CN211770916U - Device for cooling glass bottle by exchanging air flow - Google Patents

Abstract

The utility model discloses a device for cooling a glass bottle by exchanging air flow, which comprises a mould, an air blowing device above the mould, an air inlet nozzle and an air exhaust nozzle in the air blowing device, and a cooling cavity; there is gas blowing device mould top, be equipped with suction nozzle and play gas nozzle in the middle of the gas blowing device, suction nozzle and play gas nozzle top fixed connection seal valve, seal valve top fixed connection intake pipe and outlet duct, gas blowing device both sides below is equipped with the cooling chamber, and the cooling chamber is connected with the cold gas mouth, the utility model discloses a suction nozzle and play gas nozzle in the middle of the gas blowing device, the suction nozzle blows in the cold air, goes out the hot-air of gas nozzle exhaust for the cold and hot air current in the exchange bottle reaches the effect of cooling the body, and the air cycle through the fin that the bottleneck groove set up and cooling intracavity reaches the effect of cooling the bottleneck simultaneously, makes bottleneck body even cooling, prevents that the cooling inequality from leading to the body.

Description

Device for cooling glass bottle by exchanging air flow

Technical Field

The utility model relates to a glass bottle production technical field especially relates to a device of exchange air current cooling glass bottle.

Background

In the production and manufacturing process of glass bottles, molten glass liquid needs to be injected into a forming mold to be preliminarily formed and then cooled, the glass bottle forming mold comprises a primary mold, a neck mold, a forming mold and the like, the liquid flows into the primary mold to form a parison, and then the parison enters the forming mold to be blown and formed.

The forming process of the glass bottle is a process of gradually reducing the temperature, and the cooling of the mold is properly applied as an important link of forming control. At present, many mold bodies are provided with cooling holes parallel to the mold axis, and when cooling, the glass bottle in the cavity is cooled by blowing cold air into the cooling holes.

However, the wall thickness of the bottle mouth of the glass bottle mold is thick, the cooling effect of the cooling hole is not ideal enough, and the cooling speed of the bottle mouth is greatly lower than that of the part below the bottle neck, so that after the glass bottle is pressed into a finished product shape by blowing in the forming mold, hot air in the bottle cannot be discharged, the cooling effect of the glass bottle in the forming mold is poor, the cooling difference between the bottle body and the bottle mouth is caused, the glass bottle product is easy to deform in the cooling process, and the quality of the prepared glass bottle is poor.

SUMMERY OF THE UTILITY MODEL

In view of this, the present invention provides a device for cooling glass bottles by exchanging air flow, so that the glass bottles can be uniformly and rapidly cooled, and the glass bottles are prevented from being deformed due to uneven cooling and heating.

The utility model solves the technical problems through the following technical means:

a device for cooling glass bottles by exchanging air flow comprises a mold, an air blowing device above the mold, an air inlet nozzle and an air exhaust nozzle in the air blowing device, and a cooling cavity; the mold is characterized in that a blowing device is arranged above the mold, a gas inlet nozzle and a gas outlet nozzle are arranged in the middle of the blowing device, a sealing valve is fixedly connected above the gas inlet nozzle and the gas outlet nozzle, a gas inlet pipe and a gas outlet pipe are fixedly connected above the sealing valve, cooling cavities are arranged below two sides of the blowing device, and the cooling cavities are connected with cold gas ports.

Furthermore, the center of the blowing device is provided with an air inlet nozzle and an air exhaust nozzle which are connected together in parallel.

Further, the air inlet pipe is connected with an air inlet nozzle, and the air outlet pipe is connected with an air exhaust nozzle.

Furthermore, the cold air port is fixedly connected with a cold air pipe above the cooling cavity.

Further, the bottleneck groove of the inner side wall of the cooling cavity is provided with cooling fins which are uniformly arranged on the bottleneck groove.

Further, be equipped with the exhaust hole on the cooling chamber lateral wall, exhaust hole evenly distributed is at the cooling chamber lateral wall.

This practical beneficial effect: the air inlet nozzle and the air exhaust nozzle are arranged at the center of the blowing device, when the glass bottle is blown, the air exhaust nozzle is closed, cold air is blown into the air inlet nozzle to press and form the glass bottle, then the air exhaust nozzle is opened, the cold air is blown into the glass bottle through the air inlet nozzle, hot air in the glass bottle is exhausted through the air exhaust nozzle, and air flow in the glass bottle is exchanged in such a way, so that the glass bottle achieves the effect of quick and uniform cooling; the design of cooling chamber is passed through, and the cooling gas port is inserted to cooling chamber top, and cold air is blown in toward the cooling chamber to the cooling gas port, and the temperature of the bottleneck is lost with higher speed to the fin on the bottleneck groove, and the temperature that the cold air of cooling chamber loses the fin with higher speed is discharged through the exhaust hole for the bottleneck cools off fast, realizes the quick even cooling of body and bottleneck through this device, prevents that the glass bottle that the cooling inequality leads to warp.

Drawings

FIG. 1 is a schematic view showing the overall structure of an apparatus for cooling glass bottles by exchanging air flows according to the present invention;

FIG. 2 is a schematic view of the structure of the air blowing device of the device for cooling glass bottles by exchanging air flow.

The device comprises a mold 1, a glass bottle 2, an air blowing device 3, a sealing valve 4, an air inlet nozzle 5, an air exhaust nozzle 6, an air inlet pipe 7, an air outlet pipe 8, a cooling cavity 9, a cooling air port 10, a cooling air pipe 11, an exhaust hole 12, a radiating fin 13 and a bottle neck groove 14.

Detailed Description

The present invention will be described in detail below with reference to the following drawings and specific embodiments:

as shown in fig. 1-2, the device for cooling glass bottles by exchanging air flow of the present invention comprises a mold 1, an air blowing device 3 above the mold 1, an air inlet nozzle 5 and an air exhaust nozzle 6 in the air blowing device 3, and a cooling cavity 9; the air blowing device is characterized in that an air blowing device 3 is arranged above the mold 1, an air inlet nozzle 5 and an air exhaust nozzle 6 are arranged in the middle of the air blowing device 3, a sealing valve 4 is fixedly connected above the air inlet nozzle 5 and the air exhaust nozzle 6, air blown in by the air inlet nozzle 5 is prevented from leaking from the sealing valve 4 to cause blow-pressing and unshaped bottle bodies, an air inlet pipe 7 and an air outlet pipe 8 are fixedly connected above the sealing valve 4, cooling cavities 9 are arranged below two sides of the air blowing device 3, and the cooling cavities 9 are.

Wherein: the center of the blowing device 3 is provided with an air inlet nozzle 5 and an air exhaust nozzle 6, the air inlet nozzle 5 and the air exhaust nozzle 6 are connected in parallel, so that cold air is blown into the air inlet nozzle 5 to cool the bottle body, and hot air in the bottle is exhausted by the air exhaust nozzle 6, thereby achieving the effect of exchanging air flow to cool the bottle body.

Wherein: the air inlet pipe 7 is connected with the air inlet nozzle 5, the air outlet pipe 8 is connected with the air exhaust nozzle 6, the air inlet pipe 7 is connected with an external cylinder to blow cold air into the glass bottle from the air inlet nozzle 5 for cooling, and the air outlet pipe 8 is used for discharging hot air in the glass bottle.

Wherein: the cold air port 10 is fixedly connected with a cold air pipe 11 above the cooling cavity 9, and the cold air pipe 11 is connected with an external cylinder to blow external cold air into the cooling cavity 9 through the cold air port 10, so that the cooling fins 13 are cooled.

Wherein: the bottleneck groove 14 of the inner side wall of the cooling cavity 9 is provided with cooling fins 13, the cooling fins 13 are uniformly arranged on the bottleneck groove 14, the bottleneck groove 14 is rapidly cooled through the cooling fins 13, and the bottleneck temperature is rapidly cooled through the heat transfer of the bottleneck groove 14.

Wherein: the outer side wall of the cooling cavity 9 is provided with exhaust holes 12, the exhaust holes 12 are uniformly distributed on the outer side wall of the cooling cavity 9, so that hot air in the cooling cavity 9 is exhausted through the exhaust holes 12, and the cooling fins 13 on the bottleneck grooves 14 are cooled.

The utility model is characterized in that an air inlet nozzle 5 and an air exhaust nozzle 6 are arranged at the center of an air blowing device 3, the air inlet nozzle 5 and the air exhaust nozzle 6 are connected in parallel, so that the air inlet nozzle 5 blows cold air to cool a bottle body, the air exhaust nozzle 6 exhausts hot air in the bottle to achieve the effect of exchanging air flow to cool the bottle body, an air inlet pipe 7 and an air outlet pipe 8 are fixedly connected above a sealing valve 4, the air inlet pipe 7 is connected with the air inlet nozzle 5, the air outlet pipe 8 is connected with the air exhaust nozzle 6, the air inlet pipe 7 is connected with an external cylinder to blow cold air into the glass bottle from the air inlet nozzle 5 for cooling, the hot air in the glass bottle is exhausted through the air outlet pipe 8, then the sealing valve 4 is fixedly connected above the air inlet nozzle 5 and the air exhaust nozzle 6 to prevent air blown in from leaking out from the sealing valve 4 to cause the blow-on the bottle body to be, cold air port 10 fixed connection cooling chamber 9 top cold air pipe 11, connect outside cylinder through cold air pipe 11 and blow in cooling chamber 9 with outside cold air through cold air port 10, make cooling fin 13, bottleneck groove 14 through cooling chamber 9 inside wall is equipped with fin 13 at last, fin 13 align to grid is on bottleneck groove 14, make quick cooling bottleneck groove 14 through fin 13, make bottleneck temperature quick cooling through bottleneck groove 14 heat transfer, be equipped with exhaust hole 12 on the cooling chamber 9 lateral wall, exhaust hole 12 evenly distributed is at cooling chamber 9 lateral wall, make the hot-air in the cooling chamber 9 discharge through exhaust hole 12, make fin 13 on bottleneck groove 14 cool off.

Although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that various changes may be made and equivalents may be substituted without departing from the spirit and scope of the present invention as defined in the claims. The techniques, shapes, and configurations not described in detail in this application are all known techniques.

Claims (6)

1. A device for cooling glass bottles by exchanging air flow comprises a mold (1), an air blowing device (3) above the mold (1), an air inlet nozzle (5) and an air exhaust nozzle (6) in the air blowing device (3), and a cooling cavity (9); the method is characterized in that:

there is gas blowing device (3) mould (1) top, be equipped with suction nozzle (5) and exhaust nozzle (6) in the middle of gas blowing device (3), suction nozzle (5) and exhaust nozzle (6) top fixed connection seal valve (4), seal valve (4) top fixed connection intake pipe (7) and outlet duct (8), gas blowing device (3) both sides below is equipped with cooling chamber (9), cooling chamber (9) are connected with cold gas mouth (10).

2. An apparatus for exchanging air flow for cooling glass bottles as claimed in claim 1 wherein: the center of the blowing device (3) is provided with an air inlet nozzle (5) and an air exhaust nozzle (6), and the air inlet nozzle (5) and the air exhaust nozzle (6) are connected together in parallel.

3. An apparatus for exchanging air flow for cooling glass bottles as claimed in claim 1 wherein: the air inlet pipe (7) is connected with the air inlet nozzle (5), and the air outlet pipe (8) is connected with the air exhaust nozzle (6).

4. An apparatus for exchanging air flow for cooling glass bottles as claimed in claim 1 wherein: the cold air port (10) is fixedly connected with a cold air pipe (11) above the cooling cavity (9).

5. An apparatus for exchanging air flow for cooling glass bottles as claimed in claim 1 wherein: and the bottleneck groove (14) on the inner side wall of the cooling cavity (9) is provided with cooling fins (13), and the cooling fins (13) are uniformly arranged on the bottleneck groove (14).

6. An apparatus for exchanging air flow for cooling glass bottles as claimed in claim 1 wherein: be equipped with exhaust hole (12) on cooling chamber (9) lateral wall, exhaust hole (12) evenly distributed is in cooling chamber (9) lateral wall.

Images