CN110078372A - A kind of glassware and manufacturing process with dust reduction capability - Google Patents

Abstract

The invention discloses a kind of glassware and manufacturing process with dust reduction capability, including glass ontology, glass ontology bottom end offers the first groove that quantity is two, glass film plates is equipped with below glass ontology bottom end, the second groove is offered on the glass film plates, the corresponding glass vertical bar of the first groove that it is two with quantity that the second groove groove top end, which is fixed with, it fills out in the first groove that quantity is two equipped with non-slip mat, the glass vertical bar is located in the first groove that corresponding quantity is two, rubber suction cups is arranged on the glass film plates bottom end.The utility model has the advantages that when the intrinsic water of glass is too warm; glass ontology is placed in the second groove on glass film plates; preventing glass ontology, there is a situation where slide on the table; to protect glass ontology; serum cap, which is equipped with heat release hole, can also radiate to the intrinsic water of glass, and drinking person is facilitated to drink water.

Description

A kind of glassware and manufacturing process with dust reduction capability

Technical field

The present invention relates to glassware manufacturing field, it particularly relates to a kind of glassware with dust reduction capability and Manufacturing process.

Background technique

The method for manufacturing organic glass in the prior art is numerous, but its is transparent for the organic glass of traditional method preparation The performances such as property, elasticity, wearability are all lower, and the glass transition temperature of general PMMA is about 105 DEG C, and heat distortion temperature is only 95 DEG C, It actually uses temperature and is lower than 80 DEG C, and its function will fail in use for some time, especially prior art preparation Organic glass is more coarse, not fine enough, and heat resistance is poor, is easy to produce thermal deformation, heat resistance is poor will serious shadow The service life of organic glass is rung, so heat resistance modified imperative to organic glass progress.

Existing glass majority with handles does not have glass cover, therefore remaining water in glass, stays in cup for a long time, Indoor and extraneous dust is easy to float into cup, to pollute to the water in cup, makes the water in cup can not be normal to people Drink, and most people will not take notice of these details, and reference water in the cup can cause certain harm to the body of people.

For the problems in the relevant technologies, currently no effective solution has been proposed.

Summary of the invention

The purpose of the present invention is to provide a kind of glassware and manufacturing process with dust reduction capability, to solve above-mentioned back The problem of being proposed in scape technology.

To achieve the above object, the invention provides the following technical scheme:

A kind of glassware and manufacturing process with dust reduction capability, including glass ontology, glass ontology bottom end are opened The first groove for being two equipped with quantity, glass ontology bottom end lower section are equipped with glass film plates, open on the glass film plates Equipped with the second groove, the second groove groove top end is fixed with, and glass corresponding with the first groove that quantity is two is perpendicular Bar, for quantity to fill out in two the first grooves equipped with non-slip mat, it is two that the glass vertical bar, which is located at corresponding quantity, In the first a groove, rubber suction cups is arranged on the glass film plates bottom end, the fixation of glass film plates top two sides is set There is glass round bar, glass round bar top is fixed with glass transverse slat, and the glass transverse slat is centered to be offered Internal screw thread, activity is inserted with the glass thread bar to match in the internal screw thread, and glass thread bar bottom end is fixed with glass Glass dust excluding plate is arranged with serum cap, the serum cap bottom end and glass ontology top on glass dust excluding plate bottom end Be in contact, it is two heat release holes that count off amount is offered on the serum cap, the heat release hole other end that quantity is two respectively with It is connected outside the serum cap.

Further, phase is inserted in the one end being connected outside the heat release hole and the serum cap that quantity is two The plugging block matched.

Further, the glass ontology is equipped with glass handle, the glass that quantity is four on the glass handle Convex block, often spacing distance is two centimetres to four centimetres between adjacent glass convex block.

Further, the second groove groove two sides are fixed with glass fixture block, and the glass fixture block other side is equal It is in contact with the glass ontology.

Further, the glass film plates, the glass vertical bar, the glass round bar, the glass transverse slat, the glass Threaded rod, the glass dust excluding plate, the glass handle, the glass convex block and the glass fixture block are by above-mentioned glassware And manufacturing process is made.

According to another aspect of the present invention, provide a kind of glassware manufacturing process, raw material by following weight parts system At:

350-380 parts of quartz sand, 5-10 parts of aluminium hydroxide, 120-130 parts of calcite, 90-115 parts of soda ash, lime stone 200-250 Part, 180-220 parts of feldspar, 8-12 parts of potassium carbonate, 8-11 parts of borax, 3-6 parts of potassium nitrate, 1-1.3 parts of antimony oxide, di(2-ethylhexyl)phosphate 02-0.3 parts of hydrogen aluminium and 25-50 parts of methacrylic acid barium, 40-60 parts of montmorillonite, 8-15 parts of azo-bis-isobutyl cyanide are for use；

The glassware manufacturing method, comprising the following steps:

Raw material is prepared: precise quartz sand, aluminium hydroxide, calcite, soda ash, lime stone, feldspar, potassium carbonate, borax, nitric acid Potassium, antimony oxide, aluminium dihydrogen phosphate, are added in heating kettle, 30-40min are stirred, by methacrylic acid barium, montmorillonite, idol Two isobutyl cyanogen of nitrogen, which is uniformly mixed, to be divided at 8-12 parts；

The above material is placed after stirring 30-40min in heating kettle, methacrylic acid barium, montmorillonite, azo-bis-isobutyl cyanide are mixed It closes the composition uniformly divided and portion is added into reaction kettle every 8-15min, until methacrylic acid barium, montmorillonite and azo two Isobutyl cyanogen adds；

Above-mentioned mixed material is dry, then above-mentioned mixed material handle except iron；

Glass batch carries out being heated at a temperature of 1500-1700 °C of high temperature in tank furnace or tank furnace, is allowed to be formed uniform Bubble-free, and meet the liquid glass of forming requirements；

Processing and forming: clarification, cooling 4-6 hours take the dish out of the pot until temperature is 1100-1250 °C；

Annealing: being made annealing treatment with the annealing cooling rate of 3-5 °C/min, when temperature is down to 750-830 °C, keeps constant temperature 10-20 minutes, then cooled down with the annealing cooling rate of 5-8 °C/min, when temperature is down in 380-520 °C, at this time by liquid Glass is put into the glassware that mold is made into required shape.

Compared with prior art, the invention has the following advantages:

When not having to glass ontology usually, the first groove of glass ontology bottom end is inserted on glass vertical bar, thus by glass Cup ontology is placed in the second groove on glass film plates, and glass film plates is to play the role of support, rubber to glass ontology Glue sucker can be very good that glass film plates is fixed, and glass thread bar is in the case where the internal screw thread on glass transverse slat is rotated Drop, so that the serum cap for driving glass dust excluding plate to connect is declined, serum cap bottom end is in contact with glass ontology top, from And dust-proof effect is played to the intrinsic water of glass, when the intrinsic water of glass is too warm, glass ontology is placed on In the second groove on glass film plates, prevent glass ontology on the table there is a situation where sliding, to protect glass Ontology, serum cap, which is equipped with heat release hole, can also radiate to the intrinsic water of glass, and drinking person is facilitated to drink water.

Detailed description of the invention

It in order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, below will be to institute in embodiment Attached drawing to be used is needed to be briefly described, it should be apparent that, the accompanying drawings in the following description is only some implementations of the invention Example, for those of ordinary skill in the art, without creative efforts, can also obtain according to these attached drawings Obtain other attached drawings.

Fig. 1 is a kind of main view of glassware and manufacturing process with dust reduction capability according to an embodiment of the present invention；

Fig. 2 is a kind of flow chart of glassware and manufacturing process with dust reduction capability according to an embodiment of the present invention.

Appended drawing reference:

1, glass ontology；2, the first groove；3, glass film plates；4, the second groove；5, glass vertical bar；6, non-slip mat；7, rubber Sucker；8, glass round bar；9, glass transverse slat；10, internal screw thread；11, glass thread bar；12, glass dust excluding plate；13, serum cap； 14, heat release hole；15, plugging block；16, glass handle；17, glass convex block；18, glass fixture block.

Specific embodiment

In the following, making further description to invention in conjunction with attached drawing and specific embodiment:

Embodiment one:

Referring to Fig. 1, a kind of glassware and manufacturing process with dust reduction capability according to an embodiment of the present invention, including glass Cup ontology 1,1 bottom end of glass ontology offer quantity for two the first grooves 2, under 1 bottom end of glass ontology Side is equipped with glass film plates 3, offers the second groove 4 on the glass film plates 3, the 4 groove top end of the second groove be fixed with Quantity is two corresponding glass vertical bars 5 of the first groove 2, is filled out in the first groove 2 that quantity is two equipped with non-slip mat 6, the glass vertical bar 5 is located in the first groove 2 that corresponding quantity is two, is covered on 3 bottom end of glass film plates Equipped with rubber suction cups 7, the 3 top two sides of glass film plates are fixed with glass round bar 8, and 8 top of glass round bar is fixed Equipped with glass transverse slat 9, the glass transverse slat 9 is centered to offer internal screw thread 10, and activity is inserted in the internal screw thread 10 Equipped with the glass thread bar 11 to match, 11 bottom end of glass thread bar is fixed with glass dust excluding plate 12, and the glass is anti- Serum cap 13 is arranged on 12 bottom end of dirt plate, 13 bottom end of serum cap is in contact with 1 top of glass ontology, the rubber It is two heat release holes 14 that count off amount is offered on glue lid 13,14 other end of heat release hole that quantity is two respectively with the rubber It is connected outside lid 13.

Above scheme through the invention, the utility model has the advantages that when not having to glass ontology 1 usually, by 1 bottom end of glass ontology The first groove 2 insertion glass vertical bar 5 on, to glass ontology 1 is placed in the second groove 4 on glass film plates 3, glass To play the role of support to glass ontology 1, rubber suction cups 7 can be very good to consolidate glass film plates 3 glass bottom plate 3 Fixed, internal screw thread 10 of the glass thread bar 11 on glass transverse slat 9 carries out rotation decline, so that glass dust excluding plate 12 be driven to connect Serum cap 13 is declined, and 13 bottom end of serum cap is in contact with 1 top of glass ontology, thus to the water in glass ontology 1 Dust-proof effect is played, when the water in glass ontology 1 is too warm, glass ontology 1 is placed on glass film plates 3 second recessed In slot 4, prevent glass ontology 1 on the table there is a situation where sliding, so that glass ontology 1 is protected, on serum cap 13 It can also radiate to the water in glass ontology 1 equipped with heat release hole 14, drinking person is facilitated to drink water.

Embodiment two:

Referring to Fig. 1, being connected outside the heat release hole 14 and the serum cap 13 that quantity is two for heat release hole 14 The plugging block 15 to match is inserted in one end.

Above scheme through the invention, the utility model has the advantages that plugging block 15 is blocked when not needing to radiate to water in the cup Heat release hole 14.

Embodiment three:

Referring to Fig. 1, the glass ontology 1 is equipped with glass handle 16, the glass handle for glass ontology 1 The glass convex block 17 that quantity is four on hand 16, often spacing distance is two centimetres to four centimetres between adjacent glass convex block 17.

Above scheme through the invention, the utility model has the advantages that spacing distance is two centimetres to four centimetres between glass convex block 17, Equal with finger gap, people conveniently pick up glass ontology 1 by glass convex block 17.

Example IV:

Referring to Fig. 1, second groove, the 4 groove two sides are fixed with glass fixture block 18, institute for the second groove 4 18 other side of glass fixture block is stated to be in contact with the glass ontology 1.

Above scheme through the invention, the utility model has the advantages that glass fixture block 18 plays the role of clamping to glass ontology 1, Prevent glass ontology 1 from shaking in the second groove 4.

According to an embodiment of the invention, additionally providing a kind of glassware and manufacturing process.

As shown in Fig. 2, glassware manufacturing method according to an embodiment of the present invention, comprising the following steps:

350-380 parts of quartz sand, 5-10 parts of aluminium hydroxide, 120-130 parts of calcite, 90-115 parts of soda ash, lime stone 200-250 Part, 180-220 parts of feldspar, 8-12 parts of potassium carbonate, 8-11 parts of borax, 3-6 parts of potassium nitrate, 1-1.3 parts of antimony oxide, di(2-ethylhexyl)phosphate 02-0.3 parts of hydrogen aluminium and 25-50 parts of methacrylic acid barium, 40-60 parts of montmorillonite, 8-15 parts of azo-bis-isobutyl cyanide are for use；

The glassware manufacturing method, comprising the following steps:

Raw material is prepared: precise quartz sand, aluminium hydroxide, calcite, soda ash, lime stone, feldspar, potassium carbonate, borax, nitric acid Potassium, antimony oxide, aluminium dihydrogen phosphate, are added in heating kettle, 30-40min are stirred, by methacrylic acid barium, montmorillonite, idol Two isobutyl cyanogen of nitrogen, which is uniformly mixed, to be divided at 8-12 parts；

The above material is placed after stirring 30-40min in heating kettle, methacrylic acid barium, montmorillonite, azo-bis-isobutyl cyanide are mixed It closes the composition uniformly divided and portion is added into reaction kettle every 8-15min, until methacrylic acid barium, montmorillonite and azo two Isobutyl cyanogen adds；

Above-mentioned mixed material is dry, then above-mentioned mixed material handle except iron；

Glass batch carries out being heated at a temperature of 1500-1700 °C of high temperature in tank furnace or tank furnace, is allowed to be formed uniform Bubble-free, and meet the liquid glass of forming requirements；

Processing and forming: clarification, cooling 4-6 hours take the dish out of the pot until temperature is 1100-1250 °C；

Annealing: being made annealing treatment with the annealing cooling rate of 3-5 °C/min, when temperature is down to 750-830 °C, keeps constant temperature 10-20 minutes, then cooled down with the annealing cooling rate of 5-8 °C/min, when temperature is down in 380-520 °C, at this time by liquid Glass is put into the glassware that mold is made into required shape.

In conclusion by means of above-mentioned technical proposal of the invention, working principle and all the utility model has the advantages that not having to glass usually When glass cup ontology 1, the first groove 2 of 1 bottom end of glass ontology is inserted on glass vertical bar 5, so that glass ontology 1 be placed In the second groove 4 on glass film plates 3, glass film plates 3 is to play the role of support, rubber suction cups 7 to glass ontology 1 It can be very good that glass film plates 3 is fixed, glass thread bar 11 is in the case where the internal screw thread 10 on glass transverse slat 9 is rotated Drop, so that the serum cap 13 for driving glass dust excluding plate 12 to connect is declined, 13 bottom end of serum cap and 1 top phase of glass ontology Contact, so that dust-proof effect is played to the water in glass ontology 1, when the water in glass ontology 1 is too warm, glass sheet Body 1 is placed in the second groove 4 on glass film plates 3, prevents glass ontology 1 on the table there is a situation where sliding, thus Glass ontology 1 is protected, serum cap 13, which is equipped with heat release hole 14, can also radiate to the water in glass ontology 1, side Just drinking person is drunk water, and when not needing to radiate to water in the cup, plugging block 15 blocks heat release hole 14, between glass convex block 17 between Gauge is from being two centimetres to four centimetres, and equal with finger gap, people conveniently pick up glass ontology by glass convex block 17 1, glass fixture block 18 plays the role of clamping to glass ontology 1, prevents glass ontology 1 from shaking in the second groove 4.

It although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with A variety of variations, modification, replacement can be carried out to these embodiments without departing from the principles and spirit of the present invention by understanding And modification, the scope of the present invention is defined by the appended.

Claims (6)

1. a kind of glassware and manufacturing process with dust reduction capability, which is characterized in that described including glass ontology (1) Glass ontology (1) bottom end offers the first groove (2) that quantity is two, is equipped with below glass ontology (1) bottom end Glass film plates (3) offers the second groove (4) on the glass film plates (3), and the second groove (4) groove top end is fixed with Glass vertical bar (5) corresponding with the first groove (2) that quantity is two, interior fill out of the first groove (2) that quantity is two set Have non-slip mat (6), the glass vertical bar (5) is located in the first groove (2) that corresponding quantity is two, the glass It being arranged with rubber suction cups (7) on bottom plate (3) bottom end, glass film plates (3) the top two sides are fixed with glass round bar (8), Glass round bar (8) top is fixed with glass transverse slat (9), the glass transverse slat (9) is centered offer in Screw thread (10), activity is inserted with the glass thread bar (11) to match, the glass thread bar (11) in the internal screw thread (10) Bottom end is fixed with glass dust excluding plate (12), is arranged with serum cap (13), the rubber on glass dust excluding plate (12) bottom end Lid (13) bottom end is in contact with glass ontology (1) top, and it is two that count off amount is offered on the serum cap (13) Heat release hole (14), heat release hole (14) other end that quantity is two are connected with the serum cap (13) outside respectively.

2. a kind of glassware and manufacturing process with dust reduction capability according to claim 1, which is characterized in that quantity To be inserted with the plugging block to match in two heat release holes (14) and the serum cap (13) external one end being connected (15).

3. a kind of glassware and manufacturing process with dust reduction capability according to claim 1, which is characterized in that described Glass ontology (1) is equipped with glass handle (16), the glass convex block (17) that quantity is four on the glass handle (16), often Spacing distance is two centimetres to four centimetres between adjacent glass convex block (17).

4. a kind of glassware and manufacturing process with dust reduction capability according to claim 1, which is characterized in that described Second groove (4) groove two sides are fixed with glass fixture block (18), glass fixture block (18) other side with the glass Cup ontology (1) is in contact.

5. according to claim 1, claim 3 and a kind of glassware and manufacturing process with dust reduction capability of claim 4, It is characterized in that, the glass film plates (3), the glass vertical bar (5), the glass round bar (8), the glass transverse slat (9), institute State glass thread bar (11), the glass dust excluding plate (12), the glass handle (16), the glass convex block (17) and the glass Glass fixture block (18) is made of following glasswares and manufacturing process.

6. a kind of glassware and manufacturing process with dust reduction capability, which is characterized in that be used for glass described in claim 1 Vessel manufacturing process, raw material are made of following weight parts:

350-380 parts of quartz sand, 5-10 parts of aluminium hydroxide, 120-130 parts of calcite, 90-115 parts of soda ash, lime stone 200-250 Part, 180-220 parts of feldspar, 8-12 parts of potassium carbonate, 8-11 parts of borax, 3-6 parts of potassium nitrate, 1-1.3 parts of antimony oxide, di(2-ethylhexyl)phosphate 02-0.3 parts of hydrogen aluminium and 25-50 parts of methacrylic acid barium, 40-60 parts of montmorillonite, 8-15 parts of azo-bis-isobutyl cyanide are for use；

The glassware manufacturing method, comprising the following steps:

Raw material is prepared: precise quartz sand, aluminium hydroxide, calcite, soda ash, lime stone, feldspar, potassium carbonate, borax, nitric acid Potassium, antimony oxide, aluminium dihydrogen phosphate, are added in heating kettle, 30-40min are stirred, by methacrylic acid barium, montmorillonite, idol Two isobutyl cyanogen of nitrogen, which is uniformly mixed, to be divided at 8-12 parts；

The above material is placed after stirring 30-40min in heating kettle, methacrylic acid barium, montmorillonite, azo-bis-isobutyl cyanide are mixed It closes the composition uniformly divided and portion is added into reaction kettle every 8-15min, until methacrylic acid barium, montmorillonite and azo two Isobutyl cyanogen adds；

Above-mentioned mixed material is dry, then above-mentioned mixed material handle except iron；

Glass batch carries out being heated at a temperature of 1500-1700 °C of high temperature in tank furnace or tank furnace, is allowed to be formed uniform Bubble-free, and meet the liquid glass of forming requirements；

Processing and forming: clarification, cooling 4-6 hours take the dish out of the pot until temperature is 1100-1250 °C；

Annealing: being made annealing treatment with the annealing cooling rate of 3-5 °C/min, when temperature is down to 750-830 °C, keeps constant temperature 10-20 minutes, then cooled down with the annealing cooling rate of 5-8 °C/min, when temperature is down in 380-520 °C, at this time by liquid Glass is put into the glassware that mold is made into required shape.