CN209602377U - A kind of fibre drawing furnace helium collection device - Google Patents

Abstract

The utility model discloses a kind of fibre drawing furnace helium collection device, surge drum including both ends open, cavity is formed inside surge drum, surge drum upper end is sealedly connected under fiber drawing furnace at mouth, the lower end of surge drum is fixedly connected on shutter, fiber drawing furnace, surge drum and shutter coaxial arrangement, the optical fiber being pierced by from mouth under fiber drawing furnace is entered in shutter by cavity, surge drum is equipped with the protection gas input channel being connected to cavity, prevent air from entering fiber drawing furnace to form sealing gland by protecting gas input channel that protection gas can be added into cavity, surge drum lower part is equipped with the helium output channel of connection cavity, it is exported and is recycled by helium output channel from the helium that fiber drawing furnace is taken out of and entered in cavity by optical fiber.Its structure of the utility model is simple, easy to assembly quick, is entered in fiber drawing furnace by the way that protection gas is added in surge drum and forms sealing gland and enables to be effectively prevented air when collecting and recycling helium by mouth under fiber drawing furnace, ensure that processing quality.

Description

A kind of fibre drawing furnace helium collection device

Technical field

The utility model relates to fibre drawing furnace equipment technical fields, and in particular to a kind of fibre drawing furnace helium collection dress It sets.

Background technique

Helium is inert gas, colourless under normal pressure and temperature, tasteless, nontoxic, non-combustible.It is that the mankind have found that critical-temperature is minimum Substance, aobvious buff, is to be most difficult to liquefied gas when low pressure discharge, extremely inactive, cannot be burnt, also not fire-retardant, under normal pressure Helium will not solidify when absolute zero.Derived from this class feature of helium, helium is very widely used on modern industry.Helium is in light In fine manufacturing process, the protective gas that wire drawing stages use helium to heat and soften as optical wand utilizes the superconductivity and inertia of helium The characteristic of gas, prevents optical wand from aoxidizing, and plays thermal conduction characteristic and saves energy consumption.It is right with the development and expansion of internal optical fiber industry The requirement of helium is being continuously increased, and price is constantly fluctuating, since helium relies primarily on import, so the development of enterprise and at Originally the restriction by import price, and then the recycling and reuse of helium are put forward new requirements.

Utility model content

In view of the deficiencies of the prior art, the utility model provides a kind of fibre drawing furnace helium collection device, structure Simply, easy to assembly quick, helium recovery is high-efficient, and air-tightness is good, is made by the way that protection gas formation sealing gland is added in surge drum Air can be effectively prevented when collecting and recycling helium to enter in fiber drawing furnace by mouth under fiber drawing furnace, ensure that processing quality.

In order to achieve the above objectives, the utility model is achieved through the following technical solutions:

A kind of fibre drawing furnace helium collection device, the surge drum including both ends open, surge drum inside form cavity, receive Collection cylinder upper end be sealedly connected under fiber drawing furnace at mouth, the lower end of surge drum is fixedly connected on shutter, fiber drawing furnace, surge drum and Shutter coaxial arrangement, the optical fiber being pierced by from mouth under fiber drawing furnace are entered in shutter by cavity, and surge drum is equipped with and sky The protection gas input channel of chamber connection prevents sky by protecting gas input channel that protection gas can be added into cavity to form sealing gland Gas enters fiber drawing furnace, and surge drum lower part is equipped with the helium output channel of connection cavity, is taken out of by optical fiber from fiber drawing furnace and enters sky Intracavitary helium is exported and is recycled by helium output channel.

Further, it is equipped with protection gas input disc in the middle part of the surge drum, is formed in protection gas input disc and is connected to cavity Protection gas input channel.

Further, the protection gas cushion chamber of annular is formed in the protection gas input disc, protection gas cushion chamber passes through guarantor Shield gas intercommunicating pore is connected with cavity, and the protection gas input hole of connective protection gas cushion chamber is equipped on the outside of protection gas input disc, Protection gas input channel is formed by protection gas intercommunicating pore, protection gas cushion chamber and protection gas input hole.

Further, the protection gas input hole and protection gas intercommunicating pore are dislocatedly distributed in order to avoid being inputted by protection gas input hole Protection gas frontal impact optical fiber.

Further, the protection gas is argon gas.

Further, helium output panel is equipped at the surge drum lower ending opening, helium, which exports, is equipped with connection sky at disk center The fiber outlet of chamber is formed at least one helium output channel being connected to cavity in helium output panel.

Further, the He buffer chamber of an annular is formed in the helium output panel, He buffer chamber passes through several helium Gas intercommunicating pore is connected with cavity, the helium delivery outlet of several connection He buffer chambers is equipped on the outside of helium output panel, by helium Gas intercommunicating pore, He buffer chamber and helium delivery outlet form helium output channel.

Further, the helium intercommunicating pore and helium delivery outlet are dislocatedly distributed.

Further, helium output pan bottom is fixedly connected by bolt with shutter.

Further, upper end stationary plane is formed at the surge drum upper end opening, upper end stationary plane is equipped with annular seal groove, Sealing ring is equipped in annular seal groove, upper end stationary plane is bolted to connection under fiber drawing furnace at mouth.

Fibre drawing furnace helium collection device described in the utility model, has the advantages that

Its structure of the utility model is simple, easy to assembly quick, and helium recovery is high-efficient, and air-tightness is good, by collecting Protection gas is added in cylinder forming sealing gland enables to be effectively prevented air when collecting and recycling helium and enter drawing by mouth under fiber drawing furnace In silk furnace, processing quality ensure that.

Detailed description of the invention

Fig. 1 is the fibre drawing furnace helium collection device structural schematic diagram of the utility model embodiment.

Fig. 2 is that the helium of the utility model embodiment collects recovery process schematic diagram.

Fig. 3 is the transverse sectional view of the protection gas input disc of the utility model embodiment.

Fig. 4 is the transverse sectional view of the nitrogen output panel of the utility model embodiment.

Label declaration:

1, surge drum, 11, cavity, 12, protection gas input disc, 121, protection gas cushion chamber, 122, protection gas intercommunicating pore, 123, protection gas input hole, 13, helium gas output panel, 131, fiber outlet, 132, He buffer chamber, 133, helium intercommunicating pore, 134, helium delivery outlet, 14, upper end stationary plane, 141, annular seal groove, 2, fiber drawing furnace, 3, shutter.

Specific embodiment

The utility model is further described with reference to the accompanying drawings and embodiments.

In the description of the present invention, it should be understood that term " on ", "lower", "front", "rear", "left", "right", The orientation or positional relationship of the instructions such as "top", "bottom", "inner", "outside" is to be based on the orientation or positional relationship shown in the drawings, and is only For ease of description the utility model and simplify description, rather than the device or element of indication or suggestion meaning must have it is specific Orientation, be constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.

Attached drawing 1 is please referred to attached drawing 4, in the present embodiment, a kind of fibre drawing furnace helium collection device, including both ends open Surge drum 1, cavity 11 is formed inside surge drum 1,1 upper end of surge drum is sealedly connected under fiber drawing furnace 2 at mouth, surge drum 1 Lower end is fixedly connected on shutter 3, and fiber drawing furnace 2, surge drum 1 and shutter 3 are coaxially disposed, and is pierced by from 2 lower mouthfuls of fiber drawing furnace Optical fiber entered in shutter 3 by cavity 11, surge drum 1 is equipped with the protection gas input channel that is connected to cavity 11, passes through Protection gas input channel can be added into cavity 11 protect gas prevent air from entering fiber drawing furnace 2 to form sealing gland and to processing quality It impacts, 1 lower part of surge drum is equipped with the helium output channel of connection cavity 11, is taken out of by optical fiber from fiber drawing furnace 2 and enters sky Helium in chamber 11 is exported and is recycled by helium output channel.

It please refers to attached drawing 1, protection gas input disc 12 is equipped in the present embodiment, in the middle part of surge drum 1, is protected in gas input disc 12 It is formed with the protection gas input channel being connected to cavity 11.In the present embodiment, it is preferable that be formed with ring in protection gas input disc 12 The protection gas cushion chamber 121 of shape, for protection gas cushion chamber 121 by protecting gas intercommunicating pore 122 to be connected with cavity 11, protection gas is defeated The protection gas input hole 123 for entering to be equipped with connective protection gas cushion chamber 121 on the outside of disk 12, by protection gas intercommunicating pore 122, protection gas Cushion chamber 121 and protection gas input hole 123 form protection gas input channel.In the present embodiment, it is preferable that protection gas is high-purity Argon gas.

Attached drawing 3 is please referred to, in the present embodiment, it is preferable that protection gas input hole 123 and the protection dislocation point of gas intercommunicating pore 122 Cloth impacts optical fiber and is even broken in order to avoid the protection gas frontal impact optical fiber inputted by protection gas input hole 123.

It please refers to attached drawing 1, in the present embodiment, helium output panel 13, helium output panel 13 is equipped at 1 lower ending opening of surge drum It is equipped with the fiber outlet 131 of connection cavity 11 at center, is formed with what at least one was connected to cavity 11 in helium output panel 13 Helium output channel.In the present embodiment, it is preferable that be formed with the He buffer chamber 132 of an annular, helium in helium output panel 13 Cushion chamber 132 is connected by several helium intercommunicating pores 133 with cavity 11, and several connection helium are equipped on the outside of helium output panel 13 The helium delivery outlet 134 of gas cushion chamber 132 forms helium by helium intercommunicating pore 133, He buffer chamber 132 and helium delivery outlet 134 Gas output channel.

Please refer to attached drawing 4, in the present embodiment, helium intercommunicating pore 133 and helium delivery outlet 134 are dislocatedly distributed and avoid output Helium frontal impact optical fiber impacts optical fiber and is even broken.

Please refer to attached drawing 1, in the present embodiment, 13 bottom of helium output panel is fixedly connected by bolt with shutter 3.

It please refers to attached drawing 1, in the present embodiment, forms upper end stationary plane 14, upper end stationary plane 14 at 1 upper end opening of surge drum It is equipped with annular seal groove 141, is equipped with sealing ring resistant to high temperature in annular seal groove 141, to guarantee to connect air-tightness, upper end is solid Determine face 14 to be bolted to connection under fiber drawing furnace 2 at mouth.

In the present embodiment, the surge drum 1 of fibre drawing furnace helium collection device can be to be closed by stainless steel, aluminium alloy or titanium Made of any material in golden material.

Attached drawing 2 is please referred to, in process of production, is entered in surge drum 1 by the helium that optical fiber takes fiber drawing furnace 2 out of, and energy Enter subsequent recovery and processing system by the output of helium delivery outlet 134 of 1 bottom of surge drum to recycle, helium is successively through overcurrent Amount control, filtering, except being entered in follow up device after halogen and vacuum pump.

The above, embodiment are only to illustrate the technical solution of the utility model, rather than its limitations；Although referring to before Embodiment is stated the utility model is described in detail, those skilled in the art should understand that: it still can be with It modifies to technical solution documented by previous embodiment, or some technical characteristics therein is equivalently replaced；And These modifications or substitutions do not make corresponding technical solution be detached from the spirit and scope of the utility model embodiment technical solution, because This every other embodiment obtained by those of ordinary skill in the art without making creative efforts belongs to this The protection scope of utility model.

Claims (10)

1. a kind of fibre drawing furnace helium collection device, it is characterised in that: the surge drum (1) including both ends open, surge drum (1) Inside forms cavity (11), and surge drum (1) upper end is sealedly connected under fiber drawing furnace (2) at mouth, and the lower end of surge drum (1) is fixed to be connected It connects on shutter (3), fiber drawing furnace (2), surge drum (1) and shutter (3) coaxial arrangement, from being pierced by from mouth under fiber drawing furnace (2) Optical fiber by cavity (11) enter shutter (3) in, surge drum (1) be equipped be connected to cavity (11) protection gas input leads to Road, protection gas can be added into cavity (11) by protection gas input channel prevents air from entering fiber drawing furnace (2) to form sealing gland, Surge drum (1) lower part is equipped with the helium output channel of connection cavity (11), is taken out of by optical fiber from fiber drawing furnace (2) and enters cavity (11) helium in is exported and is recycled by helium output channel.

2. fibre drawing furnace helium collection device according to claim 1, it is characterised in that: in the middle part of the surge drum (1) Equipped with protection gas input disc (12), the protection gas input channel being connected to cavity (11) is formed in protection gas input disc (12).

3. fibre drawing furnace helium collection device according to claim 2, it is characterised in that: the protection gas input disc (12) in be formed with annular protection gas cushion chamber (121), protection gas cushion chamber (121) by protection gas intercommunicating pore (122) with Cavity (11) is connected, and protection gas input disc (12) outside is equipped with the protection gas input hole of connective protection gas cushion chamber (121) (123), protection gas input is formed by protection gas intercommunicating pore (122), protection gas cushion chamber (121) and protection gas input hole (123) Channel.

4. fibre drawing furnace helium collection device according to claim 3, it is characterised in that: the protection gas input hole (123) it is dislocatedly distributed with protection gas intercommunicating pore (122) in order to avoid passing through the protection gas frontal impact of protection gas input hole (123) input Optical fiber.

5. fibre drawing furnace helium collection device according to claim 1, it is characterised in that: the protection gas is argon gas.

6. fibre drawing furnace helium collection device according to claim 1, it is characterised in that: surge drum (1) lower end Opening is equipped with helium output panel (13), and the fiber outlet (131) of connection cavity (11) is equipped at helium output panel (13) center, At least one helium output channel being connected to cavity (11) is formed in helium output panel (13).

7. fibre drawing furnace helium collection device according to claim 6, it is characterised in that: the helium output panel (13) It is inside formed with the He buffer chamber (132) of an annular, He buffer chamber (132) passes through several helium intercommunicating pores (133) and cavity (11) it is connected, helium output panel (13) outside is equipped with the helium delivery outlet (134) of several connections He buffer chamber (132), Helium output channel is formed by helium intercommunicating pore (133), He buffer chamber (132) and helium delivery outlet (134).

8. fibre drawing furnace helium collection device according to claim 7, it is characterised in that: the helium intercommunicating pore (133) it is dislocatedly distributed with helium delivery outlet (134).

9. fibre drawing furnace helium collection device according to claim 6, it is characterised in that: the helium output panel (13) Bottom is fixedly connected by bolt with shutter (3).

10. fibre drawing furnace helium collection device according to any one of claims 1 to 9, it is characterised in that: the surge drum (1) upper end stationary plane (14) are formed at upper end opening, upper end stationary plane (14) is equipped with annular seal groove (141), ring packing Sealing ring is equipped in slot (141), upper end stationary plane (14) is bolted to connection under fiber drawing furnace (2) at mouth.