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Bottle-making machine and production process for making extra-large glass bottles

A technology of glass bottles and bottle making machines, which is applied in glass production, blown glass forming machines, transmission machinery dedicated to glass blowing machines, etc., and can solve problems such as burns, threats to workers' personal safety, broken or deformed bottles, etc. Achieve the effects of less mold wear, maintaining strength, and uniform thickness of the bottle wall

Active Publication Date: 2016-10-05
SHANDONG JIAFENG GLASS MACHINERY
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Due to the large body of the bottle, manual intervention such as turning over and handling will inevitably cause burns, which poses a threat to the personal safety of workers
In addition, due to the large size and weight of the bottle, the bottle body will also break or deform due to gravity when it is turned over. It can be seen that there are many difficulties in the production of large bottles

Method used

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  • Bottle-making machine and production process for making extra-large glass bottles
  • Bottle-making machine and production process for making extra-large glass bottles
  • Bottle-making machine and production process for making extra-large glass bottles

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0052] A bottle making machine for making extra large glass bottles such as figure 1 As shown, it includes a frame 1 and a preliminary mold forming mechanism 3 , a forming mold forming mechanism 4 and a turning device 5 all installed on the frame 1 .

[0053] like Figure 4 As shown, the blank mold forming mechanism 3 includes a stamping device 3.1, a blank mold 3.2 and a parallel switch mechanism 3.3. The stamping device 3.1 is installed on the frame 1, and the parallel switch mechanism 3.3 includes a horizontal guide shaft 3.3.1 installed on the frame 1, a parallel clamp arm 3.3.2 set on the horizontal guide shaft 3.3.1, and a vertical set on the The first spline shaft 3.3.3, the first rocker arm 3.3.4, the first connecting rod 3.3.5 and the first switch cylinder on both sides of the frame 1. One end of the first connecting rod 3.3.5 is hinged with the parallel tong arm 3.3.2, and the other end is hinged with the first rocker arm 3.3.4. The first rocking arm 3.3.4 is conn...

Embodiment 2

[0076] The difference from Example 1 is that the preliminary molding stage in this example uses the "blowing-blowing" method to obtain preforms. like Figure 9 As shown, the preliminary mold forming mechanism includes an air blowing device 3.5, and the blowing device is positioned under the preliminary mold. The blowing device includes a core 3.5.1, a buckle 3.5.2, a core joint 3.5.3, a core spring 3.5.5 and a blowing cylinder 3.5.6. The sleeve 3.5.4 is fitted around the core, and the core and the sleeve can slide relative to each other in the radial direction. The core and the core joint are connected by a buckle, and the lower end of the core joint is connected with the blowing cylinder. The core joint is connected with the cylinder block of the blowing cylinder by a core spring. A blowing channel is provided inside the core and the core joint, the top of the blowing channel passes through the side wall of the core and communicates with the outside world, and the bottom e...

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Abstract

The bottle-making machine and production process for making extra-large glass bottles belong to the field of bottle-making machine equipment, including a frame and a preliminary mold forming mechanism, a forming mold forming mechanism and a turning mechanism all installed on the frame; the preliminary mold forming The mechanism includes a punching device, a prototype and a parallel switch mechanism; the punching device is installed on the frame, and the parallel switch mechanism includes a horizontal guide shaft installed on the frame, a clamp arm set on the horizontal guide shaft, and a vertical set on the machine. The first spline shaft, the first rocker arm, the first connecting rod and the first switch cylinder on both sides of the frame; one end of the first connecting rod is hinged with the pincer arm, and the other end is hinged with the first rocker arm, and the first rocker arm passes through The first spline shaft is connected with the first switch cylinder, and the preliminary mold is installed on the tong arm. The beneficial effect of the invention is that: the manual production of extra-large glass bottles is replaced by mechanized automatic production, which increases the output and improves the product quality.

Description

technical field [0001] The invention belongs to the field of bottle-making machine equipment, and in particular relates to a bottle-making machine and a production process for making extra-large glass bottles. Background technique [0002] In the glass bottle production industry, the bottle making machine adopts multi-drop forming technology to increase the output of a single machine. After decades of development, it has been upgraded from single-drop bottle making to six-drop bottle making. For example, the invention patent with application number 201010253079.0 (a six-drop determinant bottle making machine and its production process), which can save energy consumption in a single machine Under the same premise, the output of glass bottles is several times that of traditional bottle making machines, and the production cost is greatly reduced. The corresponding production process has also appeared "blow-blow method" and "press-blow method"; The production process of initia...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C03B9/193C03B9/40
CPCY02P40/57
Inventor 景传舜王承尧杨自皆于书杰景光成杨鹏马军
Owner SHANDONG JIAFENG GLASS MACHINERY
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