CN109320080A - A kind of production method of high-boron-silicon glass engraving stirring cup - Google Patents

Abstract

The invention discloses a kind of production method of high-boron-silicon glass engraving stirring cup, this method belongs to glassware production field；Produce the raw material that the product uses includes: quartz sand 51-53%, borax 14-16%, sodium nitrate 10%, feldspar 15%, potassium carbonate 8% by weight ratio；High-boron-silicon glass engraving stirring cup is produced as equipment using blender, plane smelting furnace, stirring cup mold, fire polishing machine, high-temperature annealing furnace, engraving machine, rinsing machine, the advantages of this method is: using common apparatus, easy to operate, production process is pollution-free waste discharge, product high-boron-silicon glass carves stirring cup attractive appearance, has low thermal expansion, high temperature resistant, high intensity, high rigidity and high chemical stability, meets environmental requirement locating for stirring cup.

Description

A kind of production method of high-boron-silicon glass engraving stirring cup

Technical field

The invention belongs to glassware production field more particularly to a kind of producers of high-boron-silicon glass engraving stirring cup Method.

Background technique

High-boron-silicon glass is to realize glass by heating in inside glass using glass conductive characteristic at high operating temperatures Glass fusing, a kind of glass being process through vanguard technology, it is a kind of low thermal expansion, high temperature resistant, high intensity, high hard The specific glass material of degree, high transparency and high chemical stability, has excellent performance, high-boron-silicon glass and universal glass phase ratio, Advantage is to have no toxic side effect, and the properties such as mechanical performance, thermal stability, water resistant, alkali resistant, antiacid greatly improve, especially high boron Silica glass has low-down thermal expansion coefficient, is approximately the one third of simple glass, this will be reduced because temperature gradient stress is made At expand with heat and contract with cold, be very suitable to the production multiple products such as stirring cup.Locating circumstance of temperature difference is larger when being used due to stirring cup, Sometimes temperature on the rocks is near 0 DEG C, and up to 100 DEG C, stirring cup made of high-boron-silicon glass is very suitable to herein heating temperature sometimes At a temperature of use, therefore, high-boron-silicon glass become manufacture the most suitable raw material of stirring cup.In order to make the shape of stirring cup more The outer surface of stirring cup, can be carried out stamp, decoration firing, frosting, frosted etc. by beauty, but there is a method in which, that is, engraving, The advantages of engraving, is increased without any color, and floral designs can be carved out on product, greatly increases product aesthetics.

Summary of the invention:

Present invention mainly solves the problem of be to provide the production method of high-boron-silicon glass engraving stirring cup a kind of, this method is to stir Machine, plane smelting furnace, stirring cup mold, fire polishing machine, high-temperature annealing furnace, engraving machine, rinsing machine are equipment, and producing the product makes Raw material includes: quartz sand 51-53%, borax 14-16%, sodium nitrate 10%, feldspar 15%, potassium carbonate 8% by weight ratio.

The technical solution adopted by the present invention is that:

(1) quartz sand of formula ratio, borax, sodium nitrate, feldspar, potassium carbonate are sent into blender, are sent into plane after blending uniformly Smelting furnace is heated, and when temperature reaches 1500-1520 DEG C, keeps this temperature 28-30 hours, mixture is made to go completely into high boron Silica glass molten mass.

(2) high-boron-silicon glass molten mass is sent into the molding of stirring cup mold, forming temperature is 1500 DEG C, allows temperature after molding Naturally it reduces, when being reduced to 1050 DEG C, fusant becomes solid, sloughs mold at this time, and preliminary molding product is sent into flame Polishing machine polishing enters empty immediately by being sent into high-temperature annealing furnace after polishing after the temperature of product is gradually down to 150 DEG C or less Gas is cooled to room temperature.

(3) product of room temperature is sent into grinding machine of universal and grinding processing is carried out to the outer surface of product, except deburring etc. is not advised Then then object is sent to engraving machine, computer control depiction, engraving on the outer surface of product finish as built in engraving machine Afterwards by product discharge.

Preferably, the plane smelting furnace is 20 square metres of combustion gas smelting furnaces.

Preferably, the engraving machine is laser engraving machine, built-in control computer.

The beneficial effects of the present invention are: providing a kind of production method of high-boron-silicon glass engraving stirring cup, this method makes With common apparatus, easy to operate, production process is pollution-free waste discharge；Product high-boron-silicon glass carves stirring cup good appearance It is generous, have low thermal expansion, high temperature resistant, high intensity, high rigidity and high chemical stability, meet environment locating for stirring cup and want It asks.

Specific embodiment

Embodiment 1:

It is 15% that quartz sand that total amount is 51%, which will be accounted for, borax that total amount is 16% is accounted for, account for sodium nitrate that total amount is 10%, account for total amount Feldspar accounts for the potassium carbonate feeding blender that total amount is 8%, is sent into plane smelting furnace after blending uniformly and is heated, when temperature reaches At 1500 DEG C, this temperature is kept 30 hours, mixture is made to go completely into high-boron-silicon glass molten mass；By high-boron-silicon glass molten mass It is sent into the molding of stirring cup mold, forming temperature is 1500 DEG C, and temperature is allowed to reduce after molding naturally, when being reduced to 1050 DEG C, is melted Melt object as solid, slough mold at this time, preliminary molding product is sent into fire polishing machine polishing, passes through feeding after polishing immediately High-temperature annealing furnace enters air cooling-down to room temperature after the temperature of product is gradually down to 150 DEG C or less；The product of room temperature is sent into Grinding machine of universal carries out grinding processing to the outer surface of product, except irregularities such as deburrings, engraving machine is then sent to, by carving Computer control depiction on the outer surface of product built in quarter machine, by product discharge after engraving.

Embodiment 2:

It is 15% that quartz sand that total amount is 52%, which will be accounted for, borax that total amount is 15% is accounted for, account for sodium nitrate that total amount is 10%, account for total amount Feldspar accounts for the potassium carbonate feeding blender that total amount is 8%, is sent into plane smelting furnace after blending uniformly and is heated, when temperature reaches At 1510 DEG C, this temperature is kept 29 hours, mixture is made to go completely into high-boron-silicon glass molten mass；By high-boron-silicon glass molten mass It is sent into the molding of stirring cup mold, forming temperature is 1500 DEG C, and temperature is allowed to reduce after molding naturally, when being reduced to 1050 DEG C, is melted Melt object as solid, slough mold at this time, preliminary molding product is sent into fire polishing machine polishing, passes through feeding after polishing immediately High-temperature annealing furnace enters air cooling-down to room temperature after the temperature of product is gradually down to 150 DEG C or less；The product of room temperature is sent into Grinding machine of universal carries out grinding processing to the outer surface of product, except irregularities such as deburrings, engraving machine is then sent to, by carving Computer control depiction on the outer surface of product built in quarter machine, by product discharge after engraving.

Embodiment 3:

It is 15% that quartz sand that total amount is 53%, which will be accounted for, borax that total amount is 14% is accounted for, account for sodium nitrate that total amount is 10%, account for total amount Feldspar accounts for the potassium carbonate feeding blender that total amount is 8%, is sent into plane smelting furnace after blending uniformly and is heated, when temperature reaches At 1520 DEG C, this temperature is kept 28 hours, mixture is made to go completely into high-boron-silicon glass molten mass；By high-boron-silicon glass molten mass It is sent into the molding of stirring cup mold, forming temperature is 1500 DEG C, and temperature is allowed to reduce after molding naturally, when being reduced to 1050 DEG C, is melted Melt object as solid, slough mold at this time, preliminary molding product is sent into fire polishing machine polishing, passes through feeding after polishing immediately High-temperature annealing furnace enters air cooling-down to room temperature after the temperature of product is gradually down to 150 DEG C or less；The product of room temperature is sent into Grinding machine of universal carries out grinding processing to the outer surface of product, except irregularities such as deburrings, engraving machine is then sent to, by carving Computer control depiction on the outer surface of product built in quarter machine, by product discharge after engraving.

Certainly, the present invention is there are also other embodiments, any skill done under without departing from spiritual background of the invention The improvement of art, principle and technique, is within the scope of the present invention.

Claims (3)

1. a kind of production method of high-boron-silicon glass engraving stirring cup, produce the raw material that the product uses includes: by weight ratio Quartz sand 51-53%, borax 14-16%, sodium nitrate 10%, feldspar 15%, potassium carbonate 8%；It is characterized by:

(1) quartz sand of formula ratio, borax, sodium nitrate, feldspar, potassium carbonate are sent into blender, are sent into plane after blending uniformly Smelting furnace is heated, and when temperature reaches 1500-1520 DEG C, keeps this temperature 28-30 hours, mixture is made to go completely into high boron Silica glass molten mass；

(2) high-boron-silicon glass molten mass is sent into the molding of stirring cup mold, forming temperature is 1500 DEG C, allows temperature natural after molding It reduces, when being reduced to 1050 DEG C, fusant becomes solid, sloughs mold at this time, and preliminary molding product is sent into flame polish Machine polishing enters air after the temperature of product is gradually down to 150 DEG C or less and drops immediately by being sent into high-temperature annealing furnace after polishing Temperature is to room temperature；

(3) product of room temperature is sent into grinding machine of universal and grinding processing is carried out to the outer surface of product, remove the irregularities such as deburring, Then it is sent to engraving machine, the computer as built in engraving machine controls the depiction on the outer surface of product, will after engraving Product discharge.

2. a kind of production method of high-boron-silicon glass engraving stirring cup as described in claim 1, it is characterised in that: described is flat Face smelting furnace is 20 square metres of combustion gas smelting furnaces.

3. a kind of production method of high-boron-silicon glass engraving stirring cup as described in claim 1, it is characterised in that: the carving Quarter machine is laser engraving machine, built-in control computer.