JP2934755B2 - Pneumatic conveyor for communication between the lightweight bottle ramp and the reference road - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conveyor for connecting a slope of a lightweight bottle to a reference path.

[0002]

2. Description of the Related Art Conventionally, lightweight bottles made of synthetic resin (for example, PET bottles having a capacity of 1.5 liters) have been used for storing juice, soy sauce, other liquid foods and the like. The lightweight bottle has a head (in this specification, a cylindrical portion that includes the entrance and exit of the contained liquid,
An annular neck ring protrudes between a screw groove for screwing the cap on the outer peripheral surface thereof and a main body connected thereto.

[0003] An air conveyor is used to transport the lightweight bottle in a manufacturing process, a filling process of a liquid to be stored, and the like. In this air conveyor, lightweight bottles are transported along the following transport path. A transport path on a substantially horizontal plane, which includes a case where the transport path is slightly inclined with respect to the horizontal plane, is hereinafter referred to as a “reference path” in this specification. A transport path that is inclined in the ascending or descending direction ... A transport path that is inclined with a certain gradient with respect to the horizontal plane.
There are a case where the lightweight bottle is transported in the upward direction of the transport path and a case where the lightweight bottle is transported in the downward direction. In this specification,
Also referred to as a "slope." By the way, the bottle being transported has its head pressed against the traveling direction by the air jet. That is, a constant pressing force is applied.

When a lightweight bottle is connected from the reference path to the inclined path or from the inclined path to the reference path, the bottle is similarly subjected to a constant pressing force, and a substantially arc-shaped connecting path connecting both paths. Can be moved. On the other hand, a lightweight bottle is hung by placing a neck ring located near the upper end on a bottle support band. Since the movement locus of the arc below the suspended bottle is shorter than that above the bottle, the movement amount is naturally small (see FIG. 5).

[0005] Therefore, a bottle to which a constant pressing force is exerted tends to move downward with a relatively small amount of movement. In other words, the bottle tends to be in a forward bending position with the lower side toward the front. Then, the front part of the shoulder portion of the bottle that protrudes forward and comes into contact with the lower surface of the bottle support band may temporarily stop due to the frictional force.

When one bottle being transported stops, congestion of the entire lightweight bottle group to be transported is induced, and the transport line stops. In addition, the shoulder of the bottle abutting the lower surface of the bottle support band is scratched, and its commercial value is lost.

[0007]

SUMMARY OF THE INVENTION Therefore, in the invention of this application, a light bottle can be transported between a slope and a reference path without causing stagnation of a group of lightweight bottles. The task is to raise an air conveyor.

[0008]

In order to achieve the above object, the invention of the present application employs the following technical means. That is, a lightweight bottle B having a neck ring is
By hanging the neck ring with a bottle support band 3 continuously provided along the transport path and pressing the head of the bottle B with an air jet, the slope is moved from the reference path to the reference path or from the reference path to the ramp. When the ink is conveyed through a substantially arcuate communication path connected to the bottle B, an air jet is applied to the main body of the bottle B in a direction opposite to the traveling direction.

The guide groove 30 for limiting excessive swinging of the lightweight bottle B during the transfer may be formed continuously along the transfer path.

[0010]

As a result, the invention of this application has the following functions. A lightweight bottle B having a neck ring is suspended from the bottle with a bottle support band 3 provided along the conveying path, and the bottle B
By pressing the head of the bottle B with an air jet, when transporting on a substantially arcuate connection path connecting from the slope to the reference path or from the reference path to the slope, the bottle B , An air jet is exerted in a direction opposite to the traveling direction.

Then, the moving speed of the main body located below the head of the bottle B is relatively reduced as compared with the upper head by the air jet applied in the direction opposite to the traveling direction. . Therefore, it is possible to prevent the lower part of the bottle B from going ahead, and it is possible to prevent the posture of the front end having the lower part of the bottle B as the tip.

[0012]

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing an air conveyor for communicating between a slope of a lightweight bottle B and a reference path according to the present invention. The lightweight bottle B to be conveyed by the pneumatic conveyor according to the present invention (see FIGS. 3 and 4) has, as described in the section of the prior art, a neck and a neck protruding between both the head and the main body. Consists of a ring and.
Usually, it is formed of a synthetic resin such as PET, but any material can be used as long as it can be conveyed by being pressed by an air jet.

The communication air conveyor according to the present invention includes:
There is a case where the lightweight bottle B is communicated from the ramp to the reference road (FIG. 1), and a case where the lightweight bottle B is communicated from the reference road to the ramp (FIG. 2). By the way, prior to the description of the present invention, a brief description will be given for smoothly carrying out the present invention, such as a case of carrying along a reference road and a case of carrying along an inclined road. 1. Brief description when transporting a reference road or a slope [A] When transporting a lightweight bottle along a reference road In the reference route, a lightweight bottle B is transported by the following configuration. (1) A pressurized air chamber 1 formed continuously along a reference path. (2) An air jet chamber 2 to apply an air jet supplied from the pressurized air chamber 1 to the head of the bottle B. (3) The bottle B is disposed continuously below the pressurized air chamber 1
Support band 3 to guide the neck ring of the bottle. (4) A swing preventing rod 4 for preventing the bottle B from swinging excessively.

The configurations (1) to (4) will be described. (1) Pressurized air chamber and (2) Air jet chamber The pressurized air chamber 1 is formed above the reference path of the lightweight bottle B so as to surround the air jet chamber 2 through the partition wall 10. . On the other hand, a plurality of openings formed so as to have directivity in the transport direction on a partition wall 10 connected to a pressurized air source (not shown) and the air jet chamber 2 on the other hand. It has 12. The directivity of the air jet ejected from the opening 12 was imparted by piercing the opening 12 in the transport direction. The air jet is supplied to the head of the bottle B in the air jet chamber 2 through the opening 12, and the lightweight bottle B is pressed and transferred. (3) Bottle support band 3 The bottle support band 3 for defining the transport path of the neck ring of the bottle B is fixed to the partition wall 10 forming the lower surface of the pressurized air chamber 1. The bottle support band 3 is formed of a pair of plate members made of ultrahigh-molecular-weight polyethylene, and extends continuously along a reference path. These are opposed to each other with a space slightly larger than the diameter of the head of the bottle B to be conveyed, and a single groove is continuously formed on the opposite side. This groove is the guide groove 30 of the neck ring of the bottle B.

The guide groove 30 explains a structure corresponding to the invention described in claim 2 of the present application, and conveys the bottle B between the guide grooves 30 by sliding its neck ring. I do. In this case, the bottle support band 3
It was even more preferable than the type in which the lightweight bottle B was hung on the lower surface of the neck ring placed on the bottom. As a result of searching for the optimum value of the width of the guide groove 30 of the neck ring, the following range is most preferable. The width of the guide groove 30 is set as follows according to the shape of the neck ring.

First, when the neck ring has a shape whose thickness gradually decreases toward the outer periphery, the thickness of the thickest part of the neck ring of the bottle B is A mm, Assuming that the thickness of the outer periphery of the ring is B mm, the guide groove 3
The vertical width of 0 is set to a value between A + 0.5 mm and B × 3 mm. When the neck ring has substantially the same thickness toward the outer periphery, the thickness of the neck ring of the bottle B is A mm, and the vertical width of the guide groove 30 is A + 0.5 mm and A + 0.5 mm. Set to a value between × 3 mm.

When the width of the guide groove 30 is set within the above range, the neck ring of the bottle B has an appropriate play between the guide grooves 30 due to a synergistic effect with the air jet ejected from the air jet chamber 2. It can slide and prevent scratches on the shoulder. Next, the reason why the ultra-high-molecular-weight polyethylene was adopted as the material of the bottle supporting band 3 is that, as can be understood from the fact that this resin is also used for the sliding surface of skis, its low friction coefficient and low wear Depends on gender. That is, when the bottle B to be conveyed is made of synthetic resin, both are made of synthetic resin, so that the bottle B and its neck ring are more flawed than when the bottle support band 3 is formed using metal or the like. In addition, the transfer between the bottle and the neck ring of the bottle B can be carried out smoothly (low friction coefficient), and wear due to long-term use is low (low abrasion). In other words, it is preferable to use a synthetic resin having such properties in addition to the ultrahigh molecular weight polyethylene. (4) Oscillation Prevention Bar An anti- sway bar 4 is fixed from the side wall of the pressurized air chamber 1 via an attachment member so as to extend substantially along the center of the main body of the bottle B. The anti-swing bar 4 also extends along the reference path, and the contact surface with the bottle B is covered with a fluororesin sheet 40. This fluororesin sheet 40
Thereby, the sliding property of the contact surface of the bottle B with the swing prevention rod 4 is improved. By providing the swing prevention bar 4, excessive swinging of the bottle B in the horizontal direction during the conveyance can be prevented.

Next, a case in which the lightweight bottle B is transported along a slope will be described. [B] When a lightweight bottle is transported along a ramp: In the ramp, the above-mentioned reference path is used for (1) pressurized air chamber 1, (2) air jet chamber 2, (3) bottle support band. Along with 3, the lightweight bottle B is transported by the following (5). (5) Vertical attitude maintaining air jet supply chamber On both sides of the ramp of the main body of the lightweight bottle B, the vertical attitude maintaining air jet supply chamber 5 is extended. Like the pressurized air chamber 1, the vertical attitude maintaining air jet supply chamber 5 is connected to a pressurized air source (not shown) on the one hand, and exerts a pressing force in the upward direction of the ramp. It has a plurality of air outlets 50 formed to have directivity as much as possible. The directivity of the air jet spouting from the air outlet 50 was provided by piercing the air outlet 50 in the upward direction of the ramp.
An air jet is supplied to the main body of the bottle B through the blower port 50, and the lightweight bottle B is subjected to a pressing force in the upward direction of the slope.

The air jet is set such that the axis of the bottle B is substantially perpendicular to the conveying direction of the inclined path. At this time, if the air jet is applied slightly above the position of the center of gravity of the bottle B, the posture of the bottle B is most easily maintained. By the way, when the lightweight bottle B is transported along the slope, there are cases where it is transported in the ascending direction and cases where it is transported in the descending direction. (A) When the lightweight bottle is transported in the ascending direction , the air jet is supplied in the transport direction to the head of the bottle B in the air jet chamber 2, and the air jet for maintaining the vertical attitude is also supplied to the main body of the bottle B. An air jet is applied from the chamber 5 in the upward direction of the ramp.

In this way, the force constantly acting on the bottle B in order to return the axis of the bottle B to gravity in the vertical direction is offset by the air jet ejected from the air jet supply chamber 5 for maintaining the vertical attitude. In addition, the bottle B can be conveyed while maintaining its axis substantially perpendicular to the traveling direction of the ramp. (B) When the lightweight bottle is transported in the descending direction , the air jet is supplied in the transport direction to the head of the bottle B in the air jet chamber 2, while the main body of the bottle B is supplied with the air jet for maintaining the vertical posture. An air jet is applied from the chamber 5 in the upward direction of the ramp.

By doing so, the force constantly acting on the bottle B to return the axis of the bottle B to gravity in the vertical direction is offset by the air jet jetted from the vertical attitude maintaining air jet supply chamber 5, The axis of the bottle B is maintained substantially perpendicular to the conveying direction of the ramp, and is pressed and transferred in the descending direction of the ramp. 2. Description of the Invention of the Present Invention The communication air conveyor according to the present invention has a case where the lightweight bottle B is communicated from the slope to the reference road (FIG. 1) and a case where the lightweight bottle B is communicated from the reference road to the slope ( (Fig. 2)
There is. [A] When the Lightweight Bottle is Connected from the Ramp to the Reference Road The air conveyor according to the present invention, when connecting the lightweight bottle B conveyed in the ascending direction along the ramp to the reference road, is as follows. (See FIG. 1). [For ramps, see 1. [B]. The description of (a) will be made based on the above-described 1 .. See the description of [A]. The following configuration is continuously formed along an arcuate connecting path connecting the two paths. They are a pressurized air chamber 1, an air jet chamber 2, and a bottle support band 3 (each described in 1. above).
[A]. (1) Like (2) and (3), details are not shown in FIG. 3 or FIG. 4). These are connected so that the bottle B can be smoothly communicated from the ramp to the reference path.

Further, the pressurized air chamber 1, the air jet chamber 2,
Together with the bottle support band 3, an air jet supply chamber 6 for controlling the attitude of the lightweight bottle B is formed. The attitude control air jet supply chamber 6 is provided on both sides of the communication path of the lightweight bottle B with the vertical attitude maintenance air jet supply chamber 5 (1. [B]. (5) described above; see FIG. 3 or FIG. 4). And has a substantially similar configuration.

Here, the air jet supply chamber 5 for maintaining the vertical attitude is provided.
The difference from this is in the directivity of the air outlet (not shown in FIG. 1; see FIG. 4). A plurality of air outlets are formed with directivity to apply an air jet to the main body of the bottle B in a direction opposite to the traveling direction. The directivity of the air jet ejected from the air outlet was provided by opening the air outlet in a direction opposite to the traveling direction. That is, the direction of the direction of the air outlet 50 of FIG. 4 is reversed.

Accordingly, the direction of the air jet jetting toward the main body of the bottle B is also different (see the direction of the arrow indicating the direction of the air jet in FIG. 1). When the bottle B was being conveyed in the ascending direction, an air jet was exerted toward the ascending direction of the ramp, and was in the same direction as the traveling direction of the bottle B. However, the air jet is supplied from the attitude control air jet supply chamber 6 to the main body of the bottle B in a direction opposite to the traveling direction.

Then, the main body located below the head of the bottle B is in a so-called brake state. Therefore, the lower moving speed of the bottle B is relatively reduced as compared with the upper head by the air jet exerted in the direction opposite to the traveling direction. Therefore, it is possible to prevent the lower part of the bottle B from going ahead, and it is possible to prevent the posture of the front end having the lower part of the bottle B as the tip. [B] When Light Bottles are Connected from the Reference Road to the Ramp This air conveyor is as follows when the lightweight bottle B conveyed along the reference road is connected to the ramp (FIG. 2). reference). [Refer to 1. [A]
The description in 1. above is applied to the reference road with respect to the reference road. [B]. (B)
See description. Similar to the case where the lightweight bottle is connected from the slope to the reference road, the following configuration is continuously formed along the arc-shaped communication path connecting the two paths. They are a pressurized air chamber 1, an air jet chamber 2, and a bottle support band 3 (respectively,
1. As described above. [A]. (1) Like (2) and (3), details are not shown in FIG. 3 or FIG. 4). These are connected so that the bottle B can be smoothly communicated from the ramp to the reference path.

Further, the pressurized air chamber 1, the air jet chamber 2,
Together with the bottle support band 3, an air jet supply chamber 6 for controlling the attitude of the lightweight bottle B is formed. The attitude control air jet supply chamber 6 is provided on both sides of the communication path of the lightweight bottle B with the vertical attitude maintenance air jet supply chamber 5 (1. [B]. (5) described above; see FIG. 3 or FIG. 4). And has a substantially similar configuration.

The air outlet (not shown in FIG. 2; see FIG. 4) of the attitude control air jet supply chamber 6 has the same directivity as the vertical attitude maintenance air jet supply chamber 5 (see FIG. 4). (See the direction of the arrow indicating the direction of the air jet in No. 2). The air outlet is
A plurality of bottles B are formed with directivity so as to apply an air jet to the main body of the bottle B in a direction opposite to the traveling direction.
The directivity of the air jet ejected from the air outlet was provided by opening the air outlet in a direction opposite to the traveling direction.

That is, 1. [B]. As described in (b), when the bottle B is transported in the descending direction of the ramp, an air jet is applied to the main body of the bottle B in the upward direction of the ramp. It is in the same direction as the air jet applied from the air jet supply chamber 6. Therefore, when the bottle B is connected from the reference path to the slope, the bottle B is transferred from the attitude control air jet supply chamber 6 to the main body of the bottle B in the arc-shaped connection path in a direction opposite to the traveling direction. An air jet is exerted.

Then, the main body located relatively below the head of the bottle B is in a so-called braked state. Therefore, the lower moving speed of the bottle B is relatively reduced as compared with the upper head by the air jet exerted in the direction opposite to the traveling direction. Therefore, it is possible to prevent the lower part of the bottle B from going ahead, and it is possible to prevent the posture of the front end having the lower part of the bottle B as the tip.

[0030]

The invention of this application has the above-mentioned structure, and can prevent the posture of the forward bending with the lower part of the bottle B toward the front. Friction caused by contact with the lower surface can be eliminated, and therefore, a situation in which the bottle B is temporarily stopped cannot occur.

Accordingly, it is possible to provide an air conveyor for communicating between the slope of the lightweight bottle B and the reference path, which can transport the lightweight bottle B between the slope and the reference path without inducing stagnation of the group of lightweight bottles B.

[Brief description of the drawings]

FIG. 1 shows a communication air conveyor according to the invention of the present application.
The front view explaining a mode that a lightweight bottle is connected from a slope to a standard road.

FIG. 2 shows a communication air conveyor according to the invention of the present application.
The front view explaining a mode that a lightweight bottle is connected from a standard way to a slope.

FIG. 3 is a cross-sectional perspective view of a main part, illustrating how a lightweight bottle is transported along a reference path.

FIG. 4 is an essential part cross-sectional perspective view for explaining how the lightweight bottle is transported along a ramp.

FIG. 5 is a front view illustrating a state in which a lightweight bottle is transported along a substantially arcuate communication path.

[Explanation of symbols]

 3 Bottle support band 30 Guide groove B Lightweight bottle

──────────────────────────────────────────────────続 き Continued on the front page (72) Mae Nakama, Inventor 172 Ikezawa-cho, Yamatokoriyama-shi, Nara Nita Plant Inside Nara Plant (72) Inventor Masafumi Suzuki 172 Ikezawa-cho, Yamatokoriyama-shi, Nara Nita Corporation Inside the factory (56) References JP-A-58-17013 (JP, A) (58) Fields investigated (Int. Cl. ⁶ , DB name) B65G 51/03 B65G 47/74

Claims (2)

(57) [Claims] 1. A lightweight bottle B having a neck ring
By hanging the neck ring with a bottle support band 3 provided along the transport path and pressing the head of the bottle B with an air jet, from the slope to the reference path or from the reference path. When conveyed along a substantially arcuate connecting path connected to a ramp, the ramp of the lightweight bottle is characterized by applying an air jet to the main body of the bottle B in a direction opposite to the traveling direction. Pneumatic conveyor for communication with the reference road. 2. The slope of a lightweight bottle according to claim 1, wherein the guide groove for limiting excessive swinging of the lightweight bottle during transport is formed continuously along the transport path. Pneumatic conveyor for communication with the reference road.