CN103383484B - Fiber optical splice closure - Google Patents

Abstract

The invention discloses a fiber optical splice closure which comprises a box body. The box body is provided with a cutting portion used for cutting a wall body and embedded into the wall body and when the box body rotates around the central axis of the box body, the cutting portion cuts the wall body and enters the wall body so that the box body can be embedded into the wall body. The fiber optical splice closure has the advantages of automatic cutting and automatic drilling so that the fiber optical splice closure can be easily embedded into the wall body. The fiber optical splice closure further has the function of self-locking so that the fiber optical splice closure can be firmly embedded into the wall body.

Description

Fiber optic closure

Technical field

The present invention relates to a kind of fiber-to-the-home client fiber optic closure, particularly relate to a kind of fiber optic closure be inlaid on body of wall.

Background technology

Existingly all not cut and hole structure for the fiber optic closure be inlaid on body of wall, therefore, when starting to install, needing first to use special cutting and boring bar tool on body of wall, offer one and holding recess, just needing multiple step to complete installment work when operating like this.And the size and dimension of this accommodation recess unanimous on the whole and size that is preferably recess must be less than the Outside Dimensions of fiber optic closure slightly with the size and dimension of fiber optic closure, fiber optic closure stably could to be arranged on like this in the accommodation recess of body of wall and to be not easy to get loose.But when practice of construction, different by the skill level of workmen, be difficult to ensure recess to cut into ideal dimensions, sometimes hold recess and can be a bit larger tham fiber optic closure, such fiber optic closure just can not closely be inlaid in body of wall, easily loosens.And when holding recess and being less than the Outside Dimensions of fiber optic closure too much, fiber optic closure cannot load recess again.

Therefore, according to the installation method of existing fiber optic closure, generally need to rely on professional to adopt extra specialty cuts instrument to install, add time and the cost of installation.

Summary of the invention

For the aforementioned technical problem existed in prior art, the present invention is intended to provide a kind of not to be needed professional and extra cutting tool and is suitable for user to be arranged on Self cleavage formula fiber optic closure on body of wall voluntarily.

According to an aspect of the present invention, a kind of fiber optic closure is provided, comprise box main body, described box main body have for wall cutting and be embedded into the cutting part in body of wall, when described box main body rotates around its central axis, described cutting part wall cutting also enters into body of wall, thus is fitted on body of wall by described box main body.

According to a preferred embodiment of the present invention, described cutting part is formed on described box main body or in the mode of separate part and is arranged on described box main body.

According to a further advantageous embodiment of the invention, described fiber optic closure also comprises: towards a drill bit of body of wall, described drill bit to be positioned on described box main body and with described central axis coaxial, when described box main body rotates around described central axis, described drill bit pierces in body of wall.

According to a further advantageous embodiment of the invention, described drill bit is formed on described box main body or in the mode of separate part and is arranged on described box main body.

According to a further advantageous embodiment of the invention, described fiber optic closure also comprises: multiple elasticity lock banking stop, described multiple elasticity lock banking stop opens from described cutting part towards the outer inclination of body of wall, thus forming reversed acanthoid elasticity locking structure, described elasticity lock banking stop to be arranged on described box main body and to be embedded into body of wall with described cutting part.

According to a further advantageous embodiment of the invention, described elasticity lock banking stop is formed on described box main body or in the mode of separate part and is arranged on described box main body.

According to a further advantageous embodiment of the invention, described cutting part, described elasticity lock banking stop and described drill bit form as one part, or described cutting part, described elasticity lock banking stop and described drill bit are separate parts and can mutually fit together.

According to a further advantageous embodiment of the invention, described cutting part comprises at least one cutting teeth and/or at least one projection.

According to a further advantageous embodiment of the invention, described box main body has multiple cutting teeth, described multiple cutting teeth is around same circumference.

According to a further advantageous embodiment of the invention, described cutting teeth is triangle, taper or square.But the present invention is not limited to this, described cutting teeth can be any shape.

According to a further advantageous embodiment of the invention, described multiple cutting teeth and described multiple elasticity lock banking stop are positioned at the edge of a disc plate; And described drill bit is fixed on the center of described disc plate.

According to a further advantageous embodiment of the invention, described box main body comprises a housing, and described housing limits one for holding the container cavity of fiber winding disk.

According to a further advantageous embodiment of the invention, described multiple cutting teeth and described multiple elasticity lock banking stop are positioned at the edge of a disc plate, and described drill bit is fixed on the bottom wall central place of the container cavity of described housing.

According to a further advantageous embodiment of the invention, described multiple cutting teeth and described multiple elasticity lock banking stop are positioned at the diapire edge of the container cavity of described housing, and described drill bit is fixed on the bottom wall central place of the container cavity of described housing.

According to a further advantageous embodiment of the invention, the integral piece formed by described multiple cutting teeth, multiple elasticity lock banking stop and drill bit is socketed on the bottom of described housing regularly.

According to a further advantageous embodiment of the invention, be provided with driving shaft in the container cavity of described box main body, described driving shaft can be connected with the output shaft of electric drill, rotates around described central axis for driving box main body.

According to a further advantageous embodiment of the invention, described driving shaft is formed on described box main body or in the mode of separate part and is arranged on described box main body.

According to a further advantageous embodiment of the invention, multiple radial stiffening rib is provided with in the container cavity of described box main body.

According to a further advantageous embodiment of the invention, described multiple radial stiffening rib is connected to described driving shaft, and around the distribution of described driving shaft compartment of terrain.

According to a further advantageous embodiment of the invention, described fiber winding disk comprises the first disk outwardly and second disk relative with the first disk, and the first disk and the second disk are interconnected and form the neck of contraction between which, and slack is wrapped on this neck.

According to a further advantageous embodiment of the invention, described fiber optic closure also comprises a central shaft, and described central shaft is socketed on described driving shaft slidably; Be formed with a center pit at the center of described fiber winding disk, described central shaft inserts in the center pit of described fiber winding disk, and described fiber winding disk can be slided along described driving shaft with central shaft.

According to a further advantageous embodiment of the invention, the rotary locking structure coordinated with described fiber winding disk is formed in the container cavity of described box main body, when to slide into the innermost position in the container cavity of described box main body with central shaft when described fiber winding disk, described fiber winding disk is locked by described rotary locking structure, thus can not rotate, when described fiber winding disk to slide into the most external position of the container cavity of described box main body with central shaft, described fiber winding disk and described rotary locking structure are thrown off, thus can rotate.

According to a further advantageous embodiment of the invention, described fiber optic closure also comprises fiber adapter, and described fiber adapter is arranged on the outside surface of described first disk.

According to a further advantageous embodiment of the invention, described fiber optic closure also comprises fiber guides, described fiber guides on the outside surface of described first disk, for by fiber guides to described fiber adapter.

According to a further advantageous embodiment of the invention, described fiber optic closure also comprises a lid; And be formed with the smooth faceplate part coordinated with described lid in the outside of described box main body, described lid covers on the faceplate part of described box main body.

According to a further advantageous embodiment of the invention, the outside surface of the faceplate part of described box main body is formed with at least one fixture for fixing optical cable and optical fiber.

According to a further advantageous embodiment of the invention, the faceplate part of described box main body is also formed with multiple screw hole, for described box main body being fixed on described body of wall further by screw.

Due to fiber optic closure of the present invention, there is Self cleavage and from drilled feature, therefore, fiber optic closure of the present invention can easily be inlaid on body of wall.And fiber optic closure of the present invention also has self-locking function, therefore, it is possible to be inlaid in securely on body of wall.

Accompanying drawing explanation

Fig. 1 shows the perspective exploded view of fiber optic closure according to an embodiment of the invention;

Fig. 2 is the rear view of the box main body of the fiber optic closure of Fig. 1;

Fig. 3 is the decomposition view of the box main body of the fiber optic closure of Fig. 1;

Fig. 4 is the schematic diagram that the box main body of the fiber optic closure of Fig. 1 is embedded in body of wall;

Fig. 5 (a) is the schematic diagram of display fiber winding disk when being inserted in the container cavity of box main body innermost position;

Fig. 5 (b) is the schematic diagram of display fiber winding disk when extracting the most external position of the container cavity of box main body; With

The schematic diagram of the box main body of Fig. 6 display fiber optic closure according to another embodiment of the invention.

Embodiment

Be described below in detail embodiments of the invention, the example of embodiment is shown in the drawings, and wherein same or analogous label represents same or analogous element.Below with reference to the accompanying drawings the embodiment described is exemplary, is intended to explain the present invention, and can not be interpreted as limitation of the present invention.

Fig. 1 shows the perspective exploded view of fiber optic closure according to an embodiment of the invention; It is the rear view of the box main body of the fiber optic closure of Fig. 1 with Fig. 2.

As depicted in figs. 1 and 2, fiber optic closure of the present invention, mainly comprises: box main body 50, fiber winding disk 20, fiber adapter 30 and lid 10.

Particularly, as depicted in figs. 1 and 2, box main body 50 has for wall cutting 60 (see Fig. 4) and the cutting part 51 be embedded in body of wall 60, when box main body 50 rotates (how making box main body 50 rotate explanation after a while) around its central axis, cutting part 51 can wall cutting enter into body of wall, thus can be fitted on body of wall by box main body 50.

In the illustrated embodiment in which, cutting part is towards multiple cutting teeths 51 of body of wall, multiple cutting teeth 51 is around same circumference, when box main body 50 rotates (i.e. the central axis of box main body 50) around the central axis of aforementioned circumference, multiple cutting teeth 51 can wall cutting enter into body of wall, thus can be fitted on body of wall by box main body 50.

Although in the illustrated embodiment in which, cutting part is made up of cutting teeth 51, the present invention is not limited to this, and cutting part also can be the bulge-structure of arbitrary shape, as long as it can cut body of wall.

Although in the illustrated embodiment in which, cutting part comprises multiple cutting teeth 51, the present invention is not limited to this, and cutting part also only can comprise a cutting teeth 51.

In the illustrated embodiment in which, cutting teeth 51 is triangular sawtooth shape cutting teeth, but the present invention is not limited to this, and cutting teeth 51 also can be taper, square or other any suitable shape.

In the illustrated embodiment in which, because box main body 50 carries cutting teeth 51, therefore, when box main body 50 is fitted on body of wall, do not need first on body of wall, to cut out an accommodation recess mated with box main body 50 with special cutting tool, therefore, box main body 50 of the present invention is easy for installation.

Fig. 3 is the decomposition view of the box main body of the fiber optic closure of Fig. 1.As shown in Figure 3, multiple cutting teeth 51 distributes around the surrounding of a disc plate 59 and is fixedly connected to the surrounding of this disc plate 59.

In embodiment shown in Fig. 1 to Fig. 3, box main body 50 also comprises multiple elasticity lock banking stop 52, and multiple elasticity lock banking stop 52 opens from cutting part 51 towards the outer inclination of body of wall, thus forms reversed acanthoid elasticity locking structure.

Fig. 4 is the schematic diagram that the box main body 50 of the fiber optic closure of Fig. 1 is embedded in body of wall 60.As shown in Figure 4, because box main body 50 comprises multiple elasticity lock banking stop 52, therefore, be embedded in body of wall 60 once elasticity lock banking stop 52 with cutting teeth 51, multiple elasticity lock banking stop 52 will be resisted against on the inwall of the ring groove that cutting teeth 51 cuts out on body of wall 60, thus box main body 50 can be inlaid in body of wall securely, can not depart from.When the thinner thickness of cut body of wall, multiple elasticity lock banking stop 52 also can penetrate body of wall and be resisted against on the back side of body of wall.

Refer to Fig. 3 and Fig. 4, multiple elasticity lock banking stop 52 and multiple cutting teeth 51 are relatively arranged on the both sides of disc plate 59, and are fixedly connected to disc plate 59 surrounding.As shown in Figures 2 to 4, box main body 50 also comprises towards body of wall drill bit 53, drill bit 53 is fixed on the center of disc plate 59, thus coaxial with aforementioned circumference, when box main body 50 rotates around the central axis (i.e. the central axis of disc plate 59) of aforementioned circumference, drill bit 53 pierces in body of wall, in the present invention, drill bit 53 can as the locating shaft of central axis, to ensure that cutting teeth 51 is around central axis rotatably and vertically wall cutting, and can not displaced central axis line.

In the illustrated embodiment in which, multiple cutting teeth 51, multiple elasticity lock banking stop 52, drill bit 53 and disc plate 59 can form as one part.But the present invention is not limited to this, multiple cutting teeth 51, multiple elasticity lock banking stop 52, drill bit 53 and disc plate 59 also can be separate parts, and can mutually fit together.

As shown in Figures 1 to 4, box main body 50 also comprises a cylindrical shell 57, and the front of this housing 57 has the container cavity 571 for holding fiber winding disk 20.

As shown in Figures 2 and 3, the integral piece formed by multiple cutting teeth 51, multiple elasticity lock banking stop 52, drill bit 53 and disc plate 59 can be socketed on the bottom of housing 57 in an interference fit regularly, or is integrally formed with housing 57.

Please note, the present invention is not limited to the embodiment shown in Fig. 2 and Fig. 3, illustrated disc plate 59 not necessarily, such as, as shown in Figure 6, multiple cutting teeth 51 and/or multiple elasticity lock banking stop 52 (not showing multiple elasticity lock banking stop in figure 6) can distribute around the surrounding of the rounded bottom wallboard of the housing 57 of box main body 50 and be fixedly connected to the surrounding of this rounded bottom wallboard, and 53, drill bit can be fixed on the center at the back side of this rounded bottom wallboard.

In the present invention, any one in cutting teeth 51, elasticity lock banking stop 52 and drill bit 53 all can be formed on box main body 50, or also can be arranged on box main body 50 as separate part.

During cutting part wall cutting on box main body 50, very large cutting force can be produced, in order to ensure the intensity of the housing 57 of box main body 50 and prevent the housing 57 of box main body 50 to be out of shape, in a preferred embodiment of the invention, in the container cavity 571 of housing 57, multiple radial stiffening rib 54 is provided with.

As shown in Figure 1, be provided with driving shaft 55 in the container cavity 571 of box main body 50, this driving shaft 55 can be connected with the output shaft of electric drill, rotates around central axis for driving box main body 50.Multiple radial stiffening rib 54 is connected to driving shaft 55, and distributes around driving shaft 55 uniform intervals, thus forms spoke-like supporting construction.

In the illustrated embodiment in which, driving shaft 55 is formed on box main body 50.But the present invention is not limited to this, this driving shaft 55 also can be independent parts, such as, when needs use, when needs punch on body of wall, being just installed on box main body 50, can disassembling when not needing from box main body 50.

As shown in Figure 1, in one embodiment of the invention, fiber winding disk 20 comprises the first disk 21 outwardly and second disk 22 relative with the first disk 21.First disk 21 and the second disk 22 are interconnected and form the neck 23 (see Fig. 5 (b)) of contraction between which, and slack (not shown) is wrapped on this neck 23.

As shown in Figure 1, in one embodiment of the invention, fiber optic closure also comprises a central shaft 40, and this central shaft 40 is socketed on driving shaft 55 slidably.Be formed with a center pit at the center of fiber winding disk 20, central shaft 40 inserts in the center pit of fiber winding disk 20, and fiber winding disk 20 can be slided along driving shaft 55 with central shaft 40.

Fig. 5 (a) and Fig. 5 (b) are the schematic diagram of display fiber winding disk 20 when being positioned at innermost position and the most external position of container cavity 571 under two states.

Although not shown, in the container cavity 571 of box main body 50, be formed with the rotary locking structure (not shown) coordinated with the excircle of fiber winding disk 20.

As shown in Fig. 5 (a), when (namely fiber winding disk 20 slides into innermost position in the container cavity 571 of box main body 50 with central shaft 40, fiber winding disk 20 is contained in the container cavity 571 of box main body 50 completely) time, fiber winding disk 20 is locked by rotary locking structure, thus can not rotate.

As shown in Fig. 5 (b), when fiber winding disk 20 to slide into the most external position of the container cavity 571 of box main body 50 with central shaft 40, fiber winding disk 20 and rotary locking structure are thrown off, thus freely can rotate around central shaft 40.Therefore, in the present invention, when needs are wound around slack, fiber winding disk 20 can be slided into the most external position of the container cavity 571 of box main body 50 with central shaft 40, so just can be wound around slack by rotating fiber winding disk 20, therefore, operation easily.

As shown in Figure 1, fiber optic closure also comprises fiber adapter 30, and this fiber adapter 30 is arranged on the outside surface of the first disk 21.

As shown in Figure 1, fiber optic closure also comprises fiber guides 24, and this fiber guides 24 is arranged on the outside surface of the first disk 21, for by fiber guides to fiber adapter 30.

In the embodiment shown in fig. 1, because fiber adapter 30 and fiber guides 24 etc. are arranged on the outside surface being positioned at the first outside disk 21, the attended operation of optical fiber is therefore convenient to.

In one embodiment of the invention, as shown in Figure 1, fiber optic closure also comprises a lid 10, and is formed with the smooth square panel part 56 coordinated with lid 10 in the outside of box main body 50, lid 10 covers on the faceplate part 56 of box main body 50, prevents dust and steam from entering.

As shown in Fig. 1 and Fig. 5 (a), in one embodiment of the invention, when fiber winding disk 20 is contained in box main body 50 completely, the outside surface of the first disk 21 of fiber winding disk 20 is roughly concordant with the outside surface of the faceplate part 56 of box main body 50, and this is convenient to optical fiber and optical cable is introduced and draws fiber optic closure.

As shown in Figure 1, the outside surface of the faceplate part 56 of box main body 50 is formed with at least one fixture 58 for fixing optical cable and optical fiber.

In addition, as shown in Figure 1, the faceplate part 56 of box main body 50 is also formed with multiple screw hole 561, for box main body 50 being fixed on body of wall further by screw.But note that in the present invention, screw hole 561 not necessarily, can not be arranged completely, because just box main body 50 can be inlaid on body of wall securely by elasticity lock banking stop 52.

Although illustrate and describe embodiments of the invention, for the ordinary skill in the art, be appreciated that and can change these embodiments without departing from the principles and spirit of the present invention, scope of the present invention is by claims and equivalents thereof.

Claims (27)

1. a fiber optic closure, comprises box main body (50),

It is characterized in that:

Described box main body (50) has for wall cutting and is embedded into the cutting part (51) in body of wall (60),

When described box main body (50) rotates around its central axis, described cutting part (51) wall cutting (60) also enters into body of wall (60), thus is fitted on body of wall (60) by described box main body (50).

2. fiber optic closure according to claim 1, is characterized in that:

Described cutting part (51) is formed on described box main body (50) or is arranged on described box main body (50) in the mode of separate part.

3. fiber optic closure according to claim 1, is characterized in that, also comprises:

Towards a drill bit (53) of body of wall, described drill bit (53) be positioned at described box main body (50) upper and with described central axis coaxial,

When described box main body (50) rotates around described central axis, described drill bit (53) pierces in body of wall.

4. fiber optic closure according to claim 3, is characterized in that:

Described drill bit (53) is formed on described box main body (50) or is arranged on described box main body (50) in the mode of separate part.

5. fiber optic closure according to claim 3, is characterized in that, also comprises:

Multiple elasticity lock banking stop (52), described multiple elasticity lock banking stop (52) is opened from described cutting part towards the outer inclination of body of wall, thus forms reversed acanthoid elasticity locking structure,

Described elasticity lock banking stop (52) is arranged in described box main body (50) and goes up and be embedded into body of wall with described cutting part (51).

6. fiber optic closure according to claim 5, is characterized in that:

Described elasticity lock banking stop (52) is formed on described box main body (50) or is arranged on described box main body (50) in the mode of separate part.

7. fiber optic closure according to claim 6, is characterized in that:

Described cutting part (51), described elasticity lock banking stop (52) and described drill bit (53) form as one part, or

Described cutting part (51), described elasticity lock banking stop (52) and described drill bit (53) are separate parts and can mutually fit together.

8. fiber optic closure according to claim 7, is characterized in that: described cutting part (51) comprises at least one cutting teeth and/or at least one is protruding.

9. fiber optic closure according to claim 8, is characterized in that:

Described box main body (50) has multiple cutting teeth (51), described multiple cutting teeth (51) is around same circumference.

10. fiber optic closure according to claim 9, is characterized in that: described cutting teeth (51) is triangle, taper or square.

11. fiber optic closures according to claim 10, is characterized in that:

Described multiple cutting teeth (51) and described multiple elasticity lock banking stop (52) are positioned at the edge of a disc plate (59); And

Described drill bit (53) is fixed on the center of described disc plate (59).

12. fiber optic closures according to claim 10, is characterized in that:

Described box main body (50) comprises a housing (57), and described housing (57) limits one for holding the container cavity (571) of fiber winding disk (20).

13. fiber optic closures according to claim 12, is characterized in that:

Described multiple cutting teeth (51) and described multiple elasticity lock banking stop (52) are positioned at the edge of a disc plate (59),

Described drill bit (53) is fixed on the bottom wall central place of the container cavity (571) of described housing (57).

14. fiber optic closures according to claim 12, is characterized in that:

Described multiple cutting teeth (51) and described multiple elasticity lock banking stop (52) are positioned at the diapire edge of the container cavity (571) of described housing (57),

Described drill bit (53) is fixed on the bottom wall central place of the container cavity (571) of described housing (57).

15. fiber optic closures according to claim 12, is characterized in that:

The integral piece formed by described multiple cutting teeth (51), multiple elasticity lock banking stop (52) and drill bit (53) is socketed on the bottom of described housing (57) regularly.

16. fiber optic closures according to claim 12, is characterized in that,

Driving shaft (55) is provided with in the container cavity (571) of described box main body (50), described driving shaft (55) can be connected with the output shaft of electric drill, rotates around described central axis for driving box main body (50).

17. fiber optic closures according to claim 16, is characterized in that,

Described driving shaft (55) is formed on described box main body (50) or is arranged on described box main body (50) in the mode of separate part.

18. fiber optic closures according to claim 16, is characterized in that: be provided with multiple radial stiffening rib (54) in the container cavity (571) of described box main body (50).

19. fiber optic closures according to claim 18, is characterized in that,

Described multiple radial stiffening rib (54) is connected to described driving shaft (55), and distributes around described driving shaft (55) compartment of terrain.

20. fiber optic closures according to claim 12 or 19, is characterized in that,

Described fiber winding disk (20) comprises the first disk (21) outwardly and second disk (22) relative with the first disk (21), and

First disk (21) and the second disk (22) are interconnected and form the neck (23) of contraction between which, and slack is wrapped on this neck (23).

21. fiber optic closures according to claim 20, is characterized in that,

Described fiber optic closure also comprises a central shaft (40), and described central shaft (40) is socketed on described driving shaft (55) slidably;

A center pit is formed at the center of described fiber winding disk (20), described central shaft (40) inserts in the center pit of described fiber winding disk (20), and described fiber winding disk (20) can be slided along described driving shaft (55) with central shaft (40).

22. fiber optic closures according to claim 21, is characterized in that,

The rotary locking structure coordinated with described fiber winding disk (20) is formed in the container cavity (571) of described box main body (50),

When described fiber winding disk (20) is with central shaft (when 4 () slide into the innermost position in the container cavity (571) of described box main body (50), described fiber winding disk (20) is locked by described rotary locking structure, thus can not rotate

When described fiber winding disk (20) to slide into the most external position of container cavity (571) of described box main body (50) with central shaft (40), described fiber winding disk (20) and described rotary locking structure are thrown off, thus can rotate.

23. fiber optic closures according to claim 22, is characterized in that,

Described fiber optic closure also comprises fiber adapter (30), and described fiber adapter (30) is arranged on the outside surface of described first disk (21).

24. fiber optic closures according to claim 23, is characterized in that,

Described fiber optic closure also comprises fiber guides (24), described fiber guides (24) on the outside surface of described first disk (21), for by fiber guides to described fiber adapter (30).

25. fiber optic closures according to claim 12 or 24, is characterized in that,

Described fiber optic closure also comprises a lid (10); And

Be formed with the smooth faceplate part (56) coordinated with described lid (10) in the outside of described box main body (50), described lid (10) covers on the faceplate part (56) of described box main body (50).

26. fiber optic closures according to claim 25, is characterized in that,

The outside surface of the faceplate part (56) of described box main body (50) is formed at least one fixture (58) for fixing optical cable and optical fiber.

27. fiber optic closures according to claim 26, is characterized in that,

The faceplate part (56) of described box main body (50) is also formed with multiple screw hole (561), for described box main body (50) being fixed on described body of wall (60) further by screw.