JPH07137840A - Air flow conveyer device for conveying molded vessel - Google Patents

Abstract

PURPOSE:To reduce frictional resistance between a neck guide rail and a molded vessel, so that the vessel can be smoothly conveyed to prevent its flaw from bening generated, further mixing dust in a vessel mouth part can be prevented, and a device can easily correspond to the vessel of different bore with no remolding required. CONSTITUTION:By vertically jetting floating air to the bottom part of a conveyed vessel 50 by a floating air supplier 3, the conveyed vessel 50 is always floated vertically from a neck guide rail 5, and in this condition, by jetting air in a propulsive direction to a barrel part by a propulsive air supplier 2, the conveyed vessel 50 is conveyed in almost a vertical condition relating to a conveying path. The neck guide rail 5 is provided with a space adjustable relating to a fixed supporting member 8.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an airflow conveyor device for conveying a molded container such as a lightweight bottle having a neck ring.

[0002]

2. Description of the Related Art Conventionally, an air flow conveyor device for carrying a lightweight bottle having a neck ring supports a neck ring on a neck guide rail to support the lightweight bottle in a hanging state and jets propulsion air near the head. As a result, it is pushed and conveyed by air pressure. In this case, the bottle being conveyed is in a forward leaning position because the vicinity of the head is pushed by the propelling air, and the neck ring and shoulder of the bottle are easily scratched by rubbing against the neck guide rails, and dust generated by it is generated. There is a problem such as mixing into the mouth of the transported container.
In particular, in the inclined portion and the curved portion of the conveying path, the inclination angle of the neck ring with respect to the neck guide rail increases, and the frictional resistance increases, which is a large tendency.

Conventionally, in order to solve such a problem, for example, the neck ring is fitted and supported by a bottle support band provided with a guide groove for regulating the inclination of the neck ring to regulate the inclination of the bottle within a certain range. (Japanese Patent Laid-Open No. 4-3
No. 41422) or a method in which an attitude control air jet is applied to the bottle body to suppress the inclination with the neck guide rail (JP-A-4-34123). ing.

However, in all of these conventionally proposed methods, the weight of the bottle is basically supported by supporting the neck ring by the guide rail, and propelling air is jetted to the portion to carry the bottle. Therefore, the frictional force between the guide rail and the neck ring acts, and it is still difficult to completely eliminate the above problems.

Further, in all of the conventional ones, propelling air is jetted to the neck guide rail portion, so that a guide rail must be provided in the air jet chamber. Therefore, when carrying lightweight bottles with different diameters, it was necessary to perform a troublesome mold changing operation each time.

[0006]

SUMMARY OF THE INVENTION The present invention is intended to solve the above-mentioned problems of the conventional airflow conveyor device for conveying a molded container such as a lightweight bottle having a neck ring. When it is possible to prevent the occurrence of flaws in the molded container by reducing the frictional resistance between the container and the container, and to prevent dust from mixing in from the container mouth due to wind pressure air, and when transporting a transported container with a different diameter. It is an object of the present invention to provide an airflow conveyor device for conveying a molded container which can be easily handled without requiring a mold change.

[0007]

SUMMARY OF THE INVENTION An airflow conveyor device for conveying a molded container according to the present invention, which solves the above problems, is a neck guide device for guiding a neck ring of a conveyed container,
A propulsion air supply device that supplies propulsion air to both sides of the body of the transported container and a levitation air supply device that supplies levitation air to the bottom of the transported container are provided along the transport path. The technical means is characterized by.

[0008] The propulsion air supply device is, as one aspect,
It has a pair of propulsion air supply plenums facing each other on both sides of the conveyance path, and air jet injection holes inclined in the container conveyance direction are formed on a pair of inner side walls facing each other of the propulsion air supply plenums. An air jet jet plate is provided,
The levitation air supply device has a levitation air supply plenum provided along the bottom of the transfer path, and an air jet injection hole perpendicular to the container transfer direction is provided on the upper wall of the levitation air supply plenum. The formed air jet jet plate is provided and configured.

Further, the neck guide device has a pair of neck guide rails for guiding the neck ring of the transported container, and the spacing between the neck guide rails is fixed to a fixed support member provided at a predetermined interval above the transport path. By attaching to a movable support member that is supported so that it can be displaced in the width direction as much as possible, it is possible to easily change the transferred container with different diameters of the transferred container without the need for complicated mold changing work. Can respond.

Further, the neck guide device has a pair of neck guide rails for supporting the neck ring of the container, and the pair of neck guide rails are provided in a width direction on a fixed support member provided at a predetermined interval above the conveying path. Is attached to a movable support member that is displaceably supported on the movable support member, and the movable support member is configured to be automatically displaced in the width direction of the transport path by an automatic displacing means. The neck guide rail interval can be automatically changed.

[0011]

By the levitation air supply device provided along the transport path, the levitation air is jetted vertically to the bottom of the transported container, so that the transported container is always lifted vertically from the neck guide rail. Become. In this state, air is jetted from the propulsion air supply device to the body of the transported container in the propelling direction, so that the transported container moves in a state substantially vertical to the transport path and is moved to a predetermined position along the transport path. Be transported to.

Since the container to be transported during the transportation is in a state of being floated by the levitation air, the friction resistance applied to the neck ring is eliminated and the container can be transported at a high pressure and a low air flow rate. Then, by propelling the propelling air to the body of the container, the transported container can be moved in a state almost vertical to the transport path, it is possible to prevent flaws in the container, and only the horizontal straight transport path can be used. Even if it is a corner portion conveyance path or an inclined conveyance path, it can be smoothly conveyed, and the conveyance container can be conveyed in a stable state.

Further, when a molded container having a different diameter is conveyed, the movable guide member of the conveying guide device exposed upward is moved with respect to the fixed support member so that the neck guide rail is moved at a predetermined interval. Can be adjusted,
Can easily change the bottle to be transported. According to the structure of claim 4, the adjusting member can be automatically displaced by the automatic displacing means, and the neck guide rail can be automatically adjusted to a predetermined interval.

[0014]

Embodiments of the present invention will now be described in detail with reference to the drawings. 1 to 3 show essential parts of an airflow conveyor device for carrying a lightweight bottle (hereinafter, simply referred to as a bottle) as a molding container according to an embodiment of the present invention,
FIG. 4 is a perspective view of a horizontally arranged portion, and FIG. 5 is a side view of a vertically inclined portion. The main components of the air flow conveyor device of the present embodiment are a neck guide device 1 for guiding the neck ring 41 of the lightweight bottle 40 which is a container to be transported, and a propelling air for supplying propelling air to both side surfaces of the upper body of the bottle. It has a supply device 2 and a levitation air supply device 3 for supplying levitation air below the bottom of the bottle. Less than,
Each of these configurations will be described in detail.

Neck Guide Device As shown in FIGS. 1 and 4, the neck guide device 1 includes a pair of left and right neck guide rails 5 for supporting a neck ring of a bottle and a pair of propulsion air supplies supported by a main frame 6. The plenum 7 is attached to a movable support member 9 suspended from a fixed support member 8 provided at a predetermined interval on the upper surface of the plenum 7. The movable support member 9 is provided so as to pass through a width adjustment groove formed in the fixed support member 8, and the adjustment nut 1
It can be moved in the left-right direction in FIG. 1 by loosening 1, and the interval of the neck guide rails 5 can be easily adjusted according to the size of the diameter of the transported container.

Propulsion air supply device The propulsion air supply device 2 supplies the propulsion air to both side surfaces of the body below the neck of the bottle to be conveyed guided by the neck guide device 1 so as to supply side air to the conveyance path. A propelling air supply plenum 7 is disposed on both sides of the propelling air supply plenum 7 and an air jet jet plate 12 forming inner side walls of the propelling air supply plenum 7 facing each other. As shown in FIG. 2, the air jet jet plate 12 is provided with a large number of air jet jet holes 13 inclined in the bottle carrying direction.
Propulsion air is jetted to both side surfaces of the upper body of the transported bottle to give a propelling force to the transported bottle.

[0017]Ascending feeder  The levitation air supply device 3 is similar to the neck guide device 1.
Floatation air is supplied to the bottom of the bottle to be transported inside.
For levitation placed along the bottom of the transport path to feed
The air supply plenum 15 and the air gage forming the inner wall thereof.
And a jet jet plate 16. The air jet
As shown in FIG. 3, the jet plate 16 has a large number in the vertical direction.
Air jet injection holes 17 are formed on the bottle to be transported.
It is designed to give levitation. Air supply for levitation
The plenum 15 includes a mainframe 6 as shown in FIG.
Base 1 supported by height adjusting bolts 18 provided on
9, the height of the bottle depends on the height of the bottle to be transported.
The position can be adjusted freely.

In this embodiment, the air jet jet plate 16 is provided with a large number of air jet jet holes 17 for levitation along the central portion, and a large number of air jet jet holes 17 are formed along both sides of the air jet jet holes 17 in the bottle propelling direction. The air jet injection hole 18 is formed to inject a propelling air jet to the bottom of the bottle. As a result, air in the propelling direction is jetted to the body and bottom of the floated transported bottle, and the bottle can be transported more stably while maintaining the vertical state with respect to the transport surface.

Air is supplied to the propulsion air supply plenum 7 and the floating air supply plenum 15 in the present embodiment.
As shown in FIG. 4, the propulsion air supply plenum 7 is supplied from the air supply unit fan 20 through the air supply duct 21.
To the relay duct 2 from the propulsion air supply plenum 7.
2 is configured to be supplied to the floating air supply plenum 15. In addition, each of the air jet jet plates 1
Air control dampers are provided at various points of the airflow conveyor body so that the air pressures injected from the nozzles 2 and 16 can be controlled freely.

In FIG. 1, reference numeral 23 denotes a barrel guide rail provided to prevent the bottle from swaying in the lateral direction, which is provided along both sides of the transport path so as to restrain the lower barrel side surface of the bottle. Has been. The bottle body guide rail 23 is fixedly provided on an adjusting rod 24 which is provided so as to be capable of protruding and adjusting in the width direction with respect to the main frame, and its interval can be adjusted according to the difference in the body diameter of the transported container. It has become.

FIG. 6 shows another embodiment of the airflow conveyor device for a molding container according to the present invention. In this embodiment, when a molding container having a different diameter of the container to be conveyed is conveyed, the interval between the neck guide rails is automatically adjusted. It can be adjusted manually. In this embodiment, only the neck guide device is different from the above embodiment, so only the device will be described, and other common parts are denoted by the same reference numerals as those in the above embodiment, and detailed description thereof will be omitted.

The neck guide device 30 of this embodiment includes a pair of neck guide rails 31 arranged along the conveying path.
And a support means 32 composed of a movable support member and a fixed support member for movably supporting the neck guide rail in the width direction of the conveyance path, and an adjusting means 33 for adjusting movement of the movable support member in the width direction. . The support means 32 has a fixed support member 35 provided at a predetermined interval on the upper portion of the propulsion air supply plenum 7, and a pin 37 fitted on the side portion of the fixed support member 35.
And a movable support member 38 having a neck follower rail 31 attached to the lower part and an upper part bent inward to form a cam follower surface. The movable support member 38 is urged by the spring 36 in the direction in which the pin 37 projects from the fixed support member 35, and the cam follower is constantly in pressure contact with the cam surface 41 of the cam member 42 of the adjusting means 33. .

The adjusting means 33 vertically supports a stroke adjustable cylinder 40 on a bracket 39 provided on the fixed support member 35, and a piston rod of the cylinder 40 has a cam surface 41 tapered. The cam member 42 is fixed.

The neck guide device 30 of this embodiment is constructed as described above, and the cam member 42 is displaced up and down by operating the cylinder 40, whereby the movable support is pressed against the taper-shaped cam surface 41. The member 38 is displaced to the left and right in the figure, and the interval between the neck guide rails 31 can be adjusted arbitrarily. Therefore, in the apparatus of this embodiment, the interval between the neck guide rails can be automatically adjusted by driving the cylinder 40 in accordance with the change in the diameter of the bottle to be conveyed, and the conventional mold changing work can be performed. do not need.

[0025]

The airflow conveyor device for conveying a molded container of the present invention has the following special effects. Since the transported container is in a state of being floated by the levitation air during the transportation, the friction resistance applied to the neck ring is eliminated, and the transported container can be transported at a high pressure and a low air flow rate. Further, it is possible to prevent the container from being scratched, and it is possible to smoothly convey not only the horizontal straight conveying path but also the corner portion conveying path or the inclined conveying path, and the conveying container can be conveyed in a stable state. You can

Since propelling air is jetted to the body of the transported container, it is possible to prevent dust from entering the container mouth, and it is not necessary to provide a guide rail in the air jet chamber, and the construction is simple. Is.

According to the third or fourth aspect of the invention, when the molded containers having different caliber are conveyed, the movable supporting member of the conveying guide device exposed upward is moved with respect to the fixed supporting member. The neck guide rails can be adjusted to a predetermined interval, so that it is possible to easily change the bottle to be transported.

Further, according to the structure of claim 4, the adjusting member can be automatically displaced by the automatic displacing means, and the neck guide rail can be automatically adjusted to a predetermined interval.

[Brief description of drawings]

FIG. 1 is a front view of an airflow conveyor device for conveying a molded container according to an embodiment of the present invention.

FIG. 2 is a configuration diagram of an air jet jet plate of the propulsion air supply device.

FIG. 3 is a configuration diagram of an air jet jet plate of the levitation air supply device.

FIG. 4 is a perspective view of a horizontal conveyance path portion of an airflow conveyor device for conveying a molding container according to an embodiment of the present invention.

FIG. 5 is a side view of an inclined conveyance path setting portion of an airflow conveyor device for conveying a molding container according to an embodiment of the present invention.

FIG. 6 is a front view of an airflow conveyor device for conveying a molding container according to another embodiment of the present invention.

[Explanation of symbols]

1, 30 Neck guide device 2 Propulsion air supply device 3 Floating air supply device 5, 31 Neck guide rail 7 Propulsion air supply plenum 8, 35
Fixed support member 9,38 Movable support member 12,16 Air jet jet flow plate 13,17 Air jet injection hole 33 Adjusting means

[Procedure amendment]

[Submission date] December 28, 1993

[Procedure Amendment 1]

[Document name to be amended] Statement

[Correction target item name] 0018

[Correction method] Change

[Correction content]

In this embodiment, the air jet jet plate 16 is provided with a large number of air jet jet holes 17 for levitation along the central portion, and a large number of air jet jet holes 17 are formed along both sides thereof in the bottle propelling direction. Air jet injection hole 1
7'is formed so as to inject a propelling air jet at the bottom of the bottle. As a result, air in the propelling direction is jetted to the body and bottom of the floated transported bottle, and the bottle can be transported more stably while maintaining the vertical state with respect to the transport surface.

[Procedure Amendment 2]

[Document name to be amended] Statement

[Name of item to be corrected] Figure 3

[Correction method] Change

[Correction content]

3A and 3B are configuration views of an air jet incandescent plate of a floating air supply device, FIG. 3A is a front vertical cross-sectional view, and FIG. 3B is a plan view thereof.

[Procedure 3]

[Document name to be corrected] Drawing

[Name of item to be corrected] Figure 3

[Correction method] Change

[Correction content]

[Figure 3]

Claims (4)

[Claims] 1. A neck guide device for guiding a neck ring of a transported container, a propelling air supply device for supplying propelling air to both side surfaces of a body of the transported container, and a floating air for supplying a bottom portion of the transported container. An air flow conveyor device for conveying a molding container, characterized in that each of the levitation air supply devices is provided along a conveyance path. 2. The propulsion air supply device has a pair of propulsion air supply plenums which are arranged on both sides of a conveyance path so as to face each other, and container conveyance is provided on a pair of inner side walls facing each other of the propulsion air supply plenum. An air jet jet plate having air jet injection holes inclined in a direction is provided, and the levitation air supply device has a levitation air supply plenum provided along the bottom of the conveyance path. The air flow conveyor device according to claim 1, wherein an air jet jet plate having vertical air jet jet holes is provided on an upper wall of the air supply plenum. 3. The neck guide device has a pair of neck guide rails for guiding the neck ring of the transported container, and the neck guide rails are provided in a fixed support member provided at a predetermined interval above the transport path in the width direction. The airflow conveyor device according to claim 1 or 2, wherein the airflow conveyor device is attached to a movable support member that is supported so as to be displaceable to the inside. 4. The neck guide device has a pair of neck guide rails for supporting a neck ring of a transported container, and the pair of neck guide rails are fixed support members provided at predetermined intervals above a transport path. The airflow conveyor device according to claim 1 or 2, wherein the airflow conveyor device is attached to a movable support member that is supported so as to be displaceable in the width direction, and the movable support member is automatically displaced in the width direction of the conveyance path by an automatic displacement means.