CN205275445U - Glass liquid tympanic bulla pipe and glass liquid bubbling device - Google Patents

Abstract

The utility model discloses a glass liquid tympanic bulla pipe and glass liquid bubbling device. Glass liquid tympanic bulla pipe, including the pipe body, the pipe body be one end opening, other end confined blind pipe, the opening of pipe body open end department be with tub communicating gas access of body inner chamber, be close to on the pipe body and be equipped with at least one body inner chamber and the air outlet channel in the external world in the pipe lateral wall of blind end communicating pipe. Glass liquid bubbling device, including tympanic bulla air supply and tympanic bulla connecting leg and foretell glass liquid tympanic bulla pipe, the gas outlet of tympanic bulla air supply links to each other with the air inlet of tympanic bulla connecting leg, the gas outlet of tympanic bulla connecting leg links to each other with the gas access of glass liquid tympanic bulla pipe. Through setting up the intramural air outlet channel of pipe side who is being close to the blind end for this glass liquid tympanic bulla duct occlusion end is vertical to be stretched into when carrying out the tympanic bulla to the glass liquid that is close to the quartz crucible bottom in, and tympanic bulla gas is bloated by tympanic bulla pipe side, can reduce gaseously to the erodeing of quartz crucible bottom, and then does benefit to the life who improves quartz crucible.

Description

Glass liquid bubbling tube and glass metal bubbling device

Technical field

The utility model relates to a kind of bubbling pipe and bubbling device, especially a kind of glass liquid bubbling tube and glass metal bubbling device.

Background technology

Preparing in production process at optical glass clinker, normal use quartz crucible is as the container of fusing opticglass material. In order to improve production efficiency and glass quality, in glass grog preparation process, in addition it is also necessary to adopt glass liquid bubbling tube to be blown into gas in high temp glass liquid. The advantages such as quartz crucible has purity height, temperature tolerance is strong, size is big, precision height and good heat preservation performance, but owing to the main manufacture raw material of quartz crucible is glass sand, therefore it is at high temperature very easily had an effect with some composition of opticglass (such as basic metal, carbonate etc.), the link particularly adopting existing glass liquid bubbling tube to carry out bubbling.

As shown in Figure 1, existing glass liquid bubbling tube comprises tube body 1, and described tube body 1 is the siphunculus of both ends open. When using existing glass liquid bubbling tube to carry out bubbling, one end of bubbling pipe vertically stretches in the glass metal bottom quartz crucible 5, is blown into gas by the other end of bubbling pipe, as shown in Figure 2 in glass metal. Due to existing glass liquid bubbling tube give vent to anger position structure caused by, gas is moved and close together bottom quartz crucible 5, in the process of repeatedly bubbling, high temp glass liquid is subject to the airflow influence moved downward in bubbling pipe, easily stir glass metal to continuous erosion bottom quartz crucible 5, cause the corrosion of quartz crucible 5 to aggravate, seriously affect the work-ing life of quartz crucible 5.

Practical novel content

The technical problems to be solved in the utility model is to provide and a kind of is beneficial to the glass liquid bubbling tube improving quartz crucible work-ing life.

The utility model solves the technical scheme that its technical problem adopts: glass liquid bubbling tube, comprise tube body, described tube body be one end open, the other end close blind pipe, the opening of tube body open end is the gas inlet communicated with tube body inner chamber, tube body is provided with in the pipe sidewall of blind end at least one communicating pipe chamber body with extraneous outlet passageway.

Further, described outlet passageway is pore structure or crack structure.

Further, described pore structure is circular hole, square hole, delthyrium or rhombus hole; Described crack structure is straight line seam or curve seam.

Further, two is one group along the symmetrically arranged outlet passageway in tube body caliber direction on the pipe sidewall of tube body 1, and this glass liquid bubbling tube is provided with 2��20 groups of outlet passageways.

Further, described outlet passageway is two or more, and is uniformly distributed setting along the circumference of tube body.

Further, described tube body is cylindrical or the prism bodily form.

Further, described tube body is made up of high temperature resistant and corrosion-resistant material.

Further, described high temperature resistant and corrosion-resistant material is platinum or platinum alloy.

The utility model additionally provides a kind of glass metal bubbling device, comprise bubbling gas source and bubbling connecting leg, also comprising above-mentioned glass liquid bubbling tube, the air outlet in described bubbling gas source is connected with the inlet mouth of bubbling connecting leg, and the described air outlet of bubbling connecting leg is connected with the gas inlet of glass liquid bubbling tube.

Further, this glass metal bubbling device also comprises flow regulator, and described flow regulator is arranged on bubbling connecting leg.

The beneficial effects of the utility model are: by the outlet passageway being arranged in the pipe sidewall of blind end, make to adopt this glass liquid bubbling tube blind end vertically to stretch to when the glass metal bottom quartz crucible carries out bubbling, bubbled gas turns into gas from original directly rushing and goes out by bubbling pipe side drum bottom quartz crucible, thus can reduce gas to washing away bottom quartz crucible, and then be beneficial to the work-ing life improving quartz crucible.

Accompanying drawing explanation

Fig. 1 is the enforcement structural representation of existing glass liquid bubbling tube;

Fig. 2 is the gas flow schematic diagram of existing glass liquid bubbling tube;

Fig. 3 is the three-dimensional structure schematic diagram of glass liquid bubbling tube in the utility model;

Fig. 4 is the sectional structure schematic diagram of glass liquid bubbling tube in the utility model;

Fig. 5 is the gas flow schematic diagram of glass liquid bubbling tube in the utility model;

Fig. 6 is the enforcement structural representation of glass metal bubbling device in the utility model;

Figure is labeled as: tube body 1, gas inlet 11, outlet passageway 12, bubbling gas source 2, bubbling connecting leg 3, flow regulator 4 and quartz crucible 5.

In Fig. 2 and Fig. 5, the direction of arrow represents the flow direction of the gas that drum goes out in glass liquid bubbling tube.

Embodiment

Below in conjunction with accompanying drawing, the utility model is further described.

As shown in Figure 3 and Figure 4, glass liquid bubbling tube, comprise tube body 1, described tube body 1 be one end open, the other end close blind pipe, the opening of tube body 1 open end is the gas inlet 11 communicated with tube body 1 inner chamber, tube body 1 is provided with in the pipe sidewall of blind end at least one communicating pipe body 1 inner chamber with extraneous outlet passageway 12. Wherein, on tube body 1, the pipe sidewall of close blind end refers to that this glass liquid bubbling tube can stretch into the pipe sidewall of glass metal end, outlet passageway 12 normally tilts or the pore structure that is horizontally set in this pipe sidewall or crack structure, described pore structure can be circular hole, square hole, delthyrium or rhombus hole, and described crack structure can be straight line seam or curve seam. Preferably, described outlet passageway 12 be along tube body 1 caliber to arrange circular hole.

Shown in composition graphs 5, when using this glass liquid bubbling tube to carry out bubbling, the blind end of tube body 1 is vertically stretched in the glass metal bottom quartz crucible 5, bubbled gas enters tube body 1 inner chamber by gas inlet 11, go out from outlet passageway 12 drum again, enter high temp glass liquid by the direction of arrow in Fig. 5; Blast the bubbled gas in high temp glass liquid, drive the direction of motion of glass metal to be tube body 1 side to, reduce high temp glass liquid to washing away bottom quartz crucible 5. After bubbled gas is gone out by the side drum of this glass liquid bubbling tube, owing in bubbling pipe distance quartz crucible 5, lateral distance is about 3��5 times apart from distance bottom quartz crucible 5, high temp glass liquid is very light to washing away of side in quartz crucible 5, therefore glass metal washing away quartz crucible is greatly reduced, it is to increase quartz crucible work-ing life.

In order to improve bubbling effect and make bubbled gas be evenly distributed in quartz crucible 5, again as shown in Figure 4, two on the pipe sidewall of tube body 1, along tube body 1 caliber direction, symmetrically arranged outlet passageway 12 is one group, and this glass liquid bubbling tube is provided with 2��20 groups of outlet passageways 12. Outlet passageway 12 groups of numbers are depending on crucible size and the degree of depth submerged in liquid, it is preferable to 4��16 groups.

Make that bubbled gas is evenly distributed in quartz crucible 5 another in preferred version be: described outlet passageway 12 is two or more, and is uniformly distributed setting along the circumference of tube body 1.

Concrete, described tube body 1 is in cylindrical or the prism bodily form. The shape of tube body 1 is generally cylindrical, the triangular prism bodily form or the quadrangular bodily form, it is preferable to cylindrical.

Concrete, described tube body 1 is made up of high temperature resistant and corrosion-resistant material. Described high temperature resistant and corrosion-resistant material can be multiple, it is preferable to platinum or platinum alloy.

As shown in Figure 6, glass metal bubbling device, comprises bubbling gas source 2 and bubbling connecting leg 3, also comprises above-mentioned glass liquid bubbling tube, the air outlet in described bubbling gas source 2 is connected with the inlet mouth of bubbling connecting leg 3, and the air outlet of described bubbling connecting leg 3 is connected with the gas inlet 11 of glass liquid bubbling tube. Wherein, bubbling connecting leg 3 is generally flexible pipe.

In order to the amount of blasting of convenient control bubbled gas, this glass metal bubbling device also comprises flow regulator 4, and described flow regulator 4 is arranged on bubbling connecting leg 3.

When using quartz crucible 5 melting opticglass, bubbled gas flows to flow regulator 4 by bubbling gas source 2 by bubbling connecting leg 3, control well and enter glass liquid bubbling tube by bubbling connecting leg 3 again after flow, bubbled gas enters in quartz crucible 5 by the outlet passageway 12 of glass liquid bubbling tube, homogenizing glass metal.

Claims (10)

1. glass liquid bubbling tube, comprise tube body (1), it is characterized in that: the blind pipe that described tube body (1) is one end open, the other end is closed, the opening of tube body (1) open end is the gas inlet (11) communicated with tube body (1) inner chamber, tube body (1) is upper be provided with in the pipe sidewall of blind end at least one communicating pipe body (1) inner chamber with extraneous outlet passageway (12).

2. glass liquid bubbling tube as claimed in claim 1, it is characterised in that: described outlet passageway (12) is pore structure or crack structure.

3. glass liquid bubbling tube as claimed in claim 2, it is characterised in that: described pore structure is circular hole, square hole, delthyrium or rhombus hole; Described crack structure is straight line seam or curve seam.

4. glass liquid bubbling tube as claimed in claim 1, it is characterized in that: two is one group along the symmetrically arranged outlet passageway in tube body (1) caliber direction (12) on the pipe sidewall of tube body (1), and this glass liquid bubbling tube is provided with 2��20 groups of outlet passageways (12).

5. glass liquid bubbling tube as claimed in claim 1, it is characterised in that: described outlet passageway (12) is two or more, and is uniformly distributed setting along the circumference of tube body (1).

6. glass liquid bubbling tube as claimed in claim 1, it is characterised in that: described tube body (1) is in cylindrical or the prism bodily form.

7. glass liquid bubbling tube as according to any one of claim 1 to 6, it is characterised in that: described tube body (1) is made up of high temperature resistant and corrosion-resistant material.

8. glass liquid bubbling tube as claimed in claim 7, it is characterised in that: described high temperature resistant and corrosion-resistant material is platinum or platinum alloy.

9. glass metal bubbling device, comprise bubbling gas source (2) and bubbling connecting leg (3), it is characterized in that: also comprise the glass liquid bubbling tube as according to any one of claim 1 to 8, the air outlet of described bubbling gas source (2) is connected with the inlet mouth of bubbling connecting leg (3), and the air outlet of described bubbling connecting leg (3) is connected with the gas inlet (11) of glass liquid bubbling tube.

10. glass metal bubbling device as claimed in claim 9, it is characterised in that: also comprising flow regulator (4), described flow regulator (4) is arranged on bubbling connecting leg (3).