CN219046144U

CN219046144U - Optical fiber construction tool

Info

Publication number: CN219046144U
Application number: CN202320092089.3U
Authority: CN
Inventors: 魏建峰; 何万军; 阮天润; 葛鹏庆
Original assignee: Zhejiang Hongsheng Communication Technology Co ltd
Current assignee: Zhejiang Hongsheng Communication Technology Co ltd
Priority date: 2023-01-31
Filing date: 2023-01-31
Publication date: 2023-05-19
Anticipated expiration: 2033-01-31

Abstract

The utility model discloses an optical fiber construction tool which comprises an electric soldering iron and a controller, wherein the electric soldering iron is arranged on a gland, the construction tool comprises a first pipe body and a battery pipe, the controller is arranged in the first pipe body, one end of the first pipe body is connected with the gland, the other end of the first pipe body is connected with the battery pipe, a plurality of batteries are arranged in the battery pipe, and the bottom of the battery pipe is connected with a bottom cover used for being connected with an external telescopic rod. The battery is connected to the first pipe body to form a whole which is convenient to carry and construct, the optical fiber is clamped on the electric soldering iron, the electric soldering iron is electrified to generate the hot melt optical fiber to bond the optical fiber to the wall body, the optical fiber can be suspended to be used when a switch key is pressed in the construction process, and because the control element and the power supply element are integrated, the limitation of construction caused by inconvenient connection of an external short-circuit power supply is avoided when the telescopic rod is externally connected, and the integral optical fiber construction tool provides convenience for construction of the optical fiber.

Description

Optical fiber construction tool

Technical Field

The utility model belongs to the field of optical fiber communication, and particularly relates to an optical fiber construction tool.

Background

With the rapid development of optical fiber communication, in recent years, in order to achieve full coverage of an optical fiber broadband, optical fiber home entry has become a trend. Because the optical fiber can only adopt the mode of wearing the wall and entering the home to lay the open line in the room, and the open line is walked to the punching on the wall that the interior decoration is good when the optical fiber is entering the home, has seriously destroyed original fitment decoration in home, has consequently developed the stealthy construction tool of optical fiber through the butt fusion construction, and this kind of instrument passes through the outer glue film of electric iron energization heat-generating hot melt optical fiber, and the optical fiber under the soldering state is laid on the wall body to the soldering iron support wall body. The existing optical fiber construction tool is not integrated, the electric soldering iron is connected with the switch and the controller through an external line, the other ends of the controller and the switch are connected to a power supply through wires, inconvenience is brought to construction due to the fact that the wires are involved, the existing construction tool is required to be connected with a rod in an external mode for operation, and inconvenience is brought to construction in places with a relatively short construction distance.

Disclosure of Invention

The utility model provides an optical fiber construction tool, which aims at the problem that the optical fiber construction tool is not integrated and is inconvenient to construct.

In order to realize the integral type of the optical fiber construction tool, the utility model is solved by the following technical scheme: the utility model provides an optic fibre construction tool, includes electric iron and controller, and electric iron installs on the gland, and construction tool includes first body and battery tube, is provided with the controller in the first body, and first body one end is connected with the gland, and the other end and the battery tube of first body are connected, and the inside multisection battery that is provided with of battery tube, battery tube bottom are connected with the bottom that is used for being connected with outside telescopic link. The battery tube is connected to the first tube body to form a whole which is convenient to carry and construct, the electric iron is electrified to generate the outer adhesive layer of the hot-melt optical fiber, and the electric iron props against the wall body to bond the optical fiber to the wall body. Because the control element and the power supply element are integrated, no external line is used for traction, the construction limitation caused by inconvenient connection of the external line with a power supply when the telescopic rod is externally connected is avoided, and the integrated optical fiber construction tool provides convenience for the construction of the optical fiber.

In the above technical scheme, preferably, the electric soldering iron comprises a heating head and a fuse wire support, wherein a connecting piece at one end of the fuse wire support is arranged between the first pipe body and the gland, an optical fiber clamp is arranged at the other end of the fuse wire support and clamped on the heating head, and a pressing piece for pressing the optical fiber clamp to be separated from the heating head is arranged on the fuse wire support. By adopting the structure, the optical fiber is pressed and clamped, and the construction of the optical fiber is safer and more convenient to finish.

In the above technical scheme, preferably, one end of the first tube body connected with the battery tube is provided with the electrode bracket, one end of the first tube body connected with the gland is provided with the indicator lamp, and the controller is installed in the first tube body. The controller is built in by adopting the structure, so that the temperature can be conveniently adjusted at any time in the construction process and the work can be suspended.

Among the above-mentioned technical scheme, preferably, the controller includes support, charge mouthful, mainboard and display screen, and support, charge mouthful and display screen install on first body, are provided with the on-off key and the key that adjusts temperature that are used for switchgear on the support, and the mainboard is installed on the support. By adopting the structure, the control elements are integrated together, the volume of the device is reduced, the tool is lighter, and the charging port is arranged, so that the tool provides a new power supply mode besides the power supply through a battery.

In the above technical scheme, preferably, one end of the gland connected with the heating head is provided with an illuminating lamp. By adopting the structure, the illumination position is closer to the construction point, a better visual field is provided for constructors, and the tool is reduced in size by arranging the illumination position on the gland.

In the above technical scheme, preferably, a connecting block for connecting the telescopic rod is arranged at the bottom of the bottom cover. By adopting the structure, when a constructor cannot contact a construction position, the constructor can externally connect the telescopic rod to lengthen the construction distance.

Compared with the prior art, the utility model has the following beneficial effects: the optical fiber construction tool realizes the integrated structure of the control element and the power supply element, the controller is built in the first pipe body, the power supply element is connected to the first pipe body, no external line is pulled, the construction limitation caused by inconvenient external line short connection of a power supply is avoided when the bottom is externally connected with the telescopic rod, and the integrated optical fiber construction tool provides convenience for the construction of the optical fiber.

Drawings

Fig. 1 is a schematic perspective view of a construction tool according to an embodiment of the present utility model.

Fig. 2 is a schematic view of the overall structure of a construction tool according to an embodiment of the present utility model.

FIG. 3 is a schematic cross-sectional view of a work tool according to an embodiment of the present utility model.

Fig. 4 is a schematic diagram of the overall structure of a fuse holder according to an embodiment of the present utility model.

Fig. 5 is a schematic diagram of the overall structure of a bottom cover according to an embodiment of the utility model.

Description of the embodiments

The utility model is described in further detail below with reference to the attached drawings and detailed description: referring to fig. 1 to 5, an optical fiber construction tool comprises an electric soldering iron 1 and a controller 8, wherein the electric soldering iron 1 is arranged on a gland 3, the construction tool comprises a first pipe body 4 and a battery pipe 5, the controller 8 is arranged in the first pipe body 4, one end of the first pipe body 4 is connected with the gland 3, the other end of the first pipe body 4 is connected with the battery pipe 5, a plurality of batteries 11 are arranged in the battery pipe 5, and a bottom cover 6 used for being connected with an external telescopic rod is connected to the bottom of the battery pipe 5. According to the utility model, the battery tube 5 is connected to the first tube body 4 to form a whole which is convenient to carry and construct, the electric iron 1 is electrified to generate an outer adhesive layer of the hot-melt optical fiber, and the electric iron 1 props against the wall body to bond the optical fiber to the wall body. Because the control element and the power supply element are integrated, no external line is used for traction, the construction limitation caused by inconvenient connection of the external line with a power supply when the telescopic rod is externally connected is avoided, and the integrated optical fiber construction tool provides convenience for the construction of the optical fiber.

In this embodiment, the electric soldering iron 1 includes a heating head 25 and a fuse wire support 2, a connecting piece 20 at one end of the fuse wire support 2 is installed between the first tube body 4 and the gland 3, an optical fiber clip 18 is arranged at the other end of the fuse wire support 2 and clamped on the heating head 25, and a pressing piece 19 for pressing the optical fiber clip 18 to be separated from the heating head 25 is arranged on the fuse wire support 2. By adopting the structure, the optical fiber is pressed and clamped, and the construction of the optical fiber is safer and more convenient to finish.

In this embodiment, an electrode bracket 9 is disposed at one end of the first tube body 4 connected to the battery tube 5, an indicator lamp 13 is disposed at one end of the first tube body 4 connected to the gland 3, and a controller 8 is installed in the first tube body 4. The controller 8 is built in by adopting the structure, so that the temperature can be conveniently adjusted at any time and the operation can be suspended in the construction process.

In this embodiment, the controller 8 includes a support 10, a charging port 17, a main board 24 and a display screen 14, where the support 10, the charging port 17 and the display screen 14 are mounted on the first tube body 4, a switch key 15 and a temperature adjusting key 16 for switching devices are disposed on the support 10, and the main board 24 is mounted on the support 10. The integration of the control elements together with this structure reduces the size of the device, making the tool more lightweight, and the provision of the charging port 17 allows the tool to provide a new means of power supply in addition to being powered by the battery 11.

In this embodiment, an illumination lamp 7 is arranged at one end of the gland 3 connected with the heating head 25. By adopting the structure, the illumination position is closer to the construction point, a better visual field is provided for constructors, and the tool is reduced in size by arranging the illumination position on the gland 3.

In this embodiment, a connecting block 22 for connecting the telescopic rod is provided at the bottom of the bottom cover 6. By adopting the structure, when a constructor cannot contact a construction position, the constructor can externally connect the telescopic rod to lengthen the construction distance.

The foregoing is merely a preferred embodiment of the present utility model, and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the scope of the present utility model.

Claims

1. The utility model provides an optic fibre construction tool, includes electric iron (1) and controller (8), electric iron (1) are installed on gland (3), its characterized in that: the construction tool comprises a first pipe body (4) and a battery pipe (5), wherein the controller (8) is arranged in the first pipe body (4), one end of the first pipe body (4) is connected with the gland (3), the other end of the first pipe body (4) is connected with the battery pipe (5), a plurality of batteries (11) are arranged in the battery pipe (5), and a bottom cover (6) used for being connected with an external telescopic rod is connected to the bottom of the battery pipe (5).

2. An optical fiber construction tool according to claim 1 wherein: the electric soldering iron (1) comprises a heating head (25) and a fuse wire support (2), a connecting sheet (20) at one end of the fuse wire support (2) is arranged between the first pipe body (4) and the gland (3), and an optical fiber clamp (18) is arranged at the other end of the fuse wire support (2) and clamped between the first pipe body and the gland

The fuse wire bracket (2) is provided with a pressing piece (19) for pressing and separating the optical fiber clamp (18) from the heating head (25) on the heating head (25).

3. An optical fiber construction tool according to claim 1 wherein: the battery tube is characterized in that an electrode bracket (9) is arranged at one end, connected with the battery tube (5), of the first tube body (4), an indicator lamp (13) is arranged at one end, connected with the gland (3), of the first tube body (4), and the controller (8) is installed in the first tube body (4).

4. A fiber optic construction tool according to claim 3 wherein: the controller (8) comprises a support (10), a charging port (17), a main board (24) and a display screen (14), wherein the support (10), the charging port (17) and the display screen (14) are arranged on the first pipe body (4), a switch key (15) and a temperature regulating key (16) for switching equipment are arranged on the support (10), and the main board (24) is arranged on the support (10).

5. A fiber optic construction tool according to claim 3 wherein: one end of the gland (3) connected with the heating head (25) is provided with an illuminating lamp (7).

6. An optical fiber construction tool according to claim 1 wherein: the bottom of the bottom cover (6) is provided with a connecting block (22) for connecting the telescopic rod.