CN105997523A - Luminescent glass feeding bottle with high strength and preparation technology of luminescent glass feeding bottle - Google Patents

Abstract

The invention discloses a luminescent glass feeding bottle with high strength and a preparation technology of the luminescent glass feeding bottle. The luminescent glass feeding bottle comprises a feeding bottle body and a bottle cap, wherein the feeding bottle body and the bottle cap are connected through thread sealing; a nipple connector connected with the bottle cap through thread sealing is arranged at the upper end of the bottle cap; a nipple is connected onto the nipple connector through sealing; a thermochromic slot is vertically formed in the feeding bottle body; a plurality of thermochromic parts are arranged in the thermochromic slot vertically side by side; a plurality of fluorescent rings are arranged on the feeding bottle body. The feeding bottle is simple in structure and can sense temperature in the feeding bottle conveniently, rapidly and accurately, the food eating safety of a baby is improved, and besides, the feeding bottle prepared with the preparation technology has the advantages of high strength, high heat resistance, good wear resistance and high production efficiency.

Description

There is fluorescent glass feeding bottle and the preparation technology thereof of high-intensity performance

Technical field

The present invention relates to fluorescent glass feeding bottle and the preparation technology thereof with high-intensity performance.

Background technology

Fall although the feeding bottle of plastics glass liner is not afraid of, but life-time service plastics have certain toxin, and after using because plastic liner is difficult to clean easy breed bacteria, plastic material is also easy to stay cut when cleaning, and affects use aesthetic property.Therefore, existing many baby bottle use glass inner bag, and glass is nontoxic, easily clean and be not likely to produce antibacterial, but the shortcoming of glass refills to be component heavier, infant not easy to grip, and Glass breadks easily, the breach after crushing can hurt finger, cause certain danger.

In addition, the insufficient strength of existing glass feeding bottle is high, heat resistance is poor, and baby is when disposably drink the completeest, placing a period of time milk can cool off, particularly winter, feeding bottle directly can be put in the hot water and heat by general Papa and Mama, but this method is cumbersome, and slow, the uniformity of heating is the highest, mouthfeel is the best, affects the effect that baby uses.

Further, existing feeding bottle is in use, it usually needs experience the temperature of milk with hands or face, the too high milk of temperature dare not be drunk to baby, and this is kind of a test for unfamiliar Papa and Mama, and the assurance of temperature is forbidden by it, easily make mistakes, affect the eating effect of baby.

Summary of the invention

Problem for above-mentioned existence, it is desirable to provide have fluorescent glass feeding bottle and the preparation technology thereof of high-intensity performance, the feeding bottle structure of the present invention is simple, can fast and easy and temperature within perception feeding bottle accurately, the safety that baby eats improves, and the feeding bottle prepared by the preparation technology of the present invention has high intensity and heat resistance, anti-wear performance is good, and production efficiency is high.

To achieve these goals, the technical solution adopted in the present invention is as follows:

There is the fluorescent glass feeding bottle of high-intensity performance, including bottle body and bottle cap, described bottle body is connected with described bottle cap thread seal, the nipple connector being connected with its thread seal is set in described bottle cap upper end, it is tightly connected nipple on described nipple connector, described bottle body is the most vertically provided with heat discoloration groove, in described heat discoloration groove, is set up in parallel some heat discoloration parts up and down, described bottle body arranges some circle fluorescent rings.

Preferably, described nipple connector includes glass mould union joint and the glass mould transition suction pipe of center drilling, and both are one-body molded, and described glass mould transition suction pipe is extended to inside described bottle body by the center drilling position of described glass mould union joint.

Preferably, described glass mould union joint center drilling position is provided with annular snap groove, clamping drainage screen in described snap groove, and the opening of described snap groove is connected with described glass mould union joint center drilling.

Preferably, each described variable color temperature sensing part is all fixedly installed in described heat discoloration groove by connector.

There is the preparation technology of the fluorescent glass feeding bottle of high-intensity performance, comprise the following steps:

1) blank: the size required for being prepared according to feeding bottle by glass tubing cuts into into a section glass cylinder, and the glass cylinder of each excision forming also needs to carry out both ends of the surface process；

2) feeding bottle body molding: by glass cylinder high-temperature heating good for above-mentioned end face processing to soft state, temperature 800-850 DEG C, then use wall bottle-gourd shaped milk bottle body mould, glass cylinder is blow molded into required size and thickness；

3) heat discoloration Slot shaping: by formed glass bottle movement to the rolling clamp of bottle blowing machine, opening up, the bottom of rolling clamp connects cam, cam rotation during blowing heat discoloration groove, formed glass bottle body is driven to move up and down, natural gas injection the pipeline lower heat discoloration groove blowing out thickness 2-3mm, the Blowing time 4s on its lateral surface simultaneously arranged by its side；

4) molding at the bottom of bottleneck and bottle: then rolling clamp left rotation and right rotation, adjust the injection direction of natural gas injection pipeline, make it be horizontally disposed with, when rolling clamp left rotation and right rotation, blow out flat mouth in its formed glass bottle upper end, Blowing time 2-3s, use same method, be inverted molding vial, the other end is blow molded at the bottom of Guan Bi bottle, the thickness at the bottle end is 5-6mm, Blowing time 10s；

5) solidification: formed glass bottle is placed sequentially on curing apparatus and carries out cured；

6) feeding bottle bottleneck cutting: by above-mentioned rapid semi-finished product, use the redundance glass that mechanical abrasive cutting bottleneck squeezes out through blowing so that it is bottleneck is neat, makes nipple, bottle cap to screw and puts in place；

7) nipple manufacture of the connector: choose Na2O7%-9% according to mass fraction, B2O312%-14%, SiO278%-80%, the first molten system of high temperature, temperature is 800-850 DEG C, one-body molded glass mould union joint and glass mould transition suction pipe in the nipple connector mould of bottle blowing machine again, integrally formed with locking screw thread in glass mould union joint, in glass mould union joint center downwards integrally formed with taper and the described transitional glass suction pipe of hollow, the upper end of nipple connector mould is provided with inner groovy, in forming process, snap groove can be had in glass connector inside cavity upper end by the setting of inner groovy, finally anneal；

8) produce heat discoloration parts: the heat discoloration powder pigment of 8% and the PP major ingredient of 92% are carried out screening mixing, produce multiple circular heat discoloration parts by injection machine；

9) high-temperature integrated molding: the feeding bottle produced in step (5) is placed on mould, this mould vertically positions, by keeper, the circular heat discoloration parts that multiple step (7) is produced, high temperature melt heat discoloration groove, natural gas injection pipeline blowing 2s, between circular heat discoloration parts and heat discoloration groove, inject elastic soft silicone rubber simultaneously, and fill each keeper, in heat discoloration parts are embedded in heat discoloration groove and one-body molded with feeding bottle；

10) fluorescent ring is set: if by seccotine bonding dried layer fluorescent ring in bottle body, and covers layer protecting film on each fluorescent ring surface.

Preferably, described step (1) blank refers to be secured transverse on moveable chopping disk each glass cylinder cut into chunks, and body is fixed on chopping disk by dismountable fixture, all aligns in two ends, and controls cutter cutting by hydraulic mechanism.

Preferably, described chopping disk basal sliding is connected on slide rail, and described chopping disk controls it by stroke motor and moves on chopping disk, carries out unifying blank by glass cylinder both ends of the surface to facilitate, is disposed by the burr of both ends of the surface finally by hairbrush.

Preferably, in described step (5), curing apparatus includes solidifying frame, multiple layers of cured layer it is set up in parallel up and down on solidification frame, every layer of cured layer is provided with the blower fan of temperature-adjustable, specifically formed glass bottle is placed on cured layer, and solidification frame front and back end arranges screen, and during solidification, the method by lowering the temperature successively carries out cured to formed glass bottle, use natural wind to carry out cured, until dropping to room temperature when the temperature in curing room drops to 50-60 DEG C.

Preferably, described feeding bottle is high-boron-silicon glass feeding bottle.

Preferably, described step (7) heat discoloration powder, be a kind of with temperature rise, decline and repeatedly change the microcapsule raw material of color, as required heat discoloration value is set to any number of 40-45 degree.

The invention has the beneficial effects as follows: compared with prior art, it is an advantage of the present invention that

First, the present invention improves cutting efficiency and the effect of glass cylinder by the setting of chopping disk, shortens the whole feeding bottle production and processing cycle, and automaticity is higher；

Secondly, produce molding feeding bottle by bottle blowing machine and bottle blowing mould, and under the effect that moves up and down of rolling clamp, blow out heat discoloration groove, blow molding process automatic moulding heat discoloration groove in conjunction with natural gas injection pipeline high temperature, and the time is short, blowing shapeliness, efficiency is high；

Again, by integral forming process, heat discoloration parts are fixed on heat discoloration groove, with milk bottle body close contact, improve temperature-sensitive effect.

Accompanying drawing explanation

Fig. 1 is the structural representation of glass feeding bottle of the present invention.

Fig. 2 is nipple connector schematic diagram of the present invention.

Wherein: 1-bottle body, 2-bottle cap, 3-nipple connector, 31-glass mould union joint, 32-glass mould transition suction pipe, 33-snap groove, 4-heat discoloration groove, 5-heat discoloration parts, 6-drainage screen, 7-fluorescent ring.

Detailed description of the invention

In order to make those of ordinary skill in the art be better understood on technical scheme, with embodiment, technical scheme is further described below in conjunction with the accompanying drawings.

Embodiment:nullThe fluorescent glass feeding bottle with high-intensity performance shown in 1-2 referring to the drawings，Including bottle body 1 and bottle cap 2，Described bottle body 1 is connected with described bottle cap 2 thread seal，The nipple connector 3 being connected with its thread seal is set in described bottle cap 2 upper end，It is tightly connected nipple on described nipple connector 3，Described bottle body 1 is the most vertically provided with heat discoloration groove 4，Some heat discoloration parts 5 it are set up in parallel up and down in described heat discoloration groove 4，Vertically arranged temperature of each height internal to bottle body 1 can carry out timely temperature-sensitive measurement，Each described variable color temperature sensing part is all fixedly installed in described heat discoloration groove 4 by connector，Described connector is that silicone rubber is made，It is connected between heat discoloration parts 5 and bottle body 1，Some circle fluorescent rings 7 are set in described bottle body 1，Can be illuminated in the environment of night or dark.

In the present invention, described nipple connector 3 includes glass mould union joint 31 and the glass mould transition suction pipe 32 of center drilling, both are one-body molded, it is internal that described glass mould transition suction pipe 32 is extended to described bottle body 1 by the center drilling position of described glass mould union joint 31, described glass mould union joint 31 center drilling position is provided with annular snap groove 33, clamping drainage screen 6 in described snap groove 33, outside internal for the bottle body 1 larger particles milk powder not having dissolving to open can be blocked in by drainage screen 6, the opening of described snap groove 33 is connected with described glass mould union joint 31 center drilling.

There is the preparation technology of the fluorescent glass feeding bottle of high-intensity performance, comprise the following steps:

1) blank: the size required for being prepared according to feeding bottle by glass tubing cuts into into a section glass cylinder, and the glass cylinder of each excision forming also needs to carry out both ends of the surface process, and described glass tubing is high-boron-silicon glass feeding bottle；

Blank refers to be secured transverse on moveable chopping disk each glass cylinder cut into chunks, body is fixed on chopping disk by dismountable fixture, all align in two ends, and control cutter by hydraulic mechanism to cut, described chopping disk basal sliding is connected on slide rail, and described chopping disk controls it by stroke motor and moves on chopping disk, carry out unifying blank by glass cylinder both ends of the surface to facilitate, finally by hairbrush, the burr of both ends of the surface is disposed；Improve cutting efficiency and the effect of glass cylinder by the setting of chopping disk, shorten the whole feeding bottle production and processing cycle, and automaticity is higher, and the regularity of facet is higher；

2) feeding bottle body molding: by glass cylinder high-temperature heating good for above-mentioned end face processing to soft state, temperature 800-850 DEG C, then use wall bottle-gourd shaped milk bottle body mould, glass cylinder is blow molded into required size and thickness；

3) heat discoloration groove 4 molding: by formed glass bottle movement to the rolling clamp of bottle blowing machine, opening up, the bottom of rolling clamp connects cam, cam rotation during blowing heat discoloration groove 4, formed glass bottle body is driven to move up and down, natural gas injection the pipeline lower heat discoloration groove 4 blowing out thickness 2-3mm, the Blowing time 4s on its lateral surface simultaneously arranged by its side；

4) molding at the bottom of bottleneck and bottle: then rolling clamp left rotation and right rotation, adjust the injection direction of natural gas injection pipeline, make it be horizontally disposed with, when rolling clamp left rotation and right rotation, blow out flat mouth in its formed glass bottle upper end, Blowing time 2-3s, use same method, be inverted molding vial, the other end is blow molded at the bottom of Guan Bi bottle, the thickness at the bottle end is 5-6mm, Blowing time 10s；

5) solidification: formed glass bottle is placed sequentially on curing apparatus and carries out cured；

Curing apparatus includes solidifying frame, multiple layers of cured layer it is set up in parallel up and down on solidification frame, every layer of cured layer is provided with the blower fan of temperature-adjustable, specifically formed glass bottle is placed on cured layer, solidification frame front and back end arranges screen, during solidification, the method by lowering the temperature successively carries out cured to formed glass bottle, uses natural wind to carry out cured, until dropping to room temperature when the temperature in curing room drops to 50-60 DEG C；Use above-mentioned curing apparatus and solidification processing method can strengthen the solidification effect of formed glass bottle, improve intensity, hardness, resistance to compression, drop resistant, and the crystallization effect that have employed said method aftershaping vial is more preferable, crystals forming；

6) feeding bottle bottleneck cutting: by above-mentioned rapid semi-finished product, use the redundance glass that mechanical abrasive cutting bottleneck squeezes out through blowing so that it is bottleneck is neat, makes nipple, bottle cap 2 can screw and put in place；

7) nipple connector 3 makes: choose Na2O7%-9% according to mass fraction, B2O312%-14%, SiO278%-80%, the first molten system of high temperature, temperature is 800-850 DEG C, one-body molded glass mould union joint 31 and glass mould transition suction pipe 32 in nipple connector 3 mould of bottle blowing machine again, integrally formed with locking screw thread in glass mould union joint 31, in glass mould union joint 31 center downwards integrally formed with taper and the described transitional glass suction pipe of hollow, the upper end of nipple connector 3 mould is provided with inner groovy, in forming process, snap groove 33 can be had in glass connector inside cavity upper end by the setting of inner groovy, finally anneal；

8) heat discoloration parts 5 are produced: the heat discoloration powder pigment of 8% and the PP major ingredient of 92% are carried out screening mixing, multiple circular heat discoloration parts 5 are produced by injection machine, heat discoloration powder, be a kind of with temperature rise, decline and repeatedly change the microcapsule raw material of color, heat discoloration value is set to any number of 40-45 degree as required, and heat discoloration value is set to 42 degree or 43 degree；It is color that sensitive pigments becomes transparent color when temperature is higher than value of discoloration, slowly recovers original color when temperature is less than value of discoloration；

9) high-temperature integrated molding: the feeding bottle produced in step (5) is placed on mould, this mould vertically positions, by keeper, the circular heat discoloration parts 5 that multiple step (7) is produced, high temperature melt heat discoloration groove 4, natural gas injection pipeline blowing 2s, between circular heat discoloration parts 5 and heat discoloration groove 4, inject elastic soft silicone rubber simultaneously, and fill each keeper, heat discoloration parts 5 are embedded in heat discoloration groove 4 interior and one-body molded with feeding bottle；

10) fluorescent ring 7 is set: if by seccotine bonding dried layer fluorescent ring 7 in bottle body 1; and layer protecting film is covered on each fluorescent ring 7 surface; arrange layer protecting film can fluorescent ring 7 be protected, and avoid child to lick fluorescent ring 7, damage.

The ultimate principle of the present invention, principal character and advantages of the present invention have more than been shown and described.Skilled person will appreciate that of the industry; the present invention is not restricted to the described embodiments; the principle that the present invention is simply described described in above-described embodiment and description; without departing from the spirit and scope of the present invention; the present invention also has various changes and modifications, and these changes and improvements both fall within scope of the claimed invention.Claimed scope is defined by appending claims and equivalent thereof.

Claims (10)

1. there is the fluorescent glass feeding bottle of high-intensity performance, including bottle body and bottle cap, described bottle body is connected with described bottle cap thread seal, it is characterized in that: the nipple connector being connected with its thread seal is set in described bottle cap upper end, it is tightly connected nipple on described nipple connector, described bottle body is the most vertically provided with heat discoloration groove, in described heat discoloration groove, is set up in parallel some heat discoloration parts up and down, described bottle body arranges some circle fluorescent rings.

The fluorescent glass feeding bottle with high-intensity performance the most according to claim 1, it is characterized in that: described nipple connector includes glass mould union joint and the glass mould transition suction pipe of center drilling, both are one-body molded, and described glass mould transition suction pipe is extended to inside described bottle body by the center drilling position of described glass mould union joint.

The fluorescent glass feeding bottle with high-intensity performance the most according to claim 2, it is characterized in that: described glass mould union joint center drilling position is provided with annular snap groove, clamping drainage screen in described snap groove, the opening of described snap groove is connected with described glass mould union joint center drilling.

4. according to the fluorescent glass feeding bottle with high-intensity performance described in any one of claim 1-3, it is characterised in that: each described variable color temperature sensing part is all fixedly installed in described heat discoloration groove by connector.

5. there is the preparation technology of the fluorescent glass feeding bottle of high-intensity performance, it is characterised in that comprise the following steps:

1) blank: the size required for being prepared according to feeding bottle by glass tubing cuts into into a section glass cylinder, and the glass cylinder of each excision forming also needs to carry out both ends of the surface process；

2) feeding bottle body molding: by glass cylinder high-temperature heating good for above-mentioned end face processing to soft state, temperature 800-850 DEG C, then use wall bottle-gourd shaped milk bottle body mould, glass cylinder is blow molded into required size and thickness；

3) heat discoloration Slot shaping: by formed glass bottle movement to the rolling clamp of bottle blowing machine, opening up, the bottom of rolling clamp connects cam, cam rotation during blowing heat discoloration groove, formed glass bottle body is driven to move up and down, natural gas injection the pipeline lower heat discoloration groove blowing out thickness 2-3mm, the Blowing time 4s on its lateral surface simultaneously arranged by its side；

4) molding at the bottom of bottleneck and bottle: then rolling clamp left rotation and right rotation, adjust the injection direction of natural gas injection pipeline, make it be horizontally disposed with, when rolling clamp left rotation and right rotation, blow out flat mouth in its formed glass bottle upper end, Blowing time 2-3s, use same method, be inverted molding vial, the other end is blow molded at the bottom of Guan Bi bottle, the thickness at the bottle end is 5-6mm, Blowing time 10s；

5) solidification: formed glass bottle is placed sequentially on curing apparatus and carries out cured；

6) feeding bottle bottleneck cutting: by above-mentioned rapid semi-finished product, use the redundance glass that mechanical abrasive cutting bottleneck squeezes out through blowing so that it is bottleneck is neat, makes nipple, bottle cap to screw and puts in place；

7) nipple manufacture of the connector: choose Na according to mass fraction₂O7%-9%、B₂O₃12%-14%、SiO₂78%-80%, the first molten system of high temperature, temperature is 800-850 DEG C, one-body molded glass mould union joint and glass mould transition suction pipe in the nipple connector mould of bottle blowing machine again, integrally formed with locking screw thread in glass mould union joint, in glass mould union joint center downwards integrally formed with taper and the described transitional glass suction pipe of hollow, the upper end of nipple connector mould is provided with inner groovy, in forming process, snap groove can be had in glass connector inside cavity upper end by the setting of inner groovy, finally anneal；

8) produce heat discoloration parts: the heat discoloration powder pigment of 8% and the PP major ingredient of 92% are carried out screening mixing, produce multiple circular heat discoloration parts by injection machine；

9) high-temperature integrated molding: the feeding bottle produced in step (5) is placed on mould, this mould vertically positions, by keeper, the circular heat discoloration parts that multiple step (7) is produced, high temperature melt heat discoloration groove, natural gas injection pipeline blowing 2s, between circular heat discoloration parts and heat discoloration groove, inject elastic soft silicone rubber simultaneously, and fill each keeper, in heat discoloration parts are embedded in heat discoloration groove and one-body molded with feeding bottle；

10) fluorescent ring is set: if by seccotine bonding dried layer fluorescent ring in bottle body, and covers layer protecting film on each fluorescent ring surface.

The preparation technology of the fluorescent glass feeding bottle with high-intensity performance the most according to claim 5, it is characterized in that, described step (1) blank refers to be secured transverse on moveable chopping disk each glass cylinder cut into chunks, body is fixed on chopping disk by dismountable fixture, all aliging in two ends, and controls cutter cutting by hydraulic mechanism.

The preparation technology of the fluorescent glass feeding bottle with high-intensity performance the most according to claim 6, it is characterized in that, described chopping disk basal sliding is connected on slide rail, and described chopping disk controls it by stroke motor and moves on chopping disk, carry out unifying blank by glass cylinder both ends of the surface to facilitate, finally by hairbrush, the burr of both ends of the surface is disposed.

The preparation technology of the fluorescent glass feeding bottle with high-intensity performance the most according to claim 7, it is characterized in that, in described step (5), curing apparatus includes solidifying frame, multiple layers of cured layer it is set up in parallel up and down on solidification frame, every layer of cured layer is provided with the blower fan of temperature-adjustable, specifically formed glass bottle is placed on cured layer, solidification frame front and back end arranges screen, during solidification, the method by lowering the temperature successively carries out cured to formed glass bottle, use natural wind to carry out cured, until dropping to room temperature when the temperature in curing room drops to 50-60 DEG C.

9. according to the preparation technology of the fluorescent glass feeding bottle with high-intensity performance described in any one of claim 5-8, it is characterised in that described feeding bottle is high-boron-silicon glass feeding bottle.

The preparation technology of the fluorescent glass feeding bottle with high-intensity performance the most according to claim 9, it is characterized in that, described step (7) heat discoloration powder, be a kind of with temperature rise, decline and repeatedly change the microcapsule raw material of color, as required heat discoloration value is set to any number of 40-45 degree.