CN203960029U

CN203960029U - Constant temperature basalt continuous fiber electric smelter

Info

Publication number: CN203960029U
Application number: CN201420381744.8U
Authority: CN
Inventors: 钱立兵; 李宁; 王森
Original assignee: Anhui Meng Gu Filamentary Material Science And Technology Ltd
Current assignee: Anhui Meng Gu Filamentary Material Science And Technology Ltd
Priority date: 2014-07-10
Filing date: 2014-07-10
Publication date: 2014-11-26
Anticipated expiration: 2024-07-10

Abstract

The utility model belongs to novel inorganic non-metallic material making equipment technical field, particularly a kind of constant temperature basalt continuous fiber electric smelter.The utility model comprises body of heater, and the bell matching with body of heater, on the antetheca of described body of heater, offers opening for feed, and the sidewall being connected with described body of heater antetheca is provided with heater block; Described body of heater inside has additional two ends and the middle-grade wall that is connected respectively inside two side, this middle-grade wall becomes He Chengliao pond, material pond two portions by body of heater internal separation, on described middle-grade wall, offer the center liquid taking port that material Chi Yuchengliaochi is communicated, become material pond away from opening for feed, and the bottom in described one-tenth material pond offer the dog-hole of wire-drawing shape.Constant temperature basalt continuous fiber electric smelter has rational in infrastructure, dissolves fully inclusion-free, bubble-free advantage, makes that material progressively dissolves in kiln, homogenizing, fully clarification, thereby has obtained pure Basalt melt, the Quality and yield that effectively improves product, has reduced energy consumption simultaneously.

Description

Constant temperature basalt continuous fiber electric smelter

Technical field

The utility model belongs to novel inorganic non-metallic material making equipment technical field, particularly a kind of constant temperature basalt continuous fiber electric smelter.

Background technology

Basalt continuous fiber is one of fiber that a kind of over-all properties is very excellent, has the features such as intensity is high, acid and alkali-resistance, high temperature performance is good, fire resistance is superior, can be widely used in military project and civilian every field.

At present all there is unreasonable structure in the kiln of basalt continuous fiber production and application, therefore can have following defect in process of production: heating material district thermograde is large, cause dissolving insufficient, the problem such as impurity bubble is many, energy consumption increase; Even have a strong impact on output and the quality of product, also increased the production cost of product simultaneously.

Utility model content

The utility model proposes a kind of constant temperature Black Warrior continuous fibre electric smelter, for solving the deficiencies in the prior art, its object is to provide a kind of constant temperature Black Warrior continuous fibre electric smelter of high liquid level (HLL), this electric smelter has rational in infrastructure, dissolve fully inclusion-free, bubble-free advantage.

For achieving the above object, the utility model has adopted following technical scheme:

A constant temperature basalt continuous fiber electric smelter, comprises body of heater, and the bell matching with body of heater, on the antetheca of described body of heater, offers opening for feed, and the sidewall being connected with described body of heater antetheca is provided with heater block; Described body of heater inside has additional the middle-grade wall that two ends are connected respectively with inner side, two side, this middle-grade wall becomes He Chengliao pond, material pond two portions by body of heater internal separation, on described middle-grade wall, offer and make the material Chi Yuchengliaochi center liquid taking port that communicates, described one-tenth material pond is away from opening for feed, and the bottom in described one-tenth material pond offers the dog-hole of wire-drawing shape.

The utility model can also further be realized by following steps.

Described heater block comprises the stannic oxide electrode being separately positioned on two side, He Chengliao pond, two side, material pond.

Preferably, the stannic oxide electrode being arranged on two side, material pond is provided with multipair in pairs, the a pair of stannic oxide electrode being fitted to each other is separately positioned on the two side in material pond, and the length direction that this multipair stannic oxide electrode is material pond along the material trend in material pond is arranged successively.

Preferably, be arranged on into stannic oxide electrode on two side, material pond and be set to a pair ofly, this pair of stannic oxide electrode is separately positioned on on the two side in material pond.

Further preferred, described stannic oxide electrode is can pusher electrode.

Preferably, described heater block also comprises Si-Mo rod, and a side at the unlimited place of close upper of furnace body of two side, described material pond is evenly equipped with a plurality of corresponding jacks that pass for Si-Mo rod along the length direction of sidewall; The side that the close upper of furnace body of two side, described one-tenth material pond is opened wide place arranges a pair of jack passing for Si-Mo rod; Described Si-Mo rod is arranged on the upside of stannic oxide electrode.

Further, the cross section of described bell is circular arc, and the top of described bell alongst offers a plurality of vision slits of being convenient to observe heating state in stove successively.

Further, inside, He Chengliao pond, the described material pond groove that is all square, described body of heater antetheca, middle-grade wall and rear wall all open wide place higher than body of heater, and are all circular arc higher than the part that body of heater opens wide place.

Further, the bottom in described material pond is lower than the bottom in described one-tenth material pond.

Further, thermal insulation layer has been built in described body of heater outside, and this thermal insulation layer outside is installed with metal shell.

The beneficial effects of the utility model are:

1) this electric smelter inside is respectively equipped with He Chengliao pond, material pond two portions.Described material Chi Hechengliaochi is coordinated and is heated by Si-Mo rod and stannic oxide electrode respectively.In material pond, form evenly rational temperature field up and down, front and back, for the fusing of basalt building stones provides a kind of reliable and stable environment.Basalt building stones in material pond multipair top-bottom cross for long path in the environment of the boosting of electrically heated stannic oxide electrode and Si-Mo rod homogenizing, clarification, row's bubble fully; After leaching small bubble, the center liquid taking port of middle barricade flows into into material pond again; After a pair of stannic oxide electrode and Si-Mo rod are further adjusted to rational wire-drawing temperature to solution temperature in one-tenth material pond, flow into wire-drawing shape dog-hole.

2) in material pond, be provided with the stannic oxide electrode of multipair top-bottom cross power supply, make that material progressively dissolves in kiln, homogenizing, fully clarification, obtained pure Basalt melt.Effectively improve the Quality and yield of product simultaneously.Stannic oxide electrode can constantly advance according to Expenditure Levels, makes kiln also have corresponding raising work-ing life.Due to the reasonable Arrangement of electrode in kiln, correspondingly reduced energy consumption.

3) in the utility model, become the raising of material pond liquid level, increased static pressure, improved the stability of wire drawing and the output of wire drawing, and then improved production efficiency and quality product, reduced workman's labour intensity and production cost.The reasonableness of this electric smelter and practicality more can meet the suitability for industrialized production of basalt continuous fiber.

Accompanying drawing explanation

Fig. 1 is furnace binding schematic diagram of the present utility model;

Fig. 2 is furnace cover structure schematic diagram of the present utility model;

Fig. 3 is the novel partial schematic diagram of this use.

In figure, the implication of label symbol is as follows:

10-antetheca, 11-feed port, 20-sidewall, 21-jack

22-stannic oxide electrode 30-middle-grade wall, 31-center liquid outlet

40-rear wall, 50-material pond 60-one-tenth material pond, 61-dog-hole

70-bell, 71-vision slit

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is only the utility model part embodiment, rather than whole embodiment.Embodiment based in the utility model, those of ordinary skills are not making the every other embodiment obtaining under creative work prerequisite, all belong to the scope of the utility model protection.

As shown in Figure 1, a kind of constant temperature basalt continuous fiber electric smelter, comprises body of heater, and the bell 70 matching with body of heater, on the antetheca 10 of described body of heater, offers opening for feed 11, and the sidewall 20 being connected with described body of heater antetheca 10 is provided with heater block; Described body of heater inside has additional the middle-grade wall 30 that two ends are connected respectively with inner side, two side, this middle-grade wall 30 becomes body of heater internal separation material pond 50 and becomes material pond 60 two portions, on described middle-grade wall 30, offer and make material pond 50 and become the material pond 60 center liquid taking port 31 that communicates, described one-tenth material pond 60 is away from opening for feed, and the bottom in described one-tenth material pond 60 offers the dog-hole 61 of wire-drawing shape.

As shown in Figure 3, described heater block comprises mutual correspondence and is separately positioned on six pairs of stannic oxide electrodes 22 on 50 two sides, material pond, and these six pairs of stannic oxide electrodes 22 sequentially arrange along the length direction of material pond sidewall 20, for crossfeed, heat; Heater block also comprises a pair of stannic oxide electrode 22 being separately positioned on on 60 two sides, material pond.

Further, described stannic oxide electrode 22 is can pusher electrode, and described stannic oxide electrode can constantly advance according to Expenditure Levels, the work-ing life of therefore having improved kiln.

Described heater block also comprises Si-Mo rod, the side that place is opened wide near upper of furnace body in the two side 20 in described material pond 50 on average arranges a plurality of jacks 21 that pass for Si-Mo rod along the length direction of sidewall respectively, and the side that place is opened wide near upper of furnace body in the two side in described one-tenth material pond 60 arranges respectively a jack 21 passing for Si-Mo rod.

The setting position of Si-Mo rod is higher than the position of stannic oxide electrode 22, and Si-Mo rod plays the effect of auxiliary radiation heating.

As shown in Figure 2, the cross section of described bell 70 is circular arc, and the top of described bell 70 alongst offers a plurality of vision slits 71 of being convenient to observe heating state in stove successively.

Described material pond 50 with become material 60 inside, the pond groove that is all square, described body of heater antetheca 10, middle-grade wall 30 and rear wall 40 all open wide place higher than body of heater, and are all circular arc higher than the part that body of heater opens wide place.

The bottom in described material pond 50 is lower than the bottom in described one-tenth material pond 60, thereby can make contamination precipitation in the bottom in material pond 50, guarantees to enter into clarity and the cleanliness factor of the material in material pond 60.

Thermal insulation layer has been built in described body of heater outside, and this thermal insulation layer outside is installed with metal shell, and this layer structure does not provide in the drawings.

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

At electric smelter skin, build thermal insulation layer, thermal insulation layer is installed with metal shell away from a side of body of heater.The material pond 50 that the sidewall of body of heater, antetheca and middle-grade wall surround jointly, the antetheca 10 in described material pond 50 is provided with opening for feed 11.In described material pond 50, have 3 sections of heating, be respectively the stannic oxide electrode 22 of 6 pairs of top-bottom cross power supplies that are arranged on material pond sidewall 20, the top of material pond 50 sidewalls is provided with Si-Mo rod jack 21.Described material pond 50 with become the material adjacent setting in pond 10, described material pond 50 and become between material pond 60 to have middle barricade 30.Material pond 50 and to become between material pond 60 be that center liquid taking port 31 by having on middle barricade 30 is connected.Become the sidewall in material pond 60 to be provided with a pair of stannic oxide electrode 22 for being incubated, become to expect that the bottom in pond 60 has the dog-hole 61 of shaping.Material pond 50 with become material 60 tops, pond to be covered with separable arch bell 70, on arch bell, have a plurality of thermometric spy holes 71.

Claims

1. a constant temperature basalt continuous fiber electric smelter, it is characterized in that: comprise body of heater, and the bell matching with body of heater (70), on the antetheca of described body of heater (10), offer opening for feed (11), the sidewall (20) being connected with described body of heater antetheca (10) is provided with heater block; Described body of heater inside has additional the middle-grade wall (30) that two ends are connected respectively with inner side, two side, this middle-grade wall (30) becomes material pond (50) by body of heater internal separation and becomes material pond (60) two portions, offers and make material pond (50) and become to expect pond (60) the center liquid taking port (31) that communicates on described middle-grade wall (30); Described one-tenth material pond (60) is away from opening for feed (11), and the bottom in described one-tenth material pond (60) offers the dog-hole (61) of wire-drawing shape.

2. constant temperature basalt continuous fiber electric smelter as claimed in claim 1, is characterized in that: described heater block comprises the stannic oxide electrode (22) being separately positioned on two side, He Chengliao pond, two side, material pond (50) (60).

3. constant temperature basalt continuous fiber electric smelter as claimed in claim 2, it is characterized in that: the stannic oxide electrode (22) being arranged on two side, material pond (50) is provided with multipair in pairs, the a pair of stannic oxide electrode (22) being fitted to each other is separately positioned on the two side of material pond (50), and the length direction that this multipair stannic oxide electrode (22) is material pond along the material trend in material pond (50) is arranged successively.

4. constant temperature basalt continuous fiber electric smelter as claimed in claim 2, it is characterized in that: be arranged on into stannic oxide electrode (22) on two side, material pond (60) and be set to a pair ofly, this pair of stannic oxide electrode (22) is separately positioned on on the two side of material pond (60).

5. the constant temperature basalt continuous fiber electric smelter as described in claim 2 or 3 or 4, is characterized in that: described stannic oxide electrode (22) is can pusher electrode.

6. the constant temperature basalt continuous fiber electric smelter as described in claim 2 or 3 or 4, it is characterized in that: described heater block also comprises Si-Mo rod, a side at the unlimited place of close upper of furnace body of two side, described material pond (20) is evenly equipped with a plurality of corresponding jacks (21) that pass for Si-Mo rod along the length direction of sidewall; The side that the close upper of furnace body of two side, described one-tenth material pond (60) is opened wide place arranges a pair of jack (21) passing for Si-Mo rod; Described Si-Mo rod is arranged on the upside of stannic oxide electrode.

7. constant temperature basalt continuous fiber electric smelter as claimed in claim 1, it is characterized in that: the cross section of described bell (70) is circular arc, the top of described bell (70) alongst offers a plurality of vision slits (71) of being convenient to observe heating state in stove successively.

8. constant temperature basalt continuous fiber electric smelter as claimed in claim 6, it is characterized in that: described material pond (50) with become material inside, pond (60) groove that is all square, described body of heater antetheca (10), middle-grade wall (30) and rear wall (40) all open wide place higher than body of heater, and are all circular arc higher than the part at the unlimited place of body of heater.

9. constant temperature basalt continuous fiber electric smelter as claimed in claim 7, is characterized in that: the bottom in described material pond (50) is lower than the bottom in described one-tenth material pond (60).

10. constant temperature basalt continuous fiber electric smelter as claimed in claim 9, is characterized in that: thermal insulation layer has been built in described body of heater outside, and this thermal insulation layer outside is installed with metal shell.