CN207937639U - The pyrocondensation protection of pipe structure being easily installed - Google Patents
The pyrocondensation protection of pipe structure being easily installed Download PDFInfo
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- CN207937639U CN207937639U CN201721798351.7U CN201721798351U CN207937639U CN 207937639 U CN207937639 U CN 207937639U CN 201721798351 U CN201721798351 U CN 201721798351U CN 207937639 U CN207937639 U CN 207937639U
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- semicanal
- easily installed
- pipe structure
- protrusion
- utility
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Abstract
The utility model discloses the pyrocondensation protection of pipe structures being easily installed; including the first semicanal and the second semicanal; intelligent acess mouth is arranged in first semicanal one end; other end setting protrusion; external screw thread is set in the protrusion, and optical fiber exit, other end setting and the matched groove of protrusion is arranged in second semicanal one end; setting and the matched internal thread of the external screw thread, are respectively set fibre-optical splice bracket inside first semicanal and the second semicanal on groove.The utility model solves the problems, such as that optical fiber protecting equipment installation of the existing technology takes time and effort or installs not enough fastening, is easy to loosen; the pyrocondensation protection of pipe structure being easily installed is provided; by being threaded in interface when it is applied; under the premise of installation fastening enough; the set-up time is greatly saved; it is time saving and energy saving, it is easy to promote large-scale.
Description
Technical field
The utility model is related to heat-shrink tubes, and in particular to the pyrocondensation protection of pipe structure being easily installed.
Background technology
In daily production and life, the purposes of heat-shrink tube has spread various products, such as the material that will be protected in advance
Wrapped up as etch-proof separation layer with heat-shrink tube, material is handled as electrical insulation come cope with electric leakage or electric shock accidents,
Shrinkable sleeve is prevented into scuffing etc. on the handle of various sports equipments.
Optical fiber protecting equipment is also known as cable protection device, belongs to mechanical pressure joint sealing system, is between adjacent optical cable
Optics, sealing and the successional connecting end protective device of mechanical strength are provided.It is primarily adapted for use in aerial, the pipe of various structure optical cables
The straight-through of the paving modes such as road, direct-burried connects with branch.As a kind of currently used connecting end protective device, fiber optic protection dress
It sets and has been widely used, existing optical fiber protecting equipment is generally made of two and half boxes, is arranged between sealing ring, end set
Optical cable inlet wire or outlet hole, to realize sealing, the disengaging of pressure-bearing anti-impact and optical cable, connect.However existing fiber optic protection dress
It needs to be attached by screw or buckle when setting installation, being connected by screw can cause installation process to take time and effort, and pass through
Buckle will appear connection not enough fastening again when being attached, the problem of being easy to loosen.
Utility model content
The utility model solve optical fiber protecting equipment of the existing technology installation take time and effort or install it is not tight enough
Gu, the problem of being easy to loosen, the pyrocondensation protection of pipe structure being easily installed is provided, by being threaded in interface when application,
Under the premise of installation fastening enough, the set-up time is greatly saved, it is time saving and energy saving, it is easy to promote large-scale.
The utility model is achieved through the following technical solutions:
The pyrocondensation protection of pipe structure being easily installed, including the first semicanal and the second semicanal, the setting of first semicanal one end
Intelligent acess mouth, other end setting is raised, and external screw thread is arranged in the protrusion, and second semicanal one end setting optical fiber picks out
Mouthful, the other end is arranged and the matched groove of protrusion, setting and the matched internal thread of the external screw thread on groove, and described first
Fibre-optical splice bracket is respectively set inside semicanal and the second semicanal.
Further, the pyrocondensation protection of pipe structure being easily installed, the protrusion and the contact position setting of the first semicanal buffer
Pad.
Further, sealing ring is arranged on the intelligent acess mouth in the pyrocondensation protection of pipe structure being easily installed.
Further, sealing ring is arranged on the optical fiber exit in the pyrocondensation protection of pipe structure being easily installed.
Further, distinguish the outer surface of the pyrocondensation protection of pipe structure being easily installed, first semicanal and the second semicanal
Buffer layer is set.
The utility model compared with prior art, has the following advantages and advantages:
1, intelligent acess is arranged by the way that the first semicanal and the second semicanal, first semicanal one end is arranged in the utility model
Mouthful, other end setting is raised, and external screw thread is arranged in the protrusion, and optical fiber exit, the other end is arranged in second semicanal one end
Setting and the matched groove of protrusion, are arranged on groove and the matched internal thread of the external screw thread, first semicanal and the
Fibre-optical splice bracket is respectively set inside two semicanals.By it is described protrusion and with the matched groove of the protrusion, external screw thread with
And it, by the form of screw thread, is avoided existing when carrying out protection installation to optical fiber heat-shrink tube with the external screw thread matched internal thread
Optical fiber protecting equipment installation when need by screw or buckle be attached, being connected by screw can cause installation process to consume
When effort, by buckle be attached when again will appear connection not enough fastening, be easy loosening the problem of.
2, the utility model in the protrusion and the contact position of the first semicanal by being arranged cushion pad, when mounted to this reality
It is avoided into row buffering because installation is caused to damage under the action of manpower with novel, simultaneous buffering pad can also enhance leakproofness.
3, sealing is arranged on the optical fiber exit by the way that sealing ring is arranged on the intelligent acess mouth in the utility model
Buffer layer is respectively set in the outer surface of circle, first semicanal and the second semicanal, to enhance the utility model leakproofness and
Wearability.
Description of the drawings
Attached drawing described herein is used for providing further understanding the utility model embodiment, constitutes the one of the application
Part does not constitute the restriction to the utility model embodiment.In the accompanying drawings:
FIG. 1 is a schematic structural view of the utility model.
Label and corresponding parts title in attached drawing:
The first semicanals of 1-, the second semicanals of 2-, 3- intelligent acess mouths, 4- protrusions, 5- external screw threads, 6- optical fiber exit, 7- are recessed
Slot, 8- internal threads, 9- cushion pads, 10- sealing rings, 11- buffer layers.
Specific implementation mode
To make the purpose of this utility model, technical solution and advantage be more clearly understood, with reference to embodiment and attached drawing,
The utility model is described in further detail, and the exemplary embodiment and its explanation of the utility model are only used for explaining this
Utility model is not intended to limit the scope of the present invention.
Embodiment
As shown in Figure 1, the pyrocondensation protection of pipe structure being easily installed, including the first semicanal 1 and the second semicanal 2, described first
Intelligent acess mouth 3 is arranged in 1 one end of semicanal, and external screw thread 5, second semicanal 2 is arranged in other end setting protrusion 4, described raised 4
Optical fiber exit 6, other end setting and the raised 4 matched groove 7 is arranged in one end, is arranged on the groove 7 and described outer
Fibre-optical splice bracket is respectively set inside first semicanal, 1 and second semicanal 2 in 5 matched internal thread 8 of screw thread.Described raised 4
Cushion pad 9 is set with the contact position of the first semicanal 1.Sealing ring 10 is set on the intelligent acess mouth 3.The optical fiber exit 6
Upper setting sealing ring 10.Buffer layer 11 is respectively set in the outer surface of first semicanal, 1 and second semicanal 2.
The course of work of the utility model is as follows:By the way that the first semicanal 1 and the second semicanal 2, first semicanal 1 one is arranged
End setting intelligent acess mouth 3, the other end, which is arranged in protrusion 4, described raised 4, is arranged external screw thread 5, and described second semicanal, 2 one end is set
Optical fiber exit 6, other end setting and the raised 4 matched groove 7 are set, is arranged and the external screw thread 5 on the groove 7
Fibre-optical splice bracket is respectively set inside first semicanal, 1 and second semicanal 2 in the internal thread 8 matched.By described raised 4 with
And with the raised 4 matched groove 7, external screw thread 5 and with 5 matched internal thread 8 of the external screw thread, to optical fiber heat-shrink tube into
When row protection installation, by the form of screw thread, needed by screw or buckle when existing optical fiber protecting equipment being avoided to install
It is attached, being connected by screw can cause installation process to take time and effort, and will appear connection again not when being attached by buckle
Enough fastenings, the problem of being easy to loosen.By described raised 4 and first semicanal 1 contact position be arranged cushion pad 9, when mounted
The utility model is avoided into row buffering because installation is caused to damage under the action of manpower, simultaneous buffering pad 9 can also enhance close
Feng Xing.By the way that sealing ring 10 is arranged on the intelligent acess mouth 3, sealing ring 10 is set on the optical fiber exit 6, described the
Buffer layer 11 is respectively set in the outer surface of one semicanal 1 and the second semicanal 2, to enhance the leakproofness of the utility model and wear-resisting
Property.
Above-described specific implementation mode, to the purpose of this utility model, technical solution and advantageous effect carried out into
One step is described in detail, it should be understood that the foregoing is merely specific embodiment of the present utility model, is not used to limit
Determine the scope of protection of the utility model, within the spirit and principle of the utility model, any modification for being made equally is replaced
It changes, improve, should be included within the scope of protection of this utility model.
Claims (5)
1. the pyrocondensation protection of pipe structure being easily installed, which is characterized in that including the first semicanal (1) and the second semicanal (2), described
Intelligent acess mouth (3) is arranged in one semicanal (1) one end, and other end setting is raised (4), setting external screw thread (5) on the protrusion (4),
Optical fiber exit (6) are arranged in described second semicanal (2) one end, other end setting and raised (4) the matched groove (7), recessed
Setting and the external screw thread (5) matched internal thread (8), first semicanal (1) and the second semicanal (2) inside points on slot (7)
It She Zhi not fibre-optical splice bracket.
2. the pyrocondensation protection of pipe structure according to claim 1 being easily installed, which is characterized in that the protrusion (4) and the
The contact position setting cushion pad (9) of one semicanal (1).
3. the pyrocondensation protection of pipe structure according to claim 1 being easily installed, which is characterized in that the intelligent acess mouth
(3) sealing ring (10) is set on.
4. the pyrocondensation protection of pipe structure according to claim 1 being easily installed, which is characterized in that the optical fiber exit
(6) sealing ring (10) is set on.
5. the pyrocondensation protection of pipe structure according to claim 1 being easily installed, which is characterized in that first semicanal (1)
Buffer layer (11) is respectively set with the outer surface of the second semicanal (2).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721798351.7U CN207937639U (en) | 2017-12-20 | 2017-12-20 | The pyrocondensation protection of pipe structure being easily installed |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721798351.7U CN207937639U (en) | 2017-12-20 | 2017-12-20 | The pyrocondensation protection of pipe structure being easily installed |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207937639U true CN207937639U (en) | 2018-10-02 |
Family
ID=63646726
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201721798351.7U Active CN207937639U (en) | 2017-12-20 | 2017-12-20 | The pyrocondensation protection of pipe structure being easily installed |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN207937639U (en) |
-
2017
- 2017-12-20 CN CN201721798351.7U patent/CN207937639U/en active Active
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