CN211979257U - Optical fiber splicer for hydraulic and hydroelectric engineering - Google Patents

Abstract

The utility model discloses an optical fiber splicer for hydraulic and hydroelectric engineering, including the optical fiber splicer host computer body, optical fiber splicer host computer body top externally mounted has the splicer processing platform, and the inside recess of accomodating of having seted up in optical fiber splicer host computer body below, optical fiber splicer host computer body bottom four corners all is connected with the angle brace, and the angle brace is the rubber material, accomodate the inside four corners of recess and all install the commentaries on classics round pin, and the outside rotation of commentaries on classics round pin is connected with joint support post, joint support post is for locking-type telescopic link structure, and the joint support post outer end is connected with fixed awl, joint support post's bottom height is less than accomodate recess bottom height, and four joint support post tops are the. This optical fiber splicer for hydraulic and hydroelectric engineering can be convenient raise put. This optical fiber splicer for hydraulic and hydroelectric engineering's optical fiber splicer main engine body bottom rotates the joint support post that is connected with telescopic link structure through changeing the round pin, conveniently uses more.

Description

Optical fiber splicer for hydraulic and hydroelectric engineering

Technical Field

The utility model relates to a hydraulic and hydroelectric engineering technical field specifically is an optical fiber splicer for hydraulic and hydroelectric engineering.

Background

Water is a basic element on which human beings rely for survival, and electricity is a main energy source for social development. The subject of water conservancy and hydropower engineering is engineering science which regulates and utilizes water energy resources by engineering or non-engineering measures on the basis of the research of natural characteristics of water. The water conservancy and hydropower engineering major focuses on the cultivation of advanced engineering technical talents engaged in large and medium-sized water conservancy and hydropower hubs and buildings thereof (including large dams, hydropower station buildings, gates, water inlet, water diversion, water outlet buildings and the like) and the planning, design, construction, management and scientific research of industrial water engineering buildings, the learning and research directions comprise hydrological water resources, water environments, hydraulic structures, hydraulics, hydrodynamics, engineering management and the like, and the development trend is the intersection and fusion with emerging subjects such as information technology, reliability theory, management science and the like. During the construction of water conservancy and hydropower engineering, the device comprises an incoming electric hammer, a pistol drill, an electric iron, a hydraulic clamp, a source cold clamp, a hydraulic hole digger, a cutting machine, a wire stripper, an optical fiber fusion splicer, a hundred-screw driver, a wire cutter, a sharp-nose pliers, a steel saw, a spring pipe bender, a pipe stewing device and the like.

Optical fiber splicer main part that uses in current hydraulic and hydroelectric engineering construction often need put when using and raise on auxiliary stand, need additionally carry and put the instrument, and is inconvenient to use.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an optical fiber splicer for hydraulic and hydroelectric engineering to the optical fiber splicer who uses needs extra problem of putting the support when solving the hydraulic and hydroelectric engineering construction that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an optical fiber splicer for hydraulic and hydroelectric engineering, includes the optical fiber splicer host computer body, optical fiber splicer host computer body top externally mounted has splicer processing platform, and the inside recess of accomodating of having seted up in optical fiber splicer host computer body below, optical fiber splicer host computer body bottom four corners all is connected with the angle brace, and props the angle brace and be the rubber material, accomodate the inside four corners of recess and all install the commentaries on classics round pin, and the outside rotation of commentaries on classics round pin is connected with joint support post, joint support post is for from locking-type telescopic link structure, and the joint support post outer end is connected with fixed awl, joint support post's bottom height is less than accomodate recess bottom height.

Preferably, the outside both sides in optical fiber splicer host computer body bottom are connected with location prism and spacing prism respectively, and seted up positioning groove and spacing through-hole in location prism and the spacing prism respectively to location prism and spacing prism are located the storage groove both sides respectively.

Preferably, the inside of the limiting through hole is connected with a sealing bottom plate in a penetrating manner, and the outside of the side edge of the sealing bottom plate is connected with a positioning groove in an embedded manner.

Preferably, the length and the width of the sealing bottom plate are not less than the length and the width of the containing groove, and the height of the top surface of the sealing bottom plate is equal to the height of the bottom of the containing groove.

Preferably, the outside of the side of the sealing bottom plate is connected with a movable handle, and the bottom heights of the sealing bottom plate, the positioning prism and the limiting prism are higher than the bottom height of the supporting angle frame.

Compared with the prior art, the beneficial effects of the utility model are that: this optical fiber splicer for hydraulic and hydroelectric engineering can be convenient raise put, need not to use extra auxiliary stand, facilitates the use more. This optical fiber splicer for hydraulic and hydroelectric engineering's optical fiber splicer main engine body bottom rotates the joint support post that is connected with telescopic rod structure through changeing the round pin, makes the fixed awl of joint support post bottom can be convenient support the optical fiber splicer main engine body to support the splicer main engine body to suitable height, conveniently use more.

Drawings

Fig. 1 is a schematic structural view of an optical fiber fusion splicer for hydraulic and hydroelectric engineering according to the present invention;

fig. 2 is a schematic view of the structure of the optical fiber fusion splicer for hydraulic and hydroelectric engineering of the present invention;

fig. 3 is a schematic view of the structure of the receiving groove of the optical fiber splicer for hydraulic and hydroelectric engineering of the present invention;

fig. 4 is the utility model discloses a sealing bottom plate's for hydraulic and hydroelectric engineering optical fiber splicer structural schematic diagram is looked from above.

In the figure: 1. welding machine processing platform, 2, support angle frame, 3, optical fiber splicer host computer body, 4, sealing bottom plate, 5, accomodate the recess, 6, fixed awl, 7, connection support column, 8, the prism of location, 9, positioning groove, 10, spacing through-hole, 11, spacing prism, 12, removal handle.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: an optical fiber fusion splicer for water conservancy and hydropower engineering comprises an optical fiber fusion splicer main body 3, wherein a splicer processing table 1 is arranged outside the top end of the optical fiber fusion splicer main body 3, a containing groove 5 is formed in the lower portion of the optical fiber fusion splicer main body 3, two sides of the bottom end of the optical fiber fusion splicer main body 3 are respectively connected with a positioning prism 8 and a limiting prism 11, a positioning groove 9 and a limiting through hole 10 are respectively formed in the positioning prism 8 and the limiting prism 11, the positioning prism 8 and the limiting prism 11 are respectively positioned on two sides of the containing groove 5, the structure enables the positioning prism 8 and the limiting prism 11 which are internally provided with the positioning groove 9 or the limiting through hole 10 to be arranged at the bottom of the optical fiber fusion splicer main body 3, the containing groove 5, the positioning prism 8 and the limiting prism 11 cannot interfere with each other, a sealing bottom plate 4 is connected inside the limiting through hole, the structure ensures that the sealing bottom plate 4 can penetrate through the limiting through holes 10 and is embedded and installed together with the positioning grooves 9 so as to fix the positions of two sides of the sealing bottom plate 4, the length and width of the sealing bottom plate 4 are not lower than the length and width of the accommodating grooves 5, the height of the top surface of the sealing bottom plate 4 is equal to the height of the bottoms of the accommodating grooves 5, the sealing bottom plate 4 can completely cover the accommodating grooves 5 so that dust cannot easily enter the accommodating grooves 5, the outer part of the side edge of the sealing bottom plate 4 is connected with the moving handle 12, the heights of the bottoms of the sealing bottom plate 4, the positioning prisms 8 and the limiting prisms 11 are higher than the height of the bottoms of the supporting angle frames 2, the sealing bottom plate 4, the positioning prisms 8 and the limiting prisms 11 cannot interfere with the arrangement of the supporting angle frames 2, the four corners at the bottom end of the optical fiber fusion splicer main body 3 are all, accomodate 5 inside four corners of recess and all install the commentaries on classics round pin, and the outside rotation of commentaries on classics round pin is connected with joint support post 7, joint support post 7 is from locking-type telescopic rod structure, and 7 outer ends of joint support post are connected with fixed awl 6, the bottom height of joint support post 7 is less than accomodate 5 bottom heights, and 7 tops of four joint support posts are the matrix distribution, this structure makes joint support post 7 can fold to be accomodate and hide in accomodate 5 insides, can extend joint support post 7 when needs use, and it is fixed to support fiber fusion splicer host computer body 3 through the fixed awl 6 of 7 bottoms of joint support post, it need not to use other appurtenance to make fiber fusion splicer host computer body 3 visit, and more convenient.

The working principle is as follows: when the optical fiber fusion splicer for the hydraulic and hydroelectric engineering is used, firstly, a user can lift the supporting angle bracket 2, then the user can hold the movable handle 12 to draw the end face of the sealing bottom plate 4 out of the positioning groove 9 in the positioning prism 8, then the sealing bottom plate 4 is drawn out towards the outer side of the limiting through hole 10, then the sealing bottom plate 4 can extend to the outer side of the side edge of the optical fiber fusion splicer main machine body 3, the user can place some tools and raw materials on the sealing bottom plate 4, then the user can place the connecting support columns 7 in the accommodating grooves 5 vertically through the rotating pins and stretch the connecting support columns 7 to a proper height, then the bottoms of the connecting support columns 7 are fixed in the soil surface through the fixing cones 6, then the optical fiber fusion splicer main machine body 3 is supported and fixed to a proper height, and the user can perform optical fiber fusion splicing on the splicer processing table 1, thereby completing a series of works.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (5)

1. The utility model provides an optical fiber splicer for hydraulic and hydroelectric engineering, includes optical fiber splicer host computer body (3), its characterized in that: optical fiber splicer host computer body (3) top externally mounted has heat sealing machine processing platform (1), and the inside storage groove (5) of having seted up in optical fiber splicer host computer body (3) below, optical fiber splicer host computer body (3) bottom four corners all is connected with brace angle frame (2), and brace angle frame (2) are the rubber material, the round pin is all installed in the inside four corners of storage groove (5), and the outside rotation of round pin is connected with joint support post (7), joint support post (7) are from locking-type telescopic rod structure, and joint support post (7) outer end is connected with fixed awl (6), the bottom of joint support post (7) highly is less than storage groove (5) bottom height, and four joint support post (7) tops are the matrix distribution.

2. The optical fiber fusion splicer for water conservancy and hydropower engineering according to claim 1, characterized in that: the optical fiber splicer is characterized in that the two sides of the outer bottom end of the optical fiber splicer main body (3) are respectively connected with a positioning prism (8) and a limiting prism (11), positioning grooves (9) and limiting through holes (10) are respectively formed in the positioning prism (8) and the limiting prism (11), and the positioning prism (8) and the limiting prism (11) are respectively located on two sides of the accommodating groove (5).

3. The optical fiber fusion splicer for water conservancy and hydropower engineering according to claim 2, characterized in that: the inner part of the limiting through hole (10) is connected with a sealing bottom plate (4) in a penetrating way, and the outer part of the side edge of the sealing bottom plate (4) is connected with a positioning groove (9) in an embedded way.

4. The optical fiber fusion splicer for water conservancy and hydropower engineering according to claim 3, characterized in that: the length and the width of the sealing bottom plate (4) are not lower than those of the containing grooves (5), and the height of the top surface of the sealing bottom plate (4) is equal to that of the bottoms of the containing grooves (5).

5. The optical fiber fusion splicer for water conservancy and hydropower engineering according to claim 4, characterized in that: the outside of the side edge of the sealing bottom plate (4) is connected with a movable handle (12), and the bottom heights of the sealing bottom plate (4), the positioning prism (8) and the limiting prism (11) are higher than the bottom height of the supporting angle frame (2).

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