface of the protective skin (14), the penetrating column (15) and the heat dissipation paste (16) are made of high-toughness aluminum alloy, and the surfaces of the penetrating column (15) and the heat dissipation paste (16) are passivated.

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