CN205088098U - Prevent analysing brilliant material pipe device that leaks - Google Patents

Abstract

The utility model provides a prevent analysing brilliant material pipe device that leaks. It prevents analysing brilliant technical field to belong to optical glass. It mainly is that current hourglass of solution expects that there is the mouth of pipe in the pipe and easily produces crystalline substance and the high problem of rejection rate analysed. Its leading features is: leak material pipe, self -conductance electrical heating portion and radiation heating portion including the platinum, self -conductance electrical heating portion leaks material pipe, electrode slice, flange and heating power supply by the platinum and constitutes, and the electrode slice welds on the flange, and flange space welding all is connected with DC power supply on the well upper portion that the platinum leaks the material pipe between adjacent electrode slice, radiation heating portion comprises high temperature resistant sleeve pipe and heater strip, and the suit leaks the well lower part of material pipe at the platinum, the port is higher than the flange lower extreme welding position of below on the high temperature resistant sheathed tube, and lower port leaks feeding tube entrance with leaking the feeding tube entrance parallel and level or be less than. The utility model has the characteristics of can effectively avoid the local low temperature of pipe wall appearance to produce with keeping platinum hourglass material pipe and the hourglass even high temperature state of feeding tube entrance and analyse brilliant phenomenon, the su lanthanon optical glass that brilliant ceiling temperature is high is analysed to the specially adapted.

Description

A kind of anti-crystallization leaks material pipe device

Technical field

The utility model belongs to the anti-crystallization technical field of opticglass, and particularly the anti-crystallization of a kind of opticglass leaks material pipe device and using method thereof.

Background technology

In opticglass production industry, glass leaks the heating of material pipe two kinds of modes, and the first leaks material pipe conductive exothermal, and the advantage of this leakage material pipe is accurately control glass metal viscosity, temperature adjustment speed is fast, flow control is accurate, and shortcoming is Lou to expect that the conducting strip of pipe is welded on tube wall, because platinum is the good conductor of heat, therefore weld easily occurs that topical hypothermia causes tube wall crystallization, discharge outlet is difficult to insulation layer parcel simultaneously, and rapid heat dissipation, the mouth of pipe easily produces crystallization.The second way is the heating of auxiliary stove, and the mode advantage of this heating is that homogeneous temperature everywhere managed by material, and crystallization controllability is strong, but temperature adjustment speed is slow, and it is weak that flow controls ability, and easily cause large-tonnage product to scrap, therefore use range progressively reduces.

The viscosity of lanthanide optical glass is little, crystallization ceiling temperature is high, when leaking material and being shaping, leak the easy crystallization of material inside pipe wall and material mouth of pipe place, crystallization can change flow velocity and the direction of glass metal, easily glass surface formed crystallization granular layer or glass surface scrape stagnant go out striped, the good article rate of the stable and product that impact is produced, therefore anti-leak-stopping material pipe crystallization is the important technical improving lanthanide optical glass good article rate.Current each production firm prevents main following two kinds of the method for crystallization, one is the temperature improving discharging nozzles, notification number is adopt the platinum electrode sheet that near the reinforced mouth of pipe, increase by is extra in the patent of 202046988U, the temperature near the mouth of pipe is improved to platinum electrode sheet electrified regulation, this heat preserving method in devitrification of glass temperature lower than very effective when about 1100 DEG C, but because platinum electrode sheet is outside exposed, its top temperature and thermal value limited, when the top temperature that electrode slice can be raised to is still lower than recrystallization temperature, it prevents the effect of devitrification of glass just very limited.Adopt in the patent of notification number CN202107618U and the leakage material mouth of pipe is designed to trumpet type, to facilitate the crystallization removed and leak the material mouth of pipe, but the high lanthanide optical glass of crystallization ceiling temperature cannot be solved at all, leaking the problem producing crystallization in material moulding process near the glass metal attachment mouth of pipe.Adopted in the patent of notification number CN202881082U and be built in the thermal insulation layer that forming tube and platinum rhodium cylinder formed leak material pipe, material is leaked from the form of conductive exothermal by leaking material pipe, although this mode accurately can control glass flow rate, but its anti-crystallization ability is weak, first the thermal insulation layer made of double layer sleeve barrel cannot active heated, can only slow down and leak the heat radiation of material pipe, be unfavorable for preventing crystallization; Secondly, platinum is the good conductor of heat, and flange electrode expects pipe weld rapid heat dissipation with leakage, easily occurs topical hypothermia and causes crystallization; Again, with leakage, platinum rhodium cylinder is expected that pipe glass metal exports and is connected, radiating rate is fast, and envrionment temperature is low in addition, and it is very big that it leaks material mouth glass metal exit crystallization possibility.Therefore above-mentioned patent anti-crystallization effect is all limited.Two is promote glass load, the method improving load prevents the mouth of pipe crystallization from also having larger limitation, current opticglass is produced major part and is adopted continuous induction melting furnace to produce, the flow of glass metal is directly connected to fusing and the settling time of glass solution, when changing glass metal flow, easily produce the defect such as bubble, foreign matter in glass, the therefore great restriction that is subject to of use range.

Summary of the invention

The purpose of this utility model is to overcome deficiency of the prior art, a kind of anti-crystallization is provided to leak material pipe device and using method thereof, the glass that can effectively prevent recrystallization temperature high, at leakage material inside pipe wall and mouth of pipe crystallization, reaches stably manufactured, improves the object of product good article rate.

Technical solution of the present utility model is: a kind of anti-crystallization leaks material pipe device, comprises platinum and leaks material pipe, it is characterized in that: also comprise from conduction heating portion and radiation heating portion; Wherein, leak material pipe, electrode slice, flange and heating power supply from conduction heating portion by platinum and form, electrode slice is welded on corresponding flange, and flange separation is welded on the middle and upper part that platinum leaks material pipe, is all connected with direct supply between adjacent electrode sheet; Radiation heating portion is made up of high temperature resistant sleeve pipe and heater strip, is sleeved on the middle and lower part that platinum leaks material pipe; The upper port of high temperature resistant sleeve pipe leaks the welding position, flange lower end of material pipe bottom higher than platinum, with leakage, lower port expects that the mouth of pipe is concordant or expect the mouth of pipe lower than leaking.

The direct supply connected between the adjacent electrode sheet described in technical solution of the present utility model is connected in succession.

Electrode slice described in technical solution of the present utility model has 2-5.

Electrode slice described in technical solution of the present utility model is the first electrode slice, the second electrode slice and third electrode sheet.

High temperature resistant sleeve pipe two ends described in technical solution of the present utility model are provided with flange.

Heater strip described in technical solution of the present utility model is spirally wound on high temperature resistant sleeve pipe.

Often organize heater strip in the heater strip described in technical solution of the utility model anti-crystallization leakage material pipe device to be all not in contact with each other.

High temperature resistant sleeve pipe described in technical solution of the present utility model is the high temperature resistant sleeve pipe of zircon corundum material.

When glass leaks and expects shaping, superpose from conduction heating portion intermediate electrode film electric current, be conducive to improving flange and platinum and leak the temperature of expecting pipe weld, prevent topical hypothermia, electrode slice and flange are positioned at chamber, radiation heating portion bottom, are conducive to alleviating this weld and occur topical hypothermia's point, and topmost electrode slice keeps comparatively high temps owing to will make glass metal, its electric current is comparatively large, and the possibility of crystallization is low, and therefore platinum leaks and expects that inside pipe wall occurs that the possibility of crystallization significantly reduces; Radiation heating portion makes the leakage of the platinum in chamber material pipe keep the even condition of high temperature by the mode of radiation heating simultaneously, effectively can reach the object of anti-crystallization.

Compared with prior art, the utility model has following beneficial effect: platinum can be responded to glass temperature in time from conduction heating portion and accurately control glass flow rate, and the circuit connecting of electric current superposition simultaneously can effectively avoid tube wall occur topical hypothermia and produce crystallization.Radiant heat portion can make platinum in chamber leak material pipe and leak the material mouth of pipe to keep the even condition of high temperature, prevents the successful of crystallization, is specially adapted to the lanthanide optical glass that crystallization ceiling temperature is high.

Accompanying drawing explanation

Fig. 1 is external structure schematic diagram of the present utility model.

Fig. 2 is the schematic internal view of the utility model embodiment 1.

Fig. 3 is the schematic internal view of the utility model embodiment 2.

In figure: 1-platinum leaks material pipe, 2-flange, 3-first electrode slice, 4-heater strip, 5-is high temperature resistant sleeve pipe, 6-second electrode slice, 7-third electrode sheet, 8-leak and expect the mouth of pipe, 9-first direct supply, 10-second direct supply, 11-the 3rd direct supply.

Embodiment

Various exemplary embodiment of the present utility model, characteristic sum aspect is described in detail below with reference to accompanying drawing.The same or analogous element of Reference numeral presentation function identical in accompanying drawing.Although the various aspects of embodiment shown in the drawings, unless otherwise indicated, accompanying drawing need not be drawn in proportion.

Embodiment 1 as shown in Figure 1 and Figure 2.The utility model comprises from conduction heating portion and radiation heating portion, is fixed together by retaining clip or other instruments and physical method from conduction heating portion and radiation heating portion.Wherein, material pipe 1 is leaked by platinum from conduction heating portion, first electrode slice 3, second electrode slice 6, third electrode sheet 7, 3 flanges 2, first direct supply 9 and the second direct supply 10 are formed, first electrode slice 3, second electrode slice 6 and third electrode sheet 7 respectively correspondence are welded on, in, on lower 3 flanges 2, the interval, lower end of flange 2 is welded on platinum and leaks on the middle and upper part tube wall of material pipe 1, first direct supply 9 is connected between the second electrode slice 6 and third electrode sheet 7, second direct supply 10 is connected between the first electrode slice 3 and third electrode sheet 7, first direct supply 9 and the second direct supply 10 forward are connected in series.Radiation heating portion is made up of high temperature resistant sleeve pipe 5 and heater strip 4, is sleeved on the middle and lower part that platinum leaks material pipe 1.There is flange at high temperature resistant sleeve pipe 5 two ends, can assist fixing heater strip 4 and thermal insulation layer, and heater strip 4 is spirally wound on high temperature resistant sleeve pipe 5, and heater strip 4 is made up of platinum material, and high temperature resistant sleeve pipe 5 is made up of zircon corundum material, and heater strip 4 is often organized and is all not in contact with each other.

The upper port of high temperature resistant sleeve pipe 5 leaks the welding position, flange 2 lower end of material pipe 1 bottom higher than platinum, make weld be positioned at chamber, radiation heating portion.According to the crystallization property of glass, the length of selective radiation well heater, can make the leakage material mouth of pipe 8 concordant with radiation heater end face.

Embodiment 2 as shown in Figure 3.Leak the position between the material mouth of pipe 8 and radiation heater end face as different from Example 1, leak the material mouth of pipe 8 and be positioned at chamber, radiation heating portion.

Before using, adopt the ceramic fiber blanket of resistance to 1600 DEG C will be incubated from conduction heating portion and radiation heating portion outer layer covers.

First electrode slice 3 is accessed on the negative pole of the first direct supply 9, second electrode slice 6 is accessed on the positive pole of the first direct supply 9, second electrode slice 6 is connected on the positive pole of the second direct supply 10 simultaneously, third electrode sheet 7 is connect on the negative pole of the second direct supply 10.By the positive and negative electrode two ends of radiation heating portion access the 3rd direct supply 11.

Generally, leak glass metal when expecting shaping progressively to reduce in platinum leakage material pipe 1, temperature of glass liquid between second electrode slice 6 and third electrode sheet 7 is higher than the temperature of glass liquid between third electrode sheet 7 and the first electrode slice 3, temperature in radiation heater chamber controls according to the crystallization property adjustment of different trade mark glass, and in chamber, design temperature is generally higher than crystallization ceiling temperature about 10 DEG C.

The crystallization ceiling temperature of certain environment friendly heavy-lanthanide flint glass is 1250 DEG C, when this trade mark produced by traditional conductive exothermal material pipe, platinum material pipe temperature near discharge port need be set in more than 1280 DEG C just can make the mouth of pipe not crystallization, because glass metal viscosity is too small, there is the striped of 1mm to 2.5mm in glass surface.After adopting the anti-crystallization of the utility model to leak material pipe device, be 1260 DEG C at production radiation heater design temperature and can make material inside pipe wall and the mouth of pipe not crystallization, the product of 90% does not have striped, and the product striped 0.5mm of 10%, good article rate significantly improves.

The principle of work that the utility model leaks the anti-crystallization device of material pipe is as follows: it is because tube wall has topical hypothermia's point that leakage material inside pipe wall produces crystallization, common topical hypothermia's point is mainly positioned at electrode slice weld, its reason is platinum is hot good conductor, electrode slice major part itself is in atmosphere exposed, act as source of heat release.The second electrode slice 6 place temperature of glass liquid in the utility model is high, the electric current passed through is large, therefore can not crystallization, the circuit of third electrode sheet 7 have employed stacked system and connects, its electric current be the electric current on the second electrode slice 6 and the first electrode slice 3 add and, therefore temperature is high, anti-crystallization is effective, the flange 2 of the first electrode slice 3 is positioned at chamber, radiation heating portion with material pipe weld, and its temperature is high, crystallization difficulty.And the general leakage material mouth of pipe produces crystallization mainly because mouth of pipe place cannot adopt lagging material to wrap up, the low generation crystallization of temperature is caused soon with air heat exchange, the leakage material mouth of pipe is placed in radiation heating chamber by the utility model, effectively solve the defect that lagging material cannot be adopted to wrap up insulation, simultaneously because radiation heating portion temperature is initiatively adjustable, therefore prevent the successful of crystallization.

Leak with other and expect that compared with pipe device, said apparatus has following advantage: 1, accurately can control glass flow rate from conduction heating portion, production stability is strong, few with hourglass Liao Guan topical hypothermia region, tube wall is crystallization not easily, and therefore leak material pipe adjustable temperature range large, controllability and the adjustable extent of production are wide.2, radiation heating portion homogeneous temperature is adjustable, prevents the successful of crystallization, is applicable to the glass production of crystallization ceiling temperature more than 1250 DEG C.

Claims (8)

1. anti-crystallization leaks a material pipe device, comprises platinum and leaks material pipe (1), it is characterized in that: also comprise from conduction heating portion and radiation heating portion; Wherein, leak material pipe (1), electrode slice, flange and heating power supply from conduction heating portion by platinum and form, electrode slice is welded on corresponding flange, and flange separation is welded on the middle and upper part that platinum leaks material pipe (1), is all connected with direct supply between adjacent electrode sheet; Radiation heating portion is made up of high temperature resistant sleeve pipe (5) and heater strip (4), is sleeved on the middle and lower part that platinum leaks material pipe (1); The upper port of high temperature resistant sleeve pipe (5) leaks the welding position, flange lower end of material pipe (1) bottom higher than platinum, with leakage, lower port expects that the mouth of pipe (8) is concordant or expect the mouth of pipe (8) lower than leaking.

2. the anti-crystallization of one according to claim 1 leaks material pipe device, and it is characterized in that, the direct supply connected between described adjacent electrode sheet is connected in succession.

3. the anti-crystallization of one according to claim 1 and 2 leaks material pipe device, and it is characterized in that, described electrode slice has 2-5.

4. the anti-crystallization of one according to claim 3 leaks material pipe device, and it is characterized in that, described electrode slice is the first electrode slice (3), the second electrode slice (6) and third electrode sheet (7).

5. the anti-crystallization of one according to claim 1 and 2 leaks material pipe device, and it is characterized in that, described high temperature resistant sleeve pipe (5) two ends are provided with flange.

6. the anti-crystallization of one according to claim 5 leaks material pipe device, and it is characterized in that, described heater strip (4) is spirally wound on high temperature resistant sleeve pipe (5).

7. the anti-crystallization of one according to claim 6 leaks material pipe device, it is characterized in that, often organizes heater strip and be all not in contact with each other in described heater strip (4).

8. the anti-crystallization of one according to claim 1 and 2 leaks material pipe device, it is characterized in that, the high temperature resistant sleeve pipe that described high temperature resistant sleeve pipe (5) is zircon corundum material.