CN220056635U

CN220056635U - Glass bottle forming die

Info

Publication number: CN220056635U
Application number: CN202321518884.0U
Authority: CN
Inventors: 夏雄峰; 沈海亮
Original assignee: Elegant Glass Suzhou Co ltd
Current assignee: Elegant Glass Suzhou Co ltd
Priority date: 2023-06-15
Filing date: 2023-06-15
Publication date: 2023-11-21
Anticipated expiration: 2033-06-15

Abstract

The utility model discloses a glass bottle forming die, which relates to the technical field of forming dies and comprises a die shell, a fastening assembly, an incubator, a constant temperature assembly and a forming assembly; an assembly groove is formed in the die shell, and an insulation box is arranged in the assembly groove; the fastening component is arranged on the outer periphery side of the die shell; the constant temperature component is arranged on the inner wall of the die shell; the forming assembly comprises a capacity expansion groove, a first exhaust cavity, a forming cavity, a bearing surface, an exhaust runner and a second exhaust cavity, wherein the forming cavity is formed in the middle of the heat insulation box, two exhaust runners are formed in the left side and the right side of the middle bottom end of the heat insulation box, the second exhaust cavity is formed in the left side and the right side of the middle section of the heat insulation box, the second exhaust cavity extends to the upper side of the heat insulation box, the structure is simpler, the performance is stable, the problem that temperature unevenness occurs at a joint line of the shoulder of the glass bottle can be solved through the constant temperature assembly, and the smoothness of the glass bottle is improved.

Description

Glass bottle forming die

Technical Field

The utility model relates to the technical field of forming molds, in particular to a glass bottle forming mold.

Background

The mould is an important device in the production of glass bottles, and the quality and the yield of the glass bottles are closely related to the quality of the mould; in the production process of the glass bottle, the primary molding of the high-temperature glass material is firstly carried out by utilizing a primary mold, then the primary molding is transferred into a molding mold for final blowing cooling molding, and the blowing molding step is mainly used for enabling the outer surface of the glass bottle to be more attached to the inner cavity of the mold and enabling the bottle-shaped appearance to be smoother.

The utility model provides a glass bottle forming die, including fixed bottom plate, fixed bottom plate both ends are fixed and are equipped with the fixed plate, it is equipped with the movable plate to slide between the fixed plate, be connected through the cylinder telescopic link between movable plate and the fixed plate, the movable plate opposite face is equipped with the module, the die cavity has been seted up between the module, fixed being equipped with cooling fan in the middle of the fixed bottom plate, the heat dissipation wind channel has been seted up on the movable plate, cooling pipeline has evenly been seted up to heat dissipation wind channel one side, cooling pipeline both sides are connected with the feed liquor pipe.

The glass bottle is blown and enlarged in the die cavity, so that the glass bottle is molded, meanwhile, the heat at the bottom of the cooling fan is discharged from the cooling air duct, and then cooling liquid is injected into the cooling pipeline, so that the internal structure of the die is easy to be complicated, the cost is increased, the die is possibly overweight, and the die is easy to damage.

Disclosure of Invention

The utility model aims to overcome the existing defects, and provides the glass bottle forming die which is simpler in structure and more stable in performance, and the problem of uneven temperature at the seam line of the shoulder part of a glass bottle can be solved through the constant temperature assembly, so that the smoothness of the glass bottle is improved, and the problems in the background art can be effectively solved.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a glass bottle forming die comprising: the device comprises a die shell, a fastening assembly, an insulation box, a constant temperature assembly and a forming assembly;

a die housing: an assembly groove is formed in the inner part of the assembly groove, and an insulation box is arranged in the assembly groove;

a fastening assembly: is arranged on the outer periphery side of the die shell;

and (3) a constant temperature assembly: the die is arranged on the inner wall of the die shell;

forming assembly: the glass bottle forming device comprises a capacity expansion groove, a first exhaust cavity, a forming cavity, a bearing surface, an exhaust runner and a second exhaust cavity, wherein the forming cavity is formed in the middle of the heat insulation box, two exhaust runners are formed in the left side and the right side of the middle bottom end of the heat insulation box, the second exhaust cavity is formed in the left side and the right side of the middle section of the heat insulation box, the second exhaust cavity extends to the upper side of the heat insulation box, the bearing surface is arranged at the upper end of the forming cavity, the transverse capacity expansion groove is formed in the middle of the forming cavity, the first exhaust cavity is formed in the bottom end of the forming cavity, the first exhaust cavity is conical, molten iron overflows during glass bottle forming when the capacity expansion groove is too much in feeding, temperature is reduced, the performance of the glass bottle is insufficient, the forming cavity is used for enabling the molten iron to be formed into the glass bottle, the exhaust runner, the second exhaust cavity and the first exhaust cavity are prevented from being heated and expanding to enable the forming cavity to be broken, and finally qualified glass bottles are produced.

Further, fastening assembly contains nut and bolt, the screw has been seted up respectively at the both ends about the mould shell, the inside threaded connection of screw has the bolt, the one end of bolt extends to the inside of mould shell and supports tight insulation can, the other end fixedly connected with nut of bolt, and the bolt is used for preventing that the both ends closure of insulation can is compact inadequately, causes the seam line great, influences the pleasing to the eye and the quality of glass bottle.

Further, the fastening assembly further comprises a fastening ring and a connecting plate, the connecting plates are fixedly connected to the upper end and the lower end of the die shell respectively, a screw hole is formed in the upper end of the connecting plate, the fastening ring is fixedly connected to the outer peripheral side of the middle of the die shell and used for reinforcing the die shell, the die shell is prevented from being damaged, the die shell can be fixed on the base by the connecting plate, and the glass bottle can be molded conveniently.

Further, the constant temperature subassembly contains incubator, connecting pipe, temperature adjusting cavity and cooling tube, the lower extreme of incubator is equipped with the incubator, the inside of incubator is equipped with the connecting pipe, the outside fixedly connected with cooling tube of both ends extension to the incubator about the connecting pipe, the temperature adjusting cavity has been seted up between mould shell and the incubator, the inside rear side in temperature adjusting cavity is filled with the cooling tube, and temperature adjusting cavity and cooling tube are used for preventing that the inside temperature of incubator is higher, cause the damage to the mould shell.

Further, the constant temperature assembly further comprises a uniform heat pipe, the middle part of the temperature adjusting cavity is provided with the uniform heat pipe, the uniform heat pipe is U-shaped, the upper end of the uniform heat pipe extends to the upper end of the die shell, the uniform heat pipe can enable the temperature of a joint of the heat insulation box to be consistent, and the phenomenon that the surface of a glass bottle is not smooth enough due to the fact that the joint line is large is avoided.

Further, the feed port has been seted up at the upper end middle part of insulation can, the lower extreme of feed port extends to the upside of shaping chamber, two exhaust holes have been seted up respectively to both sides around the upper end of insulation can, the lower extreme of exhaust hole extends to the upside of exhaust chamber two, and the feed port is used for reinforced, and the exhaust hole is used for getting rid of the inside air of shaping chamber, prevents to have the bubble in the glass bottle production.

Compared with the prior art, the utility model has the beneficial effects that: the glass bottle forming die has the following advantages:

1. this glass bottle moulded die has set up forming module, and the expansion groove can avoid when the feeding is too much, causes molten iron to spill over when the glass bottle shaping, leads to the temperature to drop, causes the performance of glass bottle not enough, and the shaping chamber is used for making molten iron can be shaped into the glass bottle, and exhaust runner, exhaust chamber two and exhaust chamber one prevent the inside air of shaping chamber to be heated and expand, make the shaping chamber break, finally produce qualified glass bottle.

2. This glass bottle moulded die has set up fastening assembly, and the bolt is used for preventing that the both ends closure of insulation can from being compact inadequately, causes the seam line great, influences the pleasing to the eye and the quality of glass bottle, and the retainer plate is used for strengthening the mould shell, prevents that the mould shell from damaging, and the connecting plate can fix the mould shell on the base, is convenient for to glass bottle shaping.

3. This glass bottle moulded die has set up the constant temperature subassembly, and temperature regulating chamber and cooling tube are used for preventing that the inside temperature of insulation can is higher, causes the damage of mould shell, and the homothermal tube can make the joint department temperature of insulation can unanimous, avoids the joint line great, causes the glass bottle surface not bright and clean enough.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

fig. 2 is a schematic view of the right side cross-sectional structure of the present utility model.

In the figure: the mold comprises a mold shell 1, a fastening component 2, a fastening ring 21, a nut 22, a bolt 23, a connecting plate 24, a heat insulation box 3, a feeding hole 4, an exhaust hole 5, a constant temperature component 6, a constant temperature box 61, a connecting pipe 62, a temperature adjusting cavity 63, a radiating pipe 64, a uniform heat pipe 65, a forming component 7, a capacity expansion groove 71, a first exhaust cavity 72, a forming cavity 73, a bearing surface 74, a 75 exhaust runner and a second exhaust cavity 76.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-2, the present embodiment provides a technical solution: a glass bottle forming die comprising: a die shell 1, a fastening assembly 2, an insulation box 3, a constant temperature assembly 6 and a forming assembly 7;

die housing 1: an assembly groove is formed in the inner part of the box body, and an insulation box 3 is arranged in the assembly groove;

fastening assembly 2: is provided on the outer peripheral side of the mold housing 1; the fastening component 2 comprises a nut 22 and a bolt 23, screw holes are respectively formed in the left end and the right end of the die shell 1, the bolt 23 is connected with internal threads of the screw holes, one end of the bolt 23 extends to the inner part of the die shell 1 to tightly support against the heat insulation box 3, the other end of the bolt 23 is fixedly connected with the nut 22, and the bolt 23 is used for preventing the two ends of the heat insulation box 3 from being closed insufficiently tightly, so that a seam line is larger, and the appearance and quality of a glass bottle are influenced.

The fastening assembly 2 further comprises a fastening ring 21 and a connecting plate 24, the connecting plate 24 is fixedly connected to the upper end and the lower end of the die shell 1 respectively, a screw hole is formed in the upper end of the connecting plate 24, the fastening ring 21 is fixedly connected to the outer peripheral side of the middle part of the die shell 1, the fastening ring 21 is used for reinforcing the die shell 1 and preventing the die shell 1 from being damaged, the die shell 1 can be fixed on a base by the connecting plate 24, and the glass bottle can be conveniently molded.

Constant temperature assembly 6: is arranged on the inner wall of the die shell 1; the constant temperature assembly 6 contains thermostated container 61, connecting pipe 62, temperature adjusting cavity 63 and cooling tube 64, the lower extreme of insulation can 3 is equipped with the thermostated container 61, the inside of thermostated container 61 is equipped with connecting pipe 62, the both ends of controlling of connecting pipe 62 are prolonged to the outside fixedly connected with cooling tube 64 of thermostated container 61, temperature adjusting cavity 63 has been seted up between mould shell 1 and insulation can 3, the inside rear side of temperature adjusting cavity 63 is filled with cooling tube 64, temperature adjusting cavity 63 and cooling tube 64 are used for preventing that the inside temperature of insulation can 3 is higher, cause the damage of mould shell 1.

The constant temperature assembly 6 further comprises a uniform heat pipe 65, the middle part of the temperature adjusting cavity 63 is provided with the uniform heat pipe 65, the uniform heat pipe 65 is U-shaped, the upper end of the uniform heat pipe 65 extends to the upper end of the die shell 1, the uniform heat pipe 65 can enable the temperature of the joint of the heat preservation box 3 to be consistent, and the phenomenon that the surface of a glass bottle is not smooth enough due to larger joint line is avoided.

Forming assembly 7: the glass bottle forming device comprises a capacity expansion groove 71, a first exhaust cavity 72, a forming cavity 73, a bearing surface 74, an exhaust runner 75 and a second exhaust cavity 76, wherein the forming cavity 73 is arranged in the middle of the heat preservation box 3, two exhaust runners 75 are arranged on the left side and the right side of the middle bottom end of the heat preservation box 3, the second exhaust cavity 76 is arranged on the left side and the right side of the middle section of the heat preservation box 3, the second exhaust cavity 76 extends to the upper side of the heat preservation box 3, the bearing surface 74 is arranged at the upper end of the forming cavity 73, the middle of the forming cavity 73 is provided with the transverse capacity expansion groove 71, the first exhaust cavity 72 is arranged at the bottom end of the forming cavity 73, the first exhaust cavity 72 is in a conical shape, the capacity expansion groove 71 can avoid overflow of molten iron when glass bottles are formed, temperature is reduced, the performance of the glass bottles is insufficient, the forming cavity 73 is used for forming molten iron into glass bottles, the exhaust runner 75, the second exhaust cavity 76 and the first exhaust cavity 72 prevent internal air of the forming cavity 73 from being heated to expand, so that the forming cavity 73 is broken, and qualified glass bottles are finally produced.

The upper end middle part of insulation can 3 has seted up feed port 4, and the lower extreme of feed port 4 extends to the upside of shaping chamber 73, and two exhaust holes 5 have been seted up respectively to both sides around the upper end of insulation can 3, and the lower extreme of exhaust hole extends to the upside of exhaust chamber two 76, and feed port 4 is used for reinforced, and exhaust hole 5 is used for getting rid of the inside air of shaping chamber 73, prevents to have the bubble in the glass bottle production.

The working principle of the glass bottle forming die provided by the utility model is as follows: the expansion tank 71 can avoid overflow of molten iron during molding of glass bottles when excessive feeding is caused, so that the temperature is reduced, the performance of the glass bottles is insufficient, the molding cavity 73 is used for enabling molten iron to be molded into the glass bottles, the exhaust runner 75, the exhaust cavity II 76 and the exhaust cavity I72 prevent internal air of the molding cavity 73 from being heated and expanded, the molding cavity 73 is broken, finally qualified glass bottles are produced, the bolts 23 are used for preventing the two ends of the insulation can 3 from being closed insufficiently compact, the joint line is larger, the appearance and quality of the glass bottles are affected, the fastening rings 21 are used for reinforcing the mold shell 1, the mold shell 1 is prevented from being damaged, the connecting plate 24 can fix the mold shell 1 on the base, the glass bottles are convenient to mold, the temperature regulating cavity 63 and the radiating pipes 64 are used for preventing the internal temperature of the insulation can 3 from being higher, the damage to the mold shell 1 is caused, the temperature of the joint line of the insulation can 3 is uniform, and the joint line is prevented from being larger, and the surface of the glass bottles is not smooth.

The foregoing is only illustrative of the present utility model and is not to be construed as limiting the scope of the utility model, and all equivalent structures or equivalent flow modifications which may be made by the teachings of the present utility model and the accompanying drawings or which may be directly or indirectly employed in other related art are within the scope of the utility model.

Claims

1. A glass bottle forming die, which is characterized in that: comprising the following steps: the device comprises a die shell (1), a fastening assembly (2), an incubator (3), a constant temperature assembly (6) and a forming assembly (7);

mould shell (1): an assembly groove is formed in the inner part of the assembly groove, and an insulation box (3) is arranged in the assembly groove;

fastening assembly (2): is arranged on the outer periphery side of the die shell (1);

constant temperature assembly (6): is arranged on the inner wall of the die shell (1);

forming assembly (7): contain dilatation groove (71), exhaust chamber one (72), shaping chamber (73), bearing face (74), exhaust runner (75) and exhaust chamber two (76), the middle part of insulation can (3) is equipped with shaping chamber (73), the middle part bottom of insulation can (3) is located the left and right sides of shaping chamber (73) and is equipped with two exhaust runners (75), the inside middle section left and right sides of insulation can (3) is equipped with exhaust chamber two (76), exhaust chamber two (76) extend to the upside of insulation can (3), the upper end of shaping chamber (73) is equipped with bearing face (74), the middle part of shaping chamber (73) is equipped with horizontal dilatation groove (71), exhaust chamber one (72) have been seted up to the bottom of shaping chamber (73), exhaust chamber one (72) are the circular cone.

2. A glass bottle forming die as in claim 1, wherein: the fastening assembly (2) comprises a nut (22) and a bolt (23), screw holes are respectively formed in the left end and the right end of the die shell (1), the bolt (23) is connected with the screw holes in a threaded mode, one end of the bolt (23) extends to the inside of the die shell (1) to tightly support against the incubator (3), and the nut (22) is fixedly connected to the other end of the bolt (23).

3. A glass bottle forming die as in claim 2, wherein: the fastening assembly (2) further comprises a fastening ring (21) and a connecting plate (24), the connecting plates (24) are fixedly connected to the upper end and the lower end of the die shell (1) respectively, screw holes are formed in the upper end of the connecting plate (24), and the fastening ring (21) is fixedly connected to the periphery side of the middle of the die shell (1).

4. A glass bottle forming die as in claim 1, wherein: the constant temperature assembly (6) comprises a constant temperature box (61), a connecting pipe (62), a temperature adjusting cavity (63) and a radiating pipe (64), wherein the constant temperature box (61) is arranged at the lower end of the heat insulating box (3), the connecting pipe (62) is arranged in the constant temperature box (61), the radiating pipe (64) is fixedly connected to the outer side of the constant temperature box (61) from the left end and the right end of the connecting pipe (62), the temperature adjusting cavity (63) is formed between the die shell (1) and the heat insulating box (3), and the radiating pipe (64) is filled at the rear side of the temperature adjusting cavity (63).

5. A glass bottle forming die as in claim 4, wherein: the constant temperature assembly (6) further comprises a uniform heat pipe (65), the middle part of the temperature adjusting cavity (63) is provided with the uniform heat pipe (65), the uniform heat pipe (65) is U-shaped, and the upper end of the uniform heat pipe (65) extends to the upper end of the die shell (1).

6. A glass bottle forming die as in claim 1, wherein: the upper end middle part of insulation can (3) has seted up feed port (4), the lower extreme of feed port (4) extends to the upside of shaping chamber (73), two exhaust holes (5) have been seted up respectively to both sides around the upper end of insulation can (3), the lower extreme of exhaust hole extends to the upside of exhaust chamber two (76).