CN217434948U - Bottle embryo cooling device - Google Patents

Abstract

The utility model belongs to the cooling device field provides a bottle embryo cooling device, include: the bottle blank receiving device comprises a base, wherein a plurality of material receiving pipes are distributed on the base in a rectangular mode and used for receiving bottle blanks; the water receiving block is arranged on the base and positioned on one side of the material receiving pipe, and a water inlet hole is formed in the water receiving block; the water path is spirally distributed on the outer side wall of the material receiving pipe and is connected with the water inlet hole for cooling the bottle blanks; the negative pressure assembly is arranged on the base, is communicated with the material receiving pipe and can form negative pressure in the material receiving pipe. Compared with the prior art, the utility model has the advantages of this bottle embryo cooling device can cool off the bottle embryo, reduces bottle embryo injection mold's cool time, adopts during the semi-formed bottle embryo inhales cooling device among the negative pressure device with injection mold, is used for cooling off the bottle embryo through the water route, makes injection mold reduce the cool time of bottle embryo, continues to carry out next round of injection mold bottle embryo, improves production efficiency.

Description

Bottle embryo cooling device

Technical Field

The utility model belongs to the cooling device field, concretely relates to bottle embryo cooling device.

Background

In the production of bottle blanks, the cooling of the bottle blanks is generally carried out in a mold, namely, a period of cooling time is required after the material injection of the mold is completed, the mold is ejected after the bottle blanks are completely hardened, and then the next blank taking procedure is repeated, and the mold cannot carry out other actions in the period of cooling the bottle blanks, so that the production time period of the bottle blanks is long, and the production efficiency of the bottle blanks is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that the current situation to prior art provides a bottle embryo cooling device.

In order to solve the technical scheme problem, the utility model provides a bottle embryo cooling device, include: the bottle blank receiving device comprises a base, wherein a plurality of material receiving pipes are distributed on the base in a rectangular mode and used for receiving bottle blanks;

the water receiving block is arranged on the base and positioned on one side of the material receiving pipe, and a water inlet hole is formed in the water receiving block;

the water paths are spirally distributed on the outer side wall of the material receiving pipe and are connected with the water inlet holes for cooling the bottle blanks;

the negative pressure assembly is arranged on the base, is communicated with the material receiving pipe and can form negative pressure in the material receiving pipe.

In the above bottle blank cooling device, the negative pressure component is provided with a gas receiving block, the gas receiving block is arranged on the base, the gas receiving block is arranged between the material receiving pipe and the water receiving block, the gas receiving block is provided with an air inlet, the bottom of the material receiving pipe is provided with an air passage, the material receiving pipe is internally provided with a containing cavity, the bottom of the containing cavity is provided with a gas receiving hole, and the air passage is connected with the gas receiving hole.

In the above bottle blank cooling device, the base is provided with a positioning pin, and the positioning pin is arranged on one side of the material receiving pipe and is parallel to the material receiving pipe.

In the above bottle blank cooling device, the end of the material receiving pipe far away from the base is provided with a plurality of connecting plates, and the connecting plates are provided with through holes matched with the material receiving pipe.

In the above bottle blank cooling device, the bottom of the base is symmetrically provided with the abutting blocks, the abutting blocks are connected with the connecting plate, and a gap is formed between the connecting plate and the bottoms of the abutting blocks.

Compared with the prior art, the utility model has the advantages of this bottle embryo cooling device can cool off the bottle embryo, reduces bottle embryo injection mold's cool time, adopts during the semi-formed bottle embryo inhales cooling device among the negative pressure device with injection mold, is used for cooling off the bottle embryo through the water route, makes injection mold reduce the cool time of bottle embryo, continues to carry out next round of injection mold bottle embryo, improves production efficiency.

Drawings

The following detailed description of embodiments of the invention is provided with reference to the accompanying drawings, in which:

FIG. 1 is a perspective view of a bottle preform cooling device;

FIG. 2 is a perspective view of the take-up tube;

FIG. 3 is a cross-sectional view taken along the line A-A in FIG. 2;

FIG. 4 is a perspective view of the take-off pipe in another direction;

FIG. 5 is a sectional view taken in the direction of FIG. 4B-B;

fig. 6 is a perspective view of the connection plate.

In the figure, 1, a base; 2. a material receiving pipe; 3. a water receiving block; 4. a water inlet hole; 5. a waterway; 6. A gas receiving block; 7. an air inlet; 8. a gas circuit; 9. a cavity; 10. air receiving holes; 11. positioning pins; 12. a connecting plate; 13. a through hole; 14. a leaning block; 15. a gap.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

As shown in fig. 1 and fig. 2, the present invention provides a bottle blank cooling device, comprising: the bottle blank receiving device comprises a base 1, wherein a plurality of material receiving pipes 2 are distributed on the base 1 in a rectangular mode, and the material receiving pipes 2 are used for receiving bottle blanks; the water receiving block 3 is arranged on the base 1 and positioned on one side of the material receiving pipe 2, and a water inlet 4 is formed in the water receiving block 3; the water paths 5 are spirally distributed on the outer side wall of the material receiving pipe 2, and the water paths 5 are connected with the water inlet holes 4 and used for cooling the bottle blanks; the negative pressure assembly is arranged on the base 1, is communicated with the material receiving pipe 2 and can form negative pressure in the material receiving pipe 2.

A plurality of material receiving pipes 2 are arranged and distributed on a base 1 in a rectangular manner, the material receiving pipes 2 are used for receiving incompletely hardened bottle blanks on an injection mold, a water receiving block 3 is arranged on one side of the material receiving pipes 2, water inlets 4 are formed in the water receiving block 3, water ways 5 are spirally distributed on the outer side wall of the material receiving pipes 2, the contact area of a water flow channel and the material receiving pipes 2 is increased, the water ways 5 are connected with the water inlets 4, the bottle blanks can be rapidly cooled when water flows into the water ways 5 through the water inlets 4, a negative pressure component is arranged on the base 1, the negative pressure component is communicated with the material receiving pipes 2 and can form negative pressure in the material receiving pipes 2, when the injection mold horizontally pushes the incompletely hardened bottle blanks to a bottle blank cooling device, the bottle blanks are sucked into the material receiving pipes 2 by the negative pressure component for cooling, the injection mold returns to the original position for continuously injecting films for the next round of bottle blanks, the cooling device is rotated to unload the formed bottle blanks after the bottle blanks are cooled, reduce the cooling time of bottle embryo on injection mold and improve production efficiency, material receiving pipe 2's quantity can be twice, triple or many times of die cavity in the injection mold, can increase the dwell time of bottle embryo in cooling device when cooling device cools off first mould bottle embryo, can arrange the bottle embryo in remaining material receiving pipe 2 when bottle embryo mould carries out the second round propelling movement, so on and so on, the refrigerated more thorough of bottle embryo, work efficiency and quality improve.

As shown in fig. 3 and 5, the negative pressure assembly is provided with an air receiving block 6, the air receiving block 6 is arranged on the base 1, the air receiving block 6 is arranged between the material receiving pipe 2 and the water receiving block 3, the air inlet 7 is arranged on the air receiving block 6, an air passage 8 is arranged at the bottom of the material receiving pipe 2, an accommodating cavity 9 is arranged in the material receiving pipe 2, an air receiving hole 10 is arranged at the bottom of the accommodating cavity 9, and the air passage 8 is connected with the air receiving hole 10.

Install on the negative pressure subassembly and connect gas piece 6, connect gas piece 6 to be located and connect between material pipe 2 and the water receiving piece 3, connect inlet port 7 on the gas piece 6 and the 8 intercommunications of gas circuit of material pipe 2 bottoms, be equipped with in material pipe 2 and hold the chamber 9 in material pipe, gas circuit 8 is connected with the gas hole 10 that connects that holds the chamber 9 bottom, connect gas hole 10 can be connected with gas circuit 8 and form negative pressure channel, when bottle embryo injection mold is to bottle embryo cooling device horizontal migration, it can inhale the appearance chamber and cool off to connect the interior negative pressure that forms of material pipe 2, and the production efficiency is improved.

The base 1 is provided with a positioning pin 11, and the positioning pin 11 is arranged on one side of the material receiving pipe 2 and is parallel to the material receiving pipe 2.

Install locating pin 11 on the base 1, locating pin 11 is in parallel position with material receiving pipe 2, and when bottle embryo injection mold was to bottle embryo cooling device horizontal migration, locating pin 11 was connected earlier with the injection mold and is fixed a position, prevents that the bottle embryo from taking place the displacement and destroying the bottle embryo at the in-process of transferring, reduces the loss rate and improves production quality.

As shown in fig. 6, one end of the material receiving pipe 2 away from the base 1 is provided with a plurality of connecting plates 12, and the connecting plates 12 are provided with through holes 13 adapted to the material receiving pipe 2.

One end of the material receiving pipe 2 is connected to the base 1, the other end of the material receiving pipe 2 is connected to the connecting plate 12, the connecting plate 12 is provided with a through hole 13 matched with the port of the material receiving pipe 2, and the bottle blank is sucked into the accommodating cavity 9 through the through hole 13 by the negative pressure component for cooling.

The base 1 is provided with on the bottom symmetry and supports block 14, supports to support block 14 to be connected with connecting plate 12, and connecting plate 12 is provided with clearance 15 with supporting 14 bottoms.

The bottom position of base 1 goes up the symmetry and is provided with and leans on the piece, lean on to be connected with connecting plate 12 between the piece 14, the bottom of connecting plate 12 and the bottom dislocation connection who leans on piece 14, when cooling device placed on the horizontal plane, lean on piece 14 and horizontal plane contact, because the bottom of connecting plate 12 and the bottom dislocation connection who leans on piece 14 make connecting plate 12 bottom and horizontal plane leave clearance 15, can prevent to connect material pipe 2 and other article collision, increase the life cycle of connecting material pipe 2.

The specific embodiments described herein are merely illustrative of the invention. Various modifications, additions and substitutions for the specific embodiments described may be made by those skilled in the art without departing from the scope of the invention as defined in the accompanying claims.

Claims (5)

1. A bottle preform cooling device, comprising: the bottle blank receiving device comprises a base, wherein a plurality of material receiving pipes are distributed on the base in a rectangular mode and used for receiving bottle blanks;

the water receiving block is arranged on the base and positioned on one side of the material receiving pipe, and a water inlet hole is formed in the water receiving block;

the water paths are spirally distributed on the outer side wall of the material receiving pipe and are connected with the water inlet holes for cooling the bottle blanks;

the negative pressure assembly is arranged on the base, communicated with the material receiving pipe and capable of forming negative pressure in the material receiving pipe.

2. The bottle blank cooling device according to claim 1, wherein a gas receiving block is arranged on the negative pressure component, the gas receiving block is arranged on the base and is arranged between the material receiving pipe and the water receiving block, an air inlet is arranged on the gas receiving block, an air passage is arranged at the bottom of the material receiving pipe, a containing cavity is arranged in the material receiving pipe, an air receiving hole is arranged at the bottom of the containing cavity, and the air passage is connected with the air receiving hole.

3. The bottle blank cooling device as claimed in claim 1, wherein the base is provided with a positioning pin, and the positioning pin is disposed at one side of the material receiving pipe and is parallel to the material receiving pipe.

4. The bottle blank cooling device as claimed in claim 1, wherein the end of the material receiving tube away from the base is provided with a plurality of connecting plates, and the connecting plates are provided with through holes adapted to the material receiving tube.

5. The bottle blank cooling device as claimed in claim 4, wherein the bottom of the base is symmetrically provided with the abutting blocks, the abutting blocks are connected with the connecting plate, and the connecting plate is provided with a gap from the bottoms of the abutting blocks.

Images