CN107879599B

CN107879599B - Glass bottle blowing equipment

Info

Publication number: CN107879599B
Application number: CN201710937315.2A
Authority: CN
Inventors: 邓浩
Original assignee: Chongqing Zhaofeng Glassware Co ltd
Current assignee: Chongqing Zhaofeng Glassware Co ltd
Priority date: 2017-09-30
Filing date: 2017-09-30
Publication date: 2020-04-21
Anticipated expiration: 2037-09-30
Also published as: CN107879599A

Abstract

The invention relates to the technical field of glass, pottery or other ceramics, in particular to glass bottle blowing equipment which comprises a blowing pipe, wherein the upper end of the blowing pipe is a blowing end, and the lower end of the blowing pipe is a gathering end; the outer cylinder and the flattening part are also included; the blow molding pipe is positioned in the outer cylinder, and an end plate is arranged at the upper port of the outer cylinder; the upper end of the blow molding pipe extends out of the end plate, and the blow molding pipe is rotatably connected with the end plate; the inner wall of the outer barrel is rotatably connected with an inner gear ring, the inner wall of the outer barrel is also fixedly provided with a support rod, the support rod is provided with a sleeve, and the blow molding pipe penetrates through the sleeve and the inner gear ring; a connecting rod is arranged on the sleeve, and a driven gear meshed with the inner gear ring is rotatably connected to the connecting rod; the blowing pipe is also provided with a main gear meshed with the gear; the flattening part is positioned on the inner gear ring; the blowing end is detachably connected with a blowing pipe used for blowing air into the blowing pipe. The blowing pipe of the scheme can perform whole agglomeration on the softened glass in the process of picking the softened glass out of the furnace, and the time for forming glass material agglomerates by the softened glass is shortened.

Description

Glass bottle blowing equipment

Technical Field

The invention relates to the technical field of glass bottle blowing, in particular to glass bottle blowing equipment.

Background

The glass bottle production process mainly comprises the steps of ① raw material preprocessing, namely crushing block raw materials (quartz sand, soda ash, limestone, feldspar and the like), drying wet raw materials, carrying out iron removal treatment on iron-containing raw materials to ensure the glass quality, ② batch preparation, ③ melting, heating the glass batch at high temperature (1550-1600 ℃) in a tank furnace or a tank furnace to form uniform and bubble-free softened glass which meets the forming requirement, ④ forming, namely making the softened glass into a glass bottle with the required shape, ⑤ heat treatment, namely, eliminating stress, phase separation or crystallization in the glass and changing the structure of the glass through annealing, quenching and other processes.

The forming of the glass bottle generally adopts the artificial blow molding, the blow molding technology is to utilize the characteristic that the glass has plasticity in a certain temperature range, a blow molding pipe (generally an iron pipe) is used for picking out the softened glass from a furnace, the softened glass is rolled into a glass material mass in a material rolling plate or a material rolling bowl, one person blows at one end to blow the glass liquid picked on the blow molding pipe into a bubble shape, and at the moment, the glass can be molded through tools such as scissors, a mold and the like; then dipping the glass liquid again, continuously blowing the glass liquid to be large, and then entering a mold for blow molding. The method is very troublesome, and particularly, when the glass bottles are manufactured in large batch, the manufacturing time is prolonged, and the labor cost is increased.

The utility model with the patent application number of 201320037987.5 discloses a positive blowing mechanism of a glass bottle forming machine, wherein a positive blowing head is positioned right above a neck mold bottom fork, a positive blowing cylinder is arranged on a first bracket through a positive blowing cylinder mounting plate, the first bracket is sleeved on a central upright post, the neck mold bottom fork is arranged on a second bracket, and the second bracket is sleeved on the central upright post; the lower part of the first bracket is provided with a first bracket lifting ring, the first bracket is supported by the first bracket lifting ring, the lower part of the second bracket is provided with a second bracket lifting ring, the second bracket is supported by the second bracket lifting ring, the outer diameter of the central upright post adopts whole-process threads, and the first bracket lifting ring, the second bracket lifting ring and the central upright post are in threaded fit. The device has the characteristics of simple structure, convenient adjustment of the up-down stroke, low cost, high production efficiency and the like.

The above patent also has the following technical problems: 1. after the softened glass is picked on the blow-molding pipe, the softened glass must be regulated so that the blow-molding pipe is positioned at the center of the whole lump of softened glass, otherwise, the thickness around the blown glass bubbles is not uniform; in the prior art, softened glass is rolled in a material rolling plate or a material rolling bowl after being picked out from a furnace, so that the whole glass is agglomerated and forms glass material agglomerates, which is very troublesome; 2. because the softened glass is shaped by the heat of the softened glass when bubbling is carried out, if the softened glass spends too long time on forming glass gobs, the shaping of the softened glass at the later stage can be influenced.

Disclosure of Invention

The invention aims to provide a glass bottle blowing device, wherein a blowing pipe can perform lump formation on softened glass in the process of picking the softened glass out of a furnace, so that the time for forming glass material lumps from the softened glass is shortened.

In order to achieve the above purpose, the basic scheme of the invention is as follows:

the glass bottle blowing equipment comprises a blowing pipe, wherein the upper end of the blowing pipe is a blowing end, and the lower end of the blowing pipe is a gathering end; the glass smoothing device also comprises an outer cylinder and a smoothing part for smoothing softened glass on the gathering end; the blow molding pipe is positioned in the outer cylinder, and an end plate is arranged at the upper port of the outer cylinder; the upper end of the blow molding pipe extends out of the end plate, and the blow molding pipe is rotatably connected with the end plate; the inner wall of the outer barrel is rotatably connected with an inner gear ring, the inner wall of the outer barrel is also fixedly provided with a support rod, the support rod is provided with a sleeve, and the blow molding pipe penetrates through the sleeve and the inner gear ring; a connecting rod is arranged on the sleeve, and a driven gear meshed with the inner gear ring is rotatably connected to the connecting rod; the blowing pipe is also provided with a main gear meshed with the driven gear; the flattening part is positioned on the inner gear ring; the blowing end is detachably connected with a blowing pipe used for blowing air into the blowing pipe.

When the technical scheme is adopted, the gathering end of the blowing pipe extends into the furnace for heating, then the gathering end is horizontally placed on the surface of the softened glass, meanwhile, the upper end of the blowing pipe is held by hands and rotates, further, the whole blowing pipe continuously rotates, the softened glass is continuously adhered to the outer surface of the gathering end, the thickness of the softened glass on the outer surface of the gathering end is gradually increased, then the softened glass can be contacted with the smoothing part, and the smoothing part can continuously smooth the surface of the softened glass; after the amount of the softened glass on the gathering end is reached, taking the blow molding pipe out of the furnace; and while taking out, the blow molding pipe is still continuously rotated until a glass material mass is finally formed; the glass gob is then air blown.

During blowing, there are two methods:

the first method is that the direct nozzle blows air towards the blowing end, then the bubble shape of the glass material mass is observed, after a period of blowing, the blowing pipe is stopped, the upper end of the blowing pipe is held and rotated, and the smoothing part smoothes the glass material mass again; meanwhile, the plastic can be molded through tools such as scissors and a die; and finally, entering a mold for blow molding.

In a second method, an insufflation tube, which may be a tube in direct communication with an air pump, is connected to the insufflation end for insufflation. While blowing, holding the upper end of the blowing pipe by hand and slowly rotating, so as to blow the glass gob and smooth the surface of the glass gob; here, the speed of rotation and the number of rotations can be determined by the user according to the current situation.

The beneficial effect that this scheme produced is:

1. the in-process that the blowing pipe was being followed soft glass and is singled out in the stove, because the blowing pipe is rotating always, smooths soft glass in addition, makes the gathering end of blowing pipe at the in-process of gathering the material, can carry out whole group to soft glass, will soften glass and take out the back from the stove, need not roll extrusion in material rolling plate or material rolling bowl, has shortened the time that soft glass formed the glass material group.

2. This scheme is when blowing to glass material group, smooths the portion and can also smooths glass material group, and is very convenient.

The first preferred scheme is as follows: as a further optimization of the basic scheme, the smoothing part comprises a straight rod and an arc-shaped sheet protruding towards the direction far away from the blowing pipe, and the upper end of the straight rod is fixedly connected with the bottom surface of the inner gear ring; the bottom of the straight rod is provided with a positioning hole, the upper end of the arc piece is provided with a fixing hole corresponding to the positioning hole, the arc piece is further provided with a screw penetrating through the fixing hole and the positioning hole, and the screw is provided with a nut.

The structure is very simple, and the smoothing of the surfaces of the softened glass and the glass material mass is realized; when the installation is carried out, the fixing hole at the upper end of the arc-shaped piece is aligned with the positioning hole at the bottom of the straight rod, then the screw penetrates through the two holes, and then the nut is screwed into the screw, so that the installation of the arc-shaped piece can be realized. The structure can facilitate the replacement of the proper arc-shaped sheet by the worker at any time according to the needs.

The preferred scheme II is as follows: as a further optimization of the basic scheme, the blow molding pipe comprises a hollow rotary table, a material picking pipe communicated with the rotary table and an air inlet pipe communicated with the rotary table; the pipe orifice of the air inlet pipe is a blowing end; the gathering pipe penetrates through the outer barrel, the lower end of the gathering pipe is a gathering end, the upper end of the gathering pipe is connected with the bottom surface of the rotary table, and the air inlet pipe is connected to the top surface of the rotary table; the air inlet pipe is detachably connected with the air blowing pipe. The structure is further convenient for workers to rotate the blow-molded pipe; when the air inlet pipe is used, the air inlet pipe is held by hands and then rotated.

The preferable scheme is three: as a further optimization of the second preferred embodiment, the air inlet pipe is eccentrically arranged on the turntable. Further facilitating the rotation of the blow molded tube by the operator.

The preferable scheme is four: as a further optimization of the third preferred scheme, the air inlet pipe is provided with an adjusting valve. Mainly for the convenience of controlling the blowing amount of the air inlet pipe.

The preferable scheme is five: as a further optimization of the first preferred scheme, the straight rod comprises an upper rod and a lower rod, a sliding cavity is arranged inside the upper rod, the upper end of the lower rod extends into the sliding cavity, and a spring is arranged between the lower rod and the cavity wall of the sliding cavity; the positioning hole is positioned at the lower end of the lower rod; the side wall of the lower rod is provided with a pushing part, the upper rod is also provided with a strip-shaped opening for the sliding of the pushing part, and the pushing part extends out of the strip-shaped opening; the upper rod is also provided with a plurality of fixing rings for fixing the pushing part.

The structure is mainly used for facilitating the up-and-down movement of the arc-shaped sheet; because the arc of each segment of the arced sheet is different, moving the arced sheet up and down can be used to smooth out the softened glass or glass gob in various places of the arced sheet. When the arc piece pushing device is used specifically, the pushing portion is pushed towards the upper side by a hand, so that the arc piece moves upwards, after the arc piece moves to the corresponding position, the pushing portion stops being pushed, and the pushing portion is fixed by the fixing ring. When the arc-shaped piece needs to be moved downwards, the principle is the same.

Drawings

FIG. 1 is a schematic view showing the internal structure of a glass bottle blowing apparatus according to the present invention;

FIG. 2 is a cross-sectional view of the glass bottle blowing apparatus of the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2;

fig. 4 is a schematic view showing the construction of the upper and lower rods and the fixing ring of fig. 1.

Detailed Description

The present invention will be described in further detail below by way of specific embodiments:

reference numerals in the drawings of the specification include: the blow molding pipe 1, the main gear 11, the turntable 12, the gathering pipe 13, the air inlet pipe 14, the adjusting valve 141, the pressing plate 1411, the rubber sleeve 1412, the blocking piece 1413, the outer cylinder 2, the end plate 21, the annular gear 22, the support rod 23, the sleeve 231, the connecting rod 2311, the slave gear 2312, the flattening portion 3, the straight rod 31, the upper rod 311, the sliding cavity 3111, the strip-shaped opening 3112, the fixing ring 3113, the lower rod 312, the spring 313, the pushing portion 314, and the arc-shaped piece 32.

Example 1

As shown in fig. 1 and 2, the glass bottle blowing apparatus includes a blowing pipe 1, an upper end of the blowing pipe 1 is a blowing end, and a lower end of the blowing pipe 1 is a gathering end; the glass flattening device also comprises an outer cylinder 2 and a flattening part 3 for flattening softened glass on the gathering end; the blow molding pipe 1 is positioned in the outer cylinder 2, and an end plate 21 is arranged at the upper port of the outer cylinder 2; the upper end of the blow-molded pipe 1 extends out of the end plate 21, and the blow-molded pipe 1 is rotatably connected with the end plate 21; the inner wall of the outer barrel 2 is rotatably connected with an inner gear ring 22, and when the outer barrel 2 is arranged, an annular groove is formed in the inner wall of the outer barrel 2, and the inner gear ring 22 is located in the annular groove.

A support rod 23 is fixedly arranged on the inner wall of the outer barrel 2, a sleeve 231 is arranged on the support rod 23, and the sleeve 231 is positioned above the inner gear ring 22; the blow-molded pipe 1 passes through the sleeve 231 and the ring gear 22; a connecting rod 2311 is fixedly connected to the sleeve 231, and a driven gear 2312 meshed with the inner gear ring 22 is rotatably connected to the connecting rod 2311; the blowing pipe 1 is also provided with a main gear 11 meshed with the driven gear 2312; the flattening part 3 is positioned on the inner gear ring 22; the blowing end is detachably connected with a blowing pipe used for blowing air into the blowing pipe 1.

The flattening part 3 comprises a straight rod 31 and an arc-shaped sheet 32 protruding in the direction away from the blowing pipe 1, and the upper end of the straight rod 31 is fixedly connected with the bottom surface of the inner gear ring 22; the bottom of the straight rod 31 is provided with a positioning hole, the upper end of the arc sheet 32 is provided with a fixing hole corresponding to the positioning hole, the arc sheet 32 is further provided with a screw for penetrating through the fixing hole and the positioning hole, and the screw is provided with a nut.

The blow molding pipe 1 comprises a hollow rotary table 12, a material gathering pipe 13 communicated with the rotary table 12 and an air inlet pipe 14 communicated with the rotary table 12; the pipe orifice of the air inlet pipe 14 is a blowing end; the gathering pipe 13 penetrates through the outer cylinder 2, the lower end of the gathering pipe 13 is a gathering end, the upper end of the gathering pipe 13 is connected with the bottom surface of the rotary table 12, and the air inlet pipe 14 is connected with the top surface of the rotary table 12; the air inlet pipe 14 is detachably connected with the air blowing pipe. The above structure further facilitates the rotation of the blow molded pipe 1 by the worker; when the air inlet pipe 14 is used, the air inlet pipe is held by hands and then rotated. The air inlet pipe 14 is eccentrically arranged on the rotary disc 12; and the intake pipe 14 is provided with an adjusting valve 141.

As shown in fig. 3, the regulating valve 141 includes a pressing plate 1411, a rubber sleeve 1412, and a circular blocking piece 1413; an adjusting opening is formed in the air inlet pipe 14, one end of a partition sheet 1413 is fixedly connected with the pressing disc 1411, and the other end of the partition sheet 1413 extends into the adjusting opening; the pressing plate 1411 seals one end of the rubber sleeve 1412; the rubber sleeve 1412 covers the adjusting opening, and the other end of the rubber sleeve 1412 is fixedly connected with the air inlet pipe 14; a pressing spring (in the scheme, a common spring) is arranged between the pressing disc 1411 and the air inlet pipe 14; when the air inlet pipe is used specifically, the pressing disc 1411 is pressed, the pressing disc 1411 pushes the partition sheet 1413, the partition sheet 1413 adjusts the flow of air entering the air inlet pipe 14, and therefore workers can control and adjust the air blowing amount freely; when adjustment is not required, the pressing plate 1411 is released and the spring 313 restores the pressing plate 1411.

As shown in fig. 4, the straight rod 31 includes an upper rod 311 and a lower rod 312, a sliding cavity 3111 is disposed inside the upper rod 311, an upper end of the lower rod 312 extends into the sliding cavity 3111, and a spring 313 is disposed between the lower rod 312 and a cavity wall of the sliding cavity 3111; the positioning hole is located at the lower end of the lower rod 312; a pushing part 314 is arranged on the side wall of the lower rod 312, a strip-shaped opening 3112 for the sliding of the pushing part 314 is also arranged on the upper rod 311, and the pushing part 314 extends out of the strip-shaped opening 3112; the upper lever 311 is further provided with a plurality of fixing rings 3113 for fixing the push portion 314.

Example 2

The difference between this embodiment and embodiment 1 is that a mold sleeve can be sleeved on the arc-shaped piece 32 as required, the mold sleeve is a steel sleeve, and a protrusion for engraving on the surface of the softened glass is arranged on one side of the steel sleeve close to the blow-molding pipe 1. For example, the surface of the glass bottle to be molded is provided with a circle of grooves, which can be realized by the arc-shaped sheet 32 in the scheme; primarily with the arcuate tabs 32, the protrusions can form grooves in the softened glass surface during rotation.

When the blowing pipe is used, the gathering end of the blowing pipe 1 extends into a furnace for heating, then the gathering end is horizontally placed on the surface of softened glass, meanwhile, the upper end of the blowing pipe 1 is held by hands and rotates, further, the whole blowing pipe 1 continuously rotates, the main gear 11 on the blowing pipe 1 rotates, the main gear 11 drives the driven gear 2312 to rotate, the driven gear 2312 drives the inner gear ring 22 meshed with the driven gear ring to rotate, and when the inner gear ring 22 rotates, the smoothing part 3 on the inner gear ring 22 is driven to rotate around the blowing pipe 1. In the process, the softened glass is continuously adhered to the outer surface of the gathering end, the thickness of the softened glass on the outer surface of the gathering end is gradually increased, and then the softened glass is contacted with the flattening part 3, and the flattening part 3 can continuously flatten the surface of the softened glass; after the amount of the softened glass on the gathering end is reached, taking the blow molding pipe 1 out of the furnace; and while taking out, the blow molding pipe 1 is still continuously rotated until a glass material mass is finally formed; the glass gob is then air blown.

When the arc-shaped piece 32 is specifically installed, the fixing hole at the upper end of the arc-shaped piece 32 is aligned with the positioning hole, then the screw penetrates through the two holes, and then the nut is screwed into the screw, so that the arc-shaped piece 32 can be installed.

In addition, because the arc of each segment of the arcuate blade 32 is different, moving the arcuate blade 32 up and down can be used in various places on the arcuate blade 32 to smooth out the softened glass or glass gob. When the device is used, the pushing part 314 is pushed upwards by hand, so that the arc piece 32 moves upwards, and after the arc piece 32 moves to a corresponding position, the pushing part 314 stops being pushed, and the pushing part 314 is fixed by the fixing ring 3113. When the arc-shaped piece 32 needs to be moved downward, the principle is the same.

During blowing, there are two methods:

the first method is that the direct nozzle blows air towards the blowing end, then the bubble shape of the glass material mass is observed, after a period of blowing, the blowing pipe 1 is stopped, the upper end of the blowing pipe 1 is held and rotated, and the flattening part 3 flattens the glass material mass again; meanwhile, the plastic can be molded through tools such as scissors and a die; and finally, entering a mold for blow molding.

In a second method, an insufflation tube, which may be a tube in direct communication with an air pump, is connected to the insufflation end for insufflation. While blowing, holding the upper end of the blowing pipe 1 by a hand and slowly rotating, so as to blow the glass gob and smooth the surface of the glass gob; here, the speed of rotation and the number of rotations can be determined by the user according to the current situation.

The above are merely examples of the present invention, and common general knowledge of known specific structures and characteristics in the schemes is not described herein. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims

1. The glass bottle blowing equipment comprises a blowing pipe, wherein the upper end of the blowing pipe is a blowing end, and the lower end of the blowing pipe is a gathering end; the glass smoothing device is characterized by also comprising an outer cylinder and a smoothing part for smoothing softened glass on the gathering end; the blowing pipe is positioned in the outer barrel, and an end plate is arranged at the upper port of the outer barrel; the upper end of the blow molding pipe extends out of the end plate, and the blow molding pipe is rotatably connected with the end plate; the inner wall of the outer barrel is rotatably connected with an inner gear ring, a support rod is fixedly arranged on the inner wall of the outer barrel, a sleeve is arranged on the support rod, and the blow molding pipe penetrates through the sleeve and the inner gear ring; a connecting rod is arranged on the sleeve, and a driven gear meshed with the inner gear ring is rotatably connected to the connecting rod; the blowing pipe is also provided with a main gear meshed with the driven gear; the flattening part is positioned on the inner gear ring; the blowing end is detachably connected with a blowing pipe used for blowing air into the blowing pipe.

2. A glass bottle blowing apparatus as in claim 1, wherein the smoothing portion comprises a straight bar and an arc-shaped piece protruding in a direction away from the blowing pipe, an upper end of the straight bar being fixedly connected to a bottom surface of the inner ring gear; the bottom of the straight rod is provided with a positioning hole, the upper end of the arc piece is provided with a fixing hole corresponding to the positioning hole, the arc piece is further provided with a screw penetrating through the fixing hole and the positioning hole, and the screw is provided with a nut.

3. The glass bottle blowing apparatus of claim 1, wherein the blowing tube comprises a hollow turntable, a gathering tube in communication with the turntable, and an intake tube in communication with the turntable; the pipe orifice of the air inlet pipe is the air blowing end; the gathering pipe penetrates through the outer cylinder, the lower end of the gathering pipe is a gathering end, the upper end of the gathering pipe is connected with the bottom surface of the rotary table, and the air inlet pipe is connected to the top surface of the rotary table; the air inlet pipe is detachably connected with the air blowing pipe.

4. A glass bottle blowing apparatus as in claim 3, wherein the air inlet duct is eccentrically disposed on the turntable.

5. A glass bottle blowing apparatus as in claim 4, wherein the air inlet duct is provided with a regulating valve.

6. A glass bottle blowing apparatus as in claim 2, wherein the straight bar comprises an upper bar and a lower bar, a sliding cavity is provided inside the upper bar, the lower bar extends into the sliding cavity, and a spring is provided between the lower bar and a wall of the sliding cavity; the positioning hole is positioned at the lower end of the lower rod; a pushing part is arranged on the side wall of the lower rod, a strip-shaped opening used for the sliding of the pushing part is also arranged on the upper rod, and the pushing part extends out of the strip-shaped opening; the upper rod is also provided with a plurality of fixing rings for fixing the pushing part.