CN205787216U - A kind of optical fiber splicer two-part automatic heating device - Google Patents
A kind of optical fiber splicer two-part automatic heating device Download PDFInfo
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- CN205787216U CN205787216U CN201620515895.7U CN201620515895U CN205787216U CN 205787216 U CN205787216 U CN 205787216U CN 201620515895 U CN201620515895 U CN 201620515895U CN 205787216 U CN205787216 U CN 205787216U
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- optocoupler
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- optical fiber
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Abstract
The open a kind of optical fiber splicer two-part automatic heating device of this utility model, wherein, including the first base, it is arranged on the first heating cover above described first base, is arranged in described first base and heats the heating plate of pyrocondensation, be positioned at the second base of described first chassis side and be arranged on the second heating cover above described second base for ferrule is carried out, it is provided with anchor switch on described second heating cover, promotes described anchor switch to make described first heating cover separate with described second heating cover or merge by left and right.Both can realize carrying out the ferrule on naked fibre, tail optical fiber or loose tube fiber welding position heating pyrocondensation by this utility model, and can realize again carrying out the ferrule on some FC hot melting connectors or SC hot melting connector welding position heating pyrocondensation.
Description
Technical field
This utility model relates to optical fiber splicer field, particularly relates to a kind of optical fiber splicer two-part automatic heating device.
Background technology
In optical communications, optical fiber splicer is generally used to carry out construction and the maintenance of optical cable.The operation principle of optical fiber splicer, is to utilize high-voltage arc to allow two optical fiber be fused into one, to realize the coupling of optical fiber mode fields by advancing gently with motion while two profile of optic fibre fusings.After to two sections of fused fiber splices, need to be enclosed within fused fiber splice position with ferrule, carry out heating pyrocondensation to described ferrule by heater, but existing heater, its heating pyrocondensation model comparision is single, and range of application is little, is only used for carrying out the ferrule on naked fibre, tail optical fiber or loose tube fiber welding position heating pyrocondensation, for the ferrule on some FC hot melting connectors or SC hot melting connector welding position, the most inapplicable.
Therefore, prior art has yet to be improved and developed.
Utility model content
In view of above-mentioned the deficiencies in the prior art, the purpose of this utility model is to provide a kind of optical fiber splicer two-part automatic heating device, it is intended to solves existing optical fiber heater and heats the problem that pyrocondensation model comparision is single, range of application is little.
The technical solution of the utility model is as follows:
A kind of optical fiber splicer two-part automatic heating device, wherein, including the first base, it is arranged on the first heating cover above described first base, is arranged in described first base and heats the heating plate of pyrocondensation, be positioned at the second base of described first chassis side and be arranged on the second heating cover above described second base for ferrule is carried out, it is provided with anchor switch on described second heating cover, promotes described anchor switch to make described first heating cover separate with described second heating cover or merge by left and right.
Preferably, described optical fiber splicer two-part automatic heating device, wherein, described heating plate side is provided with an automatic heater switch, described automatic heater switch includes a heat energy optocoupler plate, it is arranged on the photoelectrical coupler on described heat energy optocoupler plate, it is fixed on the heat energy optocoupler frame on described heat energy optocoupler plate, it is slidably connected at the heat energy optocoupler sheet of described heat energy optocoupler frame upper end, it is arranged on the optocoupler inductive head in the middle of described heat energy optocoupler frame and is arranged on the spring of described heat energy optocoupler frame lower end, described heat energy optocoupler sheet supports above described spring by described optocoupler inductive head, when described heat energy optocoupler sheet is pressed downward against, make described spring-compressed, described optocoupler inductive head moves down into the induction zone of described photoelectrical coupler, trigger the heating of described heating plate.
It is preferred that described optical fiber splicer two-part automatic heating device, wherein, described heat energy optocoupler plate and described heat energy optocoupler frame are provided with screw, described screw is provided with the screw rod coordinated with described screw and nut.
It is preferred that described optical fiber splicer two-part automatic heating device, wherein, described first heating cover is connected with the first base by rotating shaft.
It is preferred that described optical fiber splicer two-part automatic heating device, wherein, described first heating cover and described first chassis side are connected by an automatic closure pin.
Beneficial effect: a kind of optical fiber splicer two-part automatic heating device that this utility model provides, described second heating cover is provided with anchor switch, described anchor switch is promoted to make described first heating cover separate with described second heating cover or merge by left and right, to realize carrying out the ferrule of different welding patterns heating pyrocondensation, make it both go for the ferrule on naked fibre, tail optical fiber or loose tube fiber welding position and carry out heating pyrocondensation, can be used for again carrying out the ferrule on some FC hot melting connectors or SC hot melting connector welding position heating pyrocondensation.
Accompanying drawing explanation
Fig. 1 is the structure chart of this utility model a kind of optical fiber splicer two-part automatic heating device preferred embodiment.
Fig. 2 is the structure chart in this utility model Fig. 1 after aminoacyl site amplification.
Fig. 3 is the explosive view of the automatic heater switch of this utility model.
Fig. 4 is the combination assumption diagram of the automatic heater switch of this utility model.
Detailed description of the invention
This utility model provides a kind of optical fiber splicer two-part automatic heating device, for making the purpose of this utility model, technical scheme and effect clearer, clear and definite, further describes this utility model below.Should be appreciated that specific embodiment described herein, only in order to explain this utility model, is not used to limit this utility model.
As shown in Figure 1, optical fiber splicer two-part automatic heating device of the present utility model, wherein, including the first base 10, it is arranged on the first heating cover 20 above described first base 10, it is arranged on the described first interior heating plate 30 for optical fiber tube set carries out heating pyrocondensation of base 10, it is positioned at the second base 40 of described first base 10 side and is arranged on the second heating cover 50 above described second base 40, it is provided with anchor switch 60 on described second heating cover 50, described anchor switch 60 is promoted to make described first heating cover 20 and described second heating cover 50 separate or merge by left and right, to realize carrying out the ferrule of different welding patterns heating pyrocondensation.
Specifically, described anchor switch 60 and a snap close pin are fixed together, it is commonly mounted on described second heating cover 50, described anchor switch 60 and snap close pin can horizontally slip on the second heating cover, a spacing hole it is provided with on described second base, by described anchor switch 60, snap close pin and the cooperation of described spacing hole, described second heating cover 50 is made to open or close.
Of the present utility model theing improvement is that is provided with anchor switch 60 on described second heating cover 50, described anchor switch 60 is promoted to make described first heating cover 20 and described second heating cover 50 separate or merge by left and right, to realize carrying out the ferrule of different welding patterns heating pyrocondensation, make it both go for the ferrule on naked fibre, tail optical fiber or loose tube fiber welding position and carry out heating pyrocondensation, can be used for again carrying out the ferrule on some FC hot melting connectors or SC hot melting connector welding position heating pyrocondensation.
nullIn this utility model,In conjunction with Fig. 1、Shown in Fig. 3 and Fig. 4,Described heating plate 30 side is provided with an automatic heater switch 70,Described automatic heater switch 70 includes a heat energy optocoupler plate 71、It is arranged on the photoelectrical coupler 72 on described heat energy optocoupler plate 71、It is fixed on the heat energy optocoupler frame 73 on described heat energy optocoupler plate 71、It is slidably connected at the heat energy optocoupler sheet 74 of described heat energy optocoupler frame 73 upper end、It is arranged on the optocoupler inductive head 75 in the middle of described heat energy optocoupler frame 73 and is arranged on the spring 76 of described heat energy optocoupler frame 73 lower end,Described heat energy optocoupler sheet 74 is supported above described spring 76 by described optocoupler inductive head 75,When described heat energy optocoupler sheet 74 is pressed downward against,Described spring 76 is made to compress,So that described optocoupler inductive head 75 moves down into the induction zone of described optocoupler induction apparatus 72,Trigger the heating of described heating plate.
In this utility model, as shown in Figure 3, Figure 4, described heat energy optocoupler plate 71 and described heat energy optocoupler frame 73 are provided with screw, by described screw and screw rod 77, the coordinating of nut 78, make described heat energy optocoupler frame 73 be fixed on described heat energy optocoupler plate 71.Further, described heat energy optocoupler plate 71 is additionally provided with other screw, makes that described heat energy optocoupler plate is fixing to be caught up with on described first base 10 by coordinating of described screw and screw.
Further, as shown in Figure 1 and Figure 2, in this utility model, described first heating cover 20 is connected with described first base 10 by rotating shaft.Further, the right side of described first heating cover 20 and described first base 10 right side connected by an automatic closure pin 80.
In this utility model, specifically, when to naked fibre, when ferrule on tail optical fiber or loose tube fiber welding position carries out heating pyrocondensation, now the first heating cover is open mode, second heating cover is closure state, described ferrule is placed on described heating plate 30, now closure pin can be driven described first heating cover 20 to close by the pressure of optical fiber automatically, when after described first heating cover 20 Guan Bi, optical fiber can be pressed onto described heat energy optocoupler sheet 74, described spring 76 is made to compress, so that the optocoupler inductive head 75 being connected with described spring 76 upper end moves down into the induction zone of described optocoupler induction apparatus 72, trigger the heating of described heating plate.
When the ferrule on some FC hot melting connectors or SC hot melting connector welding position carries out heating pyrocondensation, now the first heating cover is open mode, open the second heating cover by anchor switch 60 simultaneously, ferrule on described FC hot melting connector or SC hot melting connector welding position is placed on heating plate 30, manual closing the second heating cover, now closure pin can be driven described first heating cover 20 to close by the pressure of optical fiber automatically, when after described first heating cover 20 Guan Bi, optical fiber can be pressed onto described heat energy optocoupler sheet 74, described spring 76 is made to compress, so that the optocoupler inductive head 75 being connected with described spring 76 upper end moves down into the induction zone of described optocoupler induction apparatus 72, trigger the heating of described heating plate.
In sum, a kind of optical fiber splicer two-part automatic heating device that this utility model provides, described second heating cover is provided with anchor switch, described anchor switch is promoted to make described first heating cover separate with described second heating cover or merge by left and right, to realize carrying out the ferrule of different welding patterns heating pyrocondensation, make it both go for the ferrule on naked fibre, tail optical fiber or loose tube fiber welding position and carry out heating pyrocondensation, can be used for again carrying out the ferrule on some FC hot melting connectors or SC hot melting connector welding position heating pyrocondensation.
Should be understood that; application of the present utility model is not limited to above-mentioned citing; for those of ordinary skills, can be improved according to the above description or convert, all these modifications and variations all should belong to the protection domain of this utility model claims.
Claims (5)
1. an optical fiber splicer two-part automatic heating device, it is characterized in that, including the first base, it is arranged on the first heating cover above described first base, is arranged in described first base and heats the heating plate of pyrocondensation, be positioned at the second base of described first chassis side and be arranged on the second heating cover above described second base for ferrule is carried out, it is provided with anchor switch on described second heating cover, promotes described anchor switch to make described first heating cover separate with described second heating cover or merge by left and right.
Optical fiber splicer two-part automatic heating device the most according to claim 1, it is characterized in that, described heating plate side is provided with an automatic heater switch, described automatic heater switch includes a heat energy optocoupler plate, it is arranged on the photoelectrical coupler on described heat energy optocoupler plate, it is fixed on the heat energy optocoupler frame on described heat energy optocoupler plate, it is slidably connected at the heat energy optocoupler sheet of described heat energy optocoupler frame upper end, it is arranged on the optocoupler inductive head in the middle of described heat energy optocoupler frame and is arranged on the spring of described heat energy optocoupler frame lower end, described heat energy optocoupler sheet supports above described spring by described optocoupler inductive head, when described heat energy optocoupler sheet is pressed downward against, make described spring-compressed, described optocoupler inductive head moves down into the induction zone of described photoelectrical coupler, trigger the heating of described heating plate.
Optical fiber splicer two-part automatic heating device the most according to claim 2, it is characterised in that be provided with screw on described heat energy optocoupler plate and described heat energy optocoupler frame, be provided with the screw rod coordinated with described screw and nut on described screw.
Optical fiber splicer two-part automatic heating device the most according to claim 1, it is characterised in that described first heating cover is connected with the first base by rotating shaft.
Optical fiber splicer two-part automatic heating device the most according to claim 1, it is characterised in that described first heating cover and described first chassis side are connected by an automatic closure pin.
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CN201620515895.7U CN205787216U (en) | 2016-05-31 | 2016-05-31 | A kind of optical fiber splicer two-part automatic heating device |
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CN201620515895.7U CN205787216U (en) | 2016-05-31 | 2016-05-31 | A kind of optical fiber splicer two-part automatic heating device |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107966762A (en) * | 2017-11-23 | 2018-04-27 | 南京迪威普光电技术股份有限公司 | Optical fiber splicer automatic heating furnace |
CN108333683A (en) * | 2017-11-28 | 2018-07-27 | 华兴新锐通信科技集团有限公司 | A kind of optical fiber splicer automatically moved heating bowl assembly |
-
2016
- 2016-05-31 CN CN201620515895.7U patent/CN205787216U/en active Active
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107966762A (en) * | 2017-11-23 | 2018-04-27 | 南京迪威普光电技术股份有限公司 | Optical fiber splicer automatic heating furnace |
CN107966762B (en) * | 2017-11-23 | 2019-03-22 | 南京迪威普光电技术股份有限公司 | Optical fiber splicer automatic heating furnace |
CN108333683A (en) * | 2017-11-28 | 2018-07-27 | 华兴新锐通信科技集团有限公司 | A kind of optical fiber splicer automatically moved heating bowl assembly |
CN108333683B (en) * | 2017-11-28 | 2023-12-19 | 华兴新锐通信科技集团有限公司 | Automatic remove optical fiber fusion splicer and use heating tank subassembly |
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C14 | Grant of patent or utility model | ||
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Effective date of registration: 20170527 Address after: 518000 Guangdong city of Shenzhen province Baoan District Xixiang Street Town Industrial Zone Air Huanggang Ridge Industrial Park D building 7 floor Patentee after: Shenzhen Sino Optical Communication Technology Co., Ltd. Address before: 518126 Guangdong city of Shenzhen province Baoan District Xixiang Street Town Industrial Zone Air Huanggang Ridge Industrial Park D building 7 floor Patentee before: Ji Dehai |