CN216639272U - Glass bottle production line provided with multiple bottle-making machines - Google Patents

Abstract

A glass bottle production line provided with a plurality of bottle making machines comprises a bottle making machine, a bottle grabbing mechanical arm, a chain type glass bottle conveying line, a glass bottle mesh belt placing mechanical arm, an annealing furnace mesh belt, an annealing furnace, a glass bottle quality detection device and a glass bottle automatic box packing device; the bottle making machine is positioned at the front part of the production line; the front part of the chain type glass bottle conveying line is arranged opposite to a finished product bottle outlet of a bottle making machine, and the tail part of the chain type glass bottle conveying line is arranged opposite to an annealing furnace mesh belt; the bottle grabbing mechanical arm is arranged between the bottle making machine and the chain type glass bottle conveying line; the glass bottle mesh belt placing manipulator is arranged between the chain type glass bottle conveying line and the annealing furnace mesh belt; the mesh belt of the annealing furnace passes through the annealing furnace, and the tail part of the mesh belt is butted with the glass bottle quality detection device; the automatic glass bottle boxing device is arranged behind the glass bottle quality detection device. According to the utility model, through the optimized design of the layout and the connection structure of the glass bottle production equipment, the occupied area is reduced, and the equipment utilization rate is improved.

Description

Glass bottle production line provided with multiple bottle-making machines

Technical Field

The utility model relates to a glass bottle production line, in particular to a glass bottle production line provided with a plurality of bottle making machines.

Background

At present, the production line equipment for controlling injection bottles generally comprises a bottle making machine, a glass bottle conveying line, an annealing furnace, a set of quality detection device and a set of glass bottle box device, because the layout of the production line equipment is loose, the occupied area is large, and because the utilization rate of the annealing furnace equipment is low, the energy consumption is not matched with the capacity, especially under the large environment of advocating energy conservation and environmental protection, optimizing the production structure and improving the production efficiency, the goals of intensive production, cost saving and consumption reduction and potential increase development are pursued by production enterprises, the key point of improving the competitiveness of the enterprises is realized by breaking through the inherent mode to realize the innovation development, therefore, the mode of thinking is changed aiming at the production of the controlled glass bottles, and the optimization design of the layout and the connection structure of the production equipment is very necessary.

SUMMERY OF THE UTILITY MODEL

The utility model provides a glass bottle production line provided with a plurality of bottle making machines, and aims to reduce the floor area, improve the utilization rate of equipment and achieve the purposes of cost saving, consumption reduction, excavation and efficiency improvement by optimally designing the layout and the connection structure of glass bottle production equipment.

In order to achieve the purpose, the utility model adopts the following technical scheme:

a glass bottle production line provided with a plurality of bottle making machines comprises a bottle making machine, a bottle grabbing mechanical arm, a chain type glass bottle conveying line, a glass bottle mesh belt placing mechanical arm, an annealing furnace mesh belt, an annealing furnace, a glass bottle quality detection device and a glass bottle automatic box packing device; the bottle making machines are positioned at the front part of the production line, the plurality of bottle making machines are arranged in a straight line shape, and the outlet directions of finished bottles are consistent; the front part of the chain type glass bottle conveying line is arranged opposite to a finished product bottle outlet of the bottle making machine, and the tail part of the chain type glass bottle conveying line is arranged opposite to a mesh belt of the annealing furnace; the bottle grabbing mechanical arm is arranged between the bottle making machine and the chain type glass bottle conveying line, and each bottle making machine is provided with one bottle grabbing mechanical arm; the glass bottle mesh belt placing manipulator is arranged between the chain type glass bottle conveying line and the annealing furnace mesh belt; the mesh belt of the annealing furnace passes through the annealing furnace, and the tail part of the mesh belt is butted with the glass bottle quality detection device; the automatic glass bottle boxing device is arranged behind the glass bottle quality detection device.

In the glass bottle production line provided with the plurality of bottle making machines, the chain type glass bottle conveying line is provided with a conveying line motor, a driving chain wheel, a driven chain wheel, a chain and a V-shaped graphite tray; an output shaft of the transmission line motor is fixedly connected with the driving chain wheel; the driving chain wheel, the driven chain wheel and the chain are matched to form a transmission mechanism; the V-shaped graphite trays are provided with a plurality of groups which are uniformly arranged at certain intervals and are fixedly arranged on the chain.

In the glass bottle production line provided with the plurality of bottle making machines, four bottle making machines are arranged; the glass bottle mesh belt placing mechanical arm and the annealing furnace are both provided with one glass bottle mesh belt placing mechanical arm; eight rows of mesh belts of the annealing furnace are arranged and driven by a mesh belt motor of the annealing furnace to operate; the glass bottle quality detection device and the glass bottle automatic box packing device are respectively provided with two sets which are arranged at two sides of the rear end of the mesh belt of the annealing furnace in a bilateral symmetry way.

In the glass bottle production line with the plurality of bottle making machines, the transmission line motor and the annealing furnace mesh belt motor are stepping motors.

The utility model relates to a glass bottle production line with a plurality of bottle-making machines, which arranges a plurality of bottle-making machines on the same glass bottle production line, and the plurality of bottle-making machines share a glass bottle conveying line and an annealing furnace device, thereby improving the utilization rate of the annealing furnace device; meanwhile, two sets of glass bottle quality detection devices and glass bottle automatic box packing devices are arranged behind the annealing furnace equipment, so that the consistency of the production takt time of the whole production line is ensured. In a word, the utility model reduces the occupied area, improves the utilization rate of the equipment and achieves the purposes of cost saving, consumption reduction, excavation and efficiency improvement by the optimized design of the layout and the connection structure of the glass bottle production equipment.

Drawings

FIG. 1 is a general layout of a glass bottle manufacturing line configured with multiple bottle-making machines according to the present invention;

FIG. 2 is a schematic view of a glass bottle conveying line;

fig. 3 is an enlarged view of a structure a in fig. 2.

The list of labels in the figure is:

1. a bottle making machine; 2. A bottle grabbing manipulator; 3. A chain type glass bottle conveying line, 3-1, a chain, 3-2, a driving chain wheel, 3-3, a V-shaped graphite tray, 3-4, a conveying line motor, 3-5 and a driven chain wheel; 4. A glass bottle placing manipulator; 5. Mesh belt of annealing furnace; 6. An annealing furnace; 7. A glass bottle quality detection device; 8. An automatic boxing device for glass bottles; 9. and (4) a glass bottle.

Detailed Description

The utility model is further described with reference to the following figures and specific embodiments.

Referring to fig. 1, the present invention provides a glass bottle production line equipped with a plurality of bottle-making machines, the preferred embodiment of which is: four bottle making machines 1, four bottle grabbing manipulators 2, a chain type glass bottle conveying line 3, a glass bottle mesh belt placing manipulator 4, an annealing furnace 5, eight rows of annealing furnace mesh belts, two sets of glass bottle quality detection devices 7 and two sets of glass bottle automatic boxing devices 8 are arranged on a glass bottle production line; the bottle making machine 1 is positioned at the front part of the production line, the four bottle making machines 1 are arranged in a straight line shape, and the outlet directions of finished bottles are consistent; the front part of the chain type glass bottle conveying line 3 is arranged opposite to a finished product bottle outlet of the bottle making machine 1, and the tail part of the chain type glass bottle conveying line is arranged opposite to an annealing furnace mesh belt 5; the bottle grabbing manipulator 2 is arranged between the bottle making machine 1 and the chain type glass bottle conveying line 3, and each bottle making machine 1 corresponds to one bottle grabbing manipulator 2; the glass bottle mesh belt placing manipulator 4 is arranged between the chain type glass bottle conveying line 3 and the annealing furnace mesh belt 5; the mesh belt 5 of the annealing furnace passes through the annealing furnace 6, and the tail part of the mesh belt is butted with the glass bottle quality detection device 7; the automatic glass bottle boxing device 8 is arranged behind the glass bottle quality detection device 7.

Referring to fig. 2 and 3, the chain type glass bottle conveying line 3 of the glass bottle production line provided with a plurality of bottle making machines is provided with a conveying line motor 3-4, a driving chain wheel 3-2, a driven chain wheel 3-5, a chain 3-1 and a V-shaped graphite tray 3-3; the transmission line motor 3-4 is a stepping motor, and an output shaft of the transmission line motor is fixedly connected with the driving chain wheel 3-2; the driving chain wheel 3-2, the driven chain wheel 3-5 and the chain 3-1 are matched to form a transmission mechanism; the V-shaped graphite trays 3-3 are provided with a plurality of groups which are uniformly arranged at certain intervals and fixedly arranged on the chains 3-1.

Referring to fig. 1, 2 and 3, the glass bottle production line with a plurality of bottle-making machines is provided, in the preferred embodiment, four bottle-making machines 1 are arranged in a longitudinal row, and the arrangement is compact, so that the occupied space of the bottle-making machines is reduced. Finished glass bottles produced by the four bottle-making machines 1 are grabbed by the bottle grabbing manipulator 2 and then transferred to the chain type glass bottle conveying line 3, so that the design is changed from four original conveying lines into one, and the occupied space of equipment and the investment cost of the equipment are further saved. On the chain type glass bottle conveying line 3 of the embodiment, every eight V-shaped graphite trays 3-3 form a conveying unit, the chain 3-1 is driven by a conveying line motor 3-4 to convey four conveying units forwards at each stepping distance, the four conveying units correspond to four bottle making machines 1 respectively (as shown in figure 2, the four conveying units I, II, III and IV correspond to four bottle making machines arranged linearly in sequence, and the four conveying units I, II, III and IV respectively comprise eight V-shaped graphite trays 3-3), and a bottle grabbing manipulator 2 places glass bottles 9 produced by the bottle making machines 1 on the V-shaped graphite trays 3-3 of the corresponding conveying units, so that the glass bottles 9 of the four bottle making machines 1 are orderly discharged from front to back. When the glass bottles 9 move to the tail end along with the chain type glass bottle conveying line 3, the glass bottles reach the side surface of the annealing furnace mesh belt 5, and then the glass bottles are transferred onto the annealing furnace mesh belt 5 through the glass bottle mesh belt placing mechanical arm 4. In this embodiment, eight rows of mesh belts 5 of the annealing furnace are arranged, eight groups of vacuum suction cups are arranged on the manipulator 4 for placing the glass bottles on the mesh belt 5 of the annealing furnace in an odd-even sequence, for example, the manipulator 4 for placing the glass bottles in the mesh belt for placing the glass bottles 1, 3, 5, 7 first sucks eight glass bottles, then places the four glass bottles 2, 4, 6, 8 on the fifth row of the annealing furnace, when the manipulator 4 for placing the glass bottles in the mesh belt for placing the glass bottles for second time picks the glass bottles, the placing positions of the glass bottles are the second row and the sixth row, the third placing is the third row and the seventh row, the fourth placing is the fourth row and the eighth row, and the annealing furnace is operated in a stepping mode under the driving of the motor of the mesh belt 5 of the annealing furnace, the mesh motor of the annealing furnace moves step by the mesh distance of one glass bottle each time, so that the phenomenon that the glass bottles are repeatedly placed at the same position is avoided. The glass bottle is cooled down, quality detection by blowing after annealing, then packs through the automatic boxing device 8 of glass bottle, and two sets of equal bilateral symmetry of glass bottle quality detection device 7 and the automatic boxing device 8 of glass bottle are arranged, and each set corresponds four glass bottles on the annealing stove mesh belt 5, has guaranteed the uniformity of whole production line beat from this, has avoided the glass bottle finished product to pile up the problem at arbitrary process, has guaranteed going on smoothly of production process.

Claims (4)

1. The utility model provides a glass bottle production line of many bottle-making machine equipment of configuration which characterized in that: the automatic glass bottle packing machine comprises a bottle making machine (1), a bottle grabbing mechanical arm (2), a chain type glass bottle conveying line (3), a glass bottle mesh belt placing mechanical arm (4), an annealing furnace mesh belt (5), an annealing furnace (6), a glass bottle quality detection device (7) and an automatic glass bottle packing device (8); the bottle making machines (1) are positioned at the front part of the production line, a plurality of bottle making machines (1) are arranged in a straight line shape, and the outlet directions of finished bottles are consistent; the front part of the chain type glass bottle conveying line (3) is arranged opposite to a finished product bottle outlet of the bottle making machine (1), and the tail part of the chain type glass bottle conveying line is arranged opposite to an annealing furnace mesh belt (5); the bottle grabbing manipulator (2) is arranged between the bottle making machine (1) and the chain type glass bottle conveying line (3), and each bottle making machine (1) is provided with one bottle grabbing manipulator (2); the glass bottle mesh belt placing manipulator (4) is arranged between the chain type glass bottle conveying line (3) and the annealing furnace mesh belt (5); the mesh belt (5) of the annealing furnace penetrates through the annealing furnace (6), and the tail part of the mesh belt is butted with the glass bottle quality detection device (7); the automatic glass bottle boxing device (8) is arranged behind the glass bottle quality detection device (7).

2. A glass bottle manufacturing line equipped with a plurality of bottle making machines according to claim 1, characterized in that: the chain type glass bottle conveying line (3) is provided with a conveying line motor (3-4), a driving chain wheel (3-2), a driven chain wheel (3-5), a chain (3-1) and a V-shaped graphite tray (3-3); the output shaft of the transmission line motor (3-4) is fixedly connected with the driving chain wheel (3-2); the driving chain wheel (3-2), the driven chain wheel (3-5) and the chain (3-1) are matched to form a transmission mechanism; the V-shaped graphite trays (3-3) are provided with a plurality of groups which are uniformly arranged at certain intervals and fixedly arranged on the chains (3-1).

3. A glass bottle manufacturing line provided with a plurality of bottle making machines according to claim 2, characterized in that: the bottle making machine (1) is provided with four machines; the glass bottle mesh belt placing mechanical arm (4) and the annealing furnace (6) are both provided with one; eight rows of annealing furnace mesh belts (5) are arranged and driven by an annealing furnace mesh belt motor to run; the glass bottle quality detection device (7) and the glass bottle automatic box packing device (8) are respectively provided with two sets, and are arranged on two sides of the rear end of the mesh belt (5) of the annealing furnace in a bilateral symmetry manner.

4. A glass bottle manufacturing line equipped with a plurality of bottle making machines according to claim 3, characterized in that: the motors (3-4) and the mesh belt motor of the annealing furnace are stepping motors.

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