CN218886219U - Laying device for optical fiber installation - Google Patents

Abstract

The utility model discloses a laying equipment of optic fibre installation, including heating head and controller, the heating head is installed on the gland, and the controller is installed in first body, and laying device includes that the connection piece of the one end of fuse support is installed between first body and gland, and the other end of fuse support is provided with optic fibre and presss from both sides the dress and press from both sides on the heating head, is provided with on the fuse support to be used for pressing down the pressing sheet that makes optic fibre press from both sides and break away from with the heating head. The utility model discloses make optic fibre press from both sides and generate heat the head and break away from through pressing the pressing sheet on the fuse support when optic fibre construction, and put into optic fibre release pressing sheet again, with the optic fibre centre gripping between the head and the fuse support generate heat, then through the electric iron hot melt optic fibre that the head and the fuse support of generating heat constitute, lay the wall body with optic fibre. Adopt this structure to place and take off optic fibre through pressing the pressing sheet on the fuse support, need not to take off the centre gripping shell and place and take off optic fibre, made things convenient for the operator to be under construction, also can avoid the centre gripping shell to cross the potential safety hazard that scalds and lead to simultaneously.

Description

Laying device for optical fiber installation

Technical Field

The utility model belongs to the optical fiber communication field specifically is a laying device of optic fibre installation.

Background

With the rapid development of optical fiber communication, in recent years, the tendency of fiber-to-the-home has been increasing in order to achieve full coverage of optical fiber broadband. Because the optical fiber can only adopt the mode of going through the wall to the home to lay the open wire indoors, and the optical fiber is punched on the wall with good indoor decoration when going to the home to walk the open wire, the original decoration at home is seriously damaged, so the laying device which hides the optical fiber through fusion welding construction is developed, the laying device generates the outer adhesive layer of the hot-melt optical fiber through the electrification of an electric soldering iron, and the soldering bit props against the wall to lay the optical fiber under the hot-melt state on the wall. The electric soldering iron of the existing laying device consists of a heating head and a clamping shell, when the electric soldering iron is used, the clamping shell needs to be taken down and then an optical fiber is put into the clamping shell, an operator is inconvenient to use and has certain potential safety hazards, and the problem needs to be solved.

SUMMERY OF THE UTILITY MODEL

The utility model discloses usability and security problem to laying device provide a laying device of optic fibre installation.

In order to realize the convenient to use of laying device, the utility model discloses a following technical scheme can solve: the utility model provides an equipment of laying of optic fibre installation, includes heating head and controller, and the heating head is installed on the gland, and the controller is installed in first body, and laying device includes the fuse support, and the connection piece of the one end of fuse support is installed between first body and gland, and the other end of fuse support is provided with optic fibre and presss from both sides the dress and press from both sides on the heating head, and the extension is provided with the pressing sheet on the fuse support. The utility model discloses make optic fibre press from both sides and generate heat the head and break away from through pressing the pressing sheet on the fuse support when optic fibre construction, and put into optic fibre release pressing sheet again, with the optic fibre centre gripping between the head and the fuse support generate heat, then through the electric iron hot melt optic fibre that the head and the fuse support of generating heat constitute, lay the wall body with optic fibre. Adopt this structure to place and take off optic fibre through pressing the pressing sheet on the fuse support, no longer need take off the centre gripping shell and place and take off optic fibre, made things convenient for the operator to be under construction, also can avoid the centre gripping shell to cross the potential safety hazard that scalds and lead to simultaneously.

Among the above-mentioned technical scheme, preferred, be provided with the through wires hole on the external iron sheet in bottom of fuse support, the connection piece that fuse support bottom was equipped with sets up to the annular. The optical fiber penetrates through the threading hole and is clamped between the heating head and the fuse wire bracket so that the optical fiber enters the optical fiber groove for hot melting in order.

Among the above-mentioned technical scheme, preferred, the optic fibre presss from both sides and passes through the iron sheet to be connected on the connecting piece, and the optic fibre presss from both sides including clamping piece and wire clamping groove, and the clamping piece is provided with straight clamping piece and outer oblique piece, and the wire clamping groove sets up to semicircular groove. By adopting the structure, the heating head is clamped through the straight clamping pieces on the two sides, the inclined pieces on the two sides are opened outwards, so that the heating head is conveniently guided and clamped, and the clamping groove is matched with the optical fiber groove on the heating head to clamp optical fibers to realize hot melting.

In the above technical solution, preferably, the pressing piece is connected to the fuse holder by bending an iron piece, and the pressing piece is provided with a heat insulating sleeve. Adopt this structure to make pressing piece and optic fibre press from both sides the one-piece type that forms and make things convenient for the operator to use, avoided the operator because pressing the piece excessively scalds the scald through the use of adiabatic cover.

Among the above-mentioned technical scheme, preferred, first body includes the controller, and the controller is provided with temperature display screen, shift knob, temperature regulation button and the mouth that charges, and the one end of first body is connected with the battery pipe. By adopting the structure, an operator can adjust the temperature required by construction more conveniently according to personal operation requirements during construction, and the construction efficiency is improved.

Compared with the prior art, the utility model, following beneficial effect has: the utility model discloses make optic fibre press from both sides the clamping and break away from with the head that generates heat through pressing down the pressing plate on the fuse support when optic fibre construction, and put into optic fibre release pressing plate again, with the optic fibre centre gripping between the head that generates heat and fuse support, then through the electric iron hot melt optic fibre that the head that generates heat and fuse support are constituteed, lay the wall body with optic fibre. Adopt this structure to place and take off optic fibre through pressing the pressing sheet on the fuse support, no longer need take off the centre gripping shell and place and take off optic fibre, made things convenient for the operator to be under construction, also can avoid the centre gripping shell to cross the potential safety hazard that scalds and lead to simultaneously.

Drawings

Fig. 1 is a schematic view of a three-dimensional structure of a laying device according to an embodiment of the present invention.

Fig. 2 is a schematic view of the overall structure of the heating head according to the embodiment of the present invention.

Fig. 3 is a schematic view of the overall structure of the fuse holder according to the embodiment of the present invention.

Fig. 4 is a schematic view of an overall structure of an optical fiber clip according to an embodiment of the present invention.

Detailed description of the preferred embodiments

The invention is described in further detail below with reference to the following detailed description and accompanying drawings: referring to fig. 1 to 4, an optical fiber installation laying device comprises a heating head 3 and a controller 12, wherein the heating head 3 is installed on a gland 4, the controller 12 is installed in a first pipe body 6, the laying device comprises a fuse support 1, a connecting piece 10 at one end of the fuse support 1 is installed between the first pipe body 6 and the gland 4, an optical fiber clamp 2 is arranged at the other end of the fuse support 1 and clamped on the heating head 3, and a pressing piece 11 is arranged on the fuse support 1 in an extending mode. The utility model discloses make optic fibre press from both sides 2 and generate heat first 3 and break away from through pressing down pressing the pressing plate 11 on the fuse support 1 when optical fiber construction, and put into optic fibre release pressing plate 11 again, hold optic fibre press from both sides 2 between first 3 and fuse support 1 generate heat, then through the electric iron hot melt optic fibre that first 3 and fuse support 1 constitute of generating heat, lay the wall body with optic fibre. Adopt this structure to place and take off optic fibre through pressing the pressing sheet 11 on the fuse support 1, no longer need take off the centre gripping shell and place and take off optic fibre, made things convenient for the operator to be under construction, also can avoid the centre gripping shell to cross the potential safety hazard that scalds and lead to simultaneously.

In this embodiment, the external iron sheet in bottom of fuse support 1 is provided with through wires hole 13, and connection piece 10 that fuse support 1 bottom was equipped with sets up to the annular. With the structure, the optical fiber passes through the threading hole 13 and is clamped between the heating head 3 and the fuse support 1, so that the optical fiber enters the optical fiber groove 9 for hot melting in order.

In this embodiment, the optical fiber clamp 2 is connected to the connecting piece 10 through an iron sheet, the optical fiber clamp 2 includes a clamping piece 19 and a clamping groove 18, the clamping piece 19 is provided with a straight clamping piece 20 and an outer oblique piece 21, and the clamping groove 18 is provided with a semicircular groove. By adopting the structure, the heating head 3 is clamped through the straight clamping pieces 20 on the two sides, the outer inclined pieces 21 on the two sides are opened outwards so as to conveniently guide and clamp the heating head 3, and the wire clamping groove 18 is matched with the optical fiber groove 9 on the heating head to clamp optical fibers to realize hot melting.

In this embodiment, the pressing piece 11 is connected to the fuse holder 1 by bending an iron piece, and the heat insulating sheath 5 is provided to the pressing piece 11. By adopting the structure, the pressing sheet 11 and the optical fiber clamp 2 form a whole body to be convenient for an operator to use, and the scalding of the operator caused by the excessive scalding of the pressing sheet 11 is avoided by using the heat insulation sleeve 5.

In this embodiment, the first pipe 6 includes a controller 12, the controller 12 is provided with a temperature display screen 17, a switch button 14, a temperature adjusting button 15, and a charging port 16, and one end of the first pipe 6 is connected to the battery tube 7. By adopting the structure, an operator can adjust the temperature required by construction more conveniently according to personal operation requirements during construction, and the construction efficiency is improved.

The above is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several modifications and decorations can be made without departing from the invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (5)

1. The utility model provides a laying equipment of optic fibre installation, includes heating head (3) and controller (12), heating head (3) are installed on gland (4), controller (12) are installed in first body (6), its characterized in that: laying device includes fuse support (1), connection piece (10) of the one end of fuse support (1) install in first body (6) with between gland (4), the other end of fuse support (1) is provided with the optic fibre and presss from both sides (2) clamping and is in on heating head (3), the extension is provided with pressing sheet (11) on fuse support (1).

2. An optical fibre installation apparatus as claimed in claim 1, wherein: the bottom of the fuse wire support (1) is externally connected with an iron sheet and is provided with a threading hole (13), and the bottom of the fuse wire support (1) is provided with the connecting sheet (10) which is in an annular shape.

3. An optical fibre installation laying device according to claim 1, wherein: the optical fiber clamp (2) is connected to the connecting piece (10) through an iron sheet, the optical fiber clamp (2) comprises a clamping piece (19) and a clamping groove (18), the clamping piece (19) is provided with a straight clamping piece (20) and an outer oblique piece (21), and the clamping groove (18) is arranged to be a semicircular groove.

4. An optical fibre installation laying device according to claim 1, wherein: the pressing piece (11) is connected to the fuse wire support (1) through an iron sheet in a bending mode, and the pressing piece (11) is provided with a heat insulation sleeve (5).

5. An optical fibre installation laying device according to claim 1, wherein: first body (6) include controller (12), controller (12) are provided with temperature display screen (17), shift knob (14), temperature regulation button (15) and charge mouthful (16), the one end of first body (6) is connected with battery pipe (7).

Images