JPH10151425A - Washing device for vessel - Google Patents

Abstract

PROBLEM TO BE SOLVED: To efficiently and surely wash the base of a vessel. SOLUTION: Vessels 2 carried by a carrier conveyor are delivered to an inlet star wheel 10 rotated synchronously with an in-feed screw at an interval with a prescribed pitch via the in-feed screw. The vessels 2 rotated and carried by the inlet star wheel 10 are moved while the bases 2a are supported by a ferry plate 12 arranged in the lower part. The vessels 2 are supplied from the star wheel 10 to the bottle gripper 18 of a rotor and thereafter turned over and become a handstand state to perform washing and hydro-extraction. A bottle base washing mechanism 26 for injecting washing water on the bases 2a of the vessels 2 is provided on the downstream side of the ferry plate 12 and on the upstream side of the position starting reversion. Washing water is injected toward the bases 2a of the vessels 2 standing up straightly from the lower part in the vertical direction and washing is performed.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a container cleaning apparatus and, more particularly, to a container cleaning apparatus for cleaning a container gripped by a bottle gripper by turning the container upside down.

[0002]

2. Description of the Related Art FIG. 6 is a schematic plan view showing an example of a conventional container cleaning apparatus, and FIG. 7 is a flow chart for explaining a cleaning process by the container cleaning apparatus. Is the bottle cleaning nozzle 1
After the bottle 102b has been cleaned by 06, it is introduced into the rotating body 116 through the inlet starwheel 110,
The rotating body 116 is delivered to a plurality of bottle grippers (not shown) provided at equal intervals in the circumferential direction.
The bottle gripper holding the container 102 is a cam rail 1
The container 102 is inverted by an inversion mechanism such as 20 to bring each container 102 upside down. A bottle bottom cleaning nozzle 128 is provided in the container reversing zone 100B, and the container 1 in the middle of reversing is provided.
02 is sprayed on the bottom surface 102a of the
Wash a.

[0003] In a washing zone 100c following the reversing zone 100B, a high-pressure inner washing jet nozzle 117 provided on the rotating body 116 and moving integrally with the bottle gripper.
The washing water is sprayed from inside the container 102 to clean the inside of the container 102, and the outer washing nozzle 12 fixed to the main body.
The cleaning liquid is sprayed onto the outer surface of the container 102 by 2 to wash the outer surface of the container. Thereafter, the container 102 is transported in the inverted state in the draining zone 100D and drained. After that, the container 102 is inverted again in the discharge-side inversion zone 100E to return to the original upright state, and is discharged via the discharge star wheel 124. It is discharged onto the conveyor 104 and sent to the next step.

A conveyor 104 for transporting the container 102
In this case, a chemical solution is allowed to flow,
The chemical solution is attached to the bottom surface 102a of the container 102 which is supplied from the conveyor 104 to the container cleaning device.
Therefore, in the case of the container cleaning apparatus of the type in which the container 102 is inverted and washed as described above, the chemical liquid attached to the bottom surface 102a of the container 102 must be completely removed before the container 102 is inverted. At the time of reversing, there is a problem in hygiene because there is a possibility that the chemical solution or dirt adhering to the bottom surface 102a may travel along the side surface of the container 102 and wrap around to the mouth portion 102b of the container 102 or the bottle gripper.

In the case of a PET container or the like, since there is no need to flow a chemical solution, there is no problem that the chemical solution adheres to the opening 102b of the container 102, but dirt on the transport conveyor 104 is deposited on the bottom surface 102a of the container 102. Since it is attached, it is necessary to remove this dirt before reversing. Therefore, as described above, the bottle bottom cleaning nozzle 128 is provided in the reversal zone 100B, and the cleaning is performed by spraying the cleaning liquid from the side toward the bottom surface 102a of the inclined container 102 during reversal.

[0006]

In the configuration in which the cleaning liquid is jetted during the inversion as described above, since the bottom surface of the container is inverted and moved at a high speed, sufficient cleaning cannot be performed.
There is a problem that the remaining chemical solution or dirt may wrap around from the side of the container and adhere to the bottle opening. Further, when the height of the container changes, the passing position of the bottle bottom during reversal changes, so that the position of the bottle bottom cleaning nozzle needs to be changed. Furthermore, in order to wash the entire bottom of the bottle by spraying from one nozzle, it is necessary to increase the pressure of the cleaning solution.However, if the spray pressure is increased, the cleaning solution rebounds and is discharged to the container after cleaning. There is a possibility that dirt may be attached.

SUMMARY OF THE INVENTION The present invention has been made to eliminate the above-mentioned drawbacks. Therefore, it is not necessary to adjust the position of the bottle bottom washing nozzle even if the height of the container changes, and it is possible to surely wash the entire bottle bottom. It is another object of the present invention to provide a container cleaning apparatus that can be made and that does not cause dirt to adhere to the mouth of the container.

[0008]

According to the present invention, there is provided a container cleaning apparatus comprising: a plurality of grippers for holding a container; a transport mechanism for circulating and transporting the grippers along a predetermined path; A star wheel to be supplied, a reversing mechanism for reversing the gripper holding the container to turn the container into an inverted state, and a nozzle for spraying a cleaning fluid onto the inverted container to clean the container, and in particular, gripping the gripper A cleaning means capable of injecting a cleaning fluid over the entire width of the container is provided below the bottom surface of the container on the upstream side of the position where the inverted container starts reversing, and is held upright by the gripper. The bottom surface of the moving container is washed with.

[0009]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below with reference to an embodiment shown in the drawings. FIG. 1 is a schematic plan view showing an embodiment of a container cleaning apparatus according to the present invention, and FIG. 2 is an enlarged view of a main part thereof. On both sides of a container transport conveyor 4 for continuously transporting a large number of containers 2, a pre-cleaning section 6 provided with a large number of nozzles 6a is provided (simplified in FIG. 1),
Pre-cleaning is performed by spraying the cleaning water from the nozzles 6a to the container 2 being conveyed. An in-feed screw 8 is arranged downstream of the pre-cleaning section 6 and adjusts the interval of the containers 2 continuously conveyed on the conveyor 4 at a predetermined pitch. On the side of the conveyor 4, an inlet star wheel 10 that rotates in synchronization with the infeed screw 8 is provided.
Are arranged, and the container 2 is received in each pocket 10a and is rotated and conveyed. Below the entrance star wheel 10, a ferry plate 12 having a substantially semi-arc shape is arranged.
It supports the bottom surface 2a of the container 2 which is held and rotated in the pocket 10a of the inlet starwheel 10. Also,
The outer peripheral surface of the container 2 being conveyed by the entrance star wheel 10 is guided by the guide member 14.

The container 2 rotated and conveyed by the inlet star wheel 10 is delivered to a bottle gripper 18 (not shown in FIGS. 1 and 2 and shown in FIG. 3) provided on a rotating body 16. The bottle grippers 18 are provided on the outer peripheral side of the rotating body 16 at equal intervals in the circumferential direction.
The container 2 supplied from the inlet starwheel 10 is gripped and transported along a predetermined route. The bottle gripper 18 is configured to be reversible, and is rotated by the rotating body 16 while being rotated by the reversing mechanism such as the cam rail 20.
The container 2 that is gripped by being inverted by 0 degrees is brought into an inverted state, and after the washing of the container 2 is completed, the container 2 is turned over again to return the container 2 to the upright state. Although the details of the bottle gripper are not shown, a conventionally well-known configuration described in Japanese Patent Publication No. 5-85227 or the like can be applied.

A delivery position A where the container 2 is delivered from the inlet starwheel 10 to the bottle gripper 18
The supply side reversal zone B is provided on the downstream side, and the bottle gripper 18 that has gripped the container 2 outside the rotating body 12 is guided by the cam rail 20 and reversed toward the inside of the rotating body 12. Then, the container 2 gripped in the upright state is rotated 180 degrees to be in an inverted state.

A washing zone C is provided following the supply-side reversing zone B, and the bottle 2 transported by the bottle gripper 18 in an inverted state is washed. In the washing zone C, an outer washing spray nozzle 22 for jetting washing water to the outer surface of the container 2 being conveyed by the bottle gripper 18 is fixed to the machine frame side, and the washing water is applied to the outer surface of the passing container 2. Inject and clean. Also, the rotating body 16
Is provided with an internal washing jet nozzle (not shown) corresponding to each bottle gripper 18, and these internal washing nozzles move following the movement of each bottle gripper 18, and in this washing zone C, Then, cleaning water is injected into the container 2 to clean the inner surface of the container 2.

Following the washing zone C, a draining zone D
The container 2 which has been washed by spraying washing water on the inner surface and the outer surface is conveyed for a certain section while being held in an inverted state by the bottle gripper 18 and drained. Downstream of the draining zone D, a discharge-side inversion zone E is provided.
When the bottle gripper 18 is inverted by 180 degrees in the direction opposite to the supply-side inversion zone B by the cam rail 20, the container 2 that has been washed and drained is returned to its original upright state. The container 2 in the upright state is released from the bottle gripper 18 at the container discharge position F in front of the discharge star wheel 24, and
And discharged onto the conveyor 4.

Further, the container cleaning apparatus according to the present embodiment is provided with a bottle bottom cleaning mechanism 26 for cleaning the bottom surface 2a of the container 2. The bottle bottom cleaning mechanism 26 includes an injection unit 28 that injects washing water, and injects the washing water supplied via the connection hose 30 toward the bottom surface 2 a of the container 2. The washing water injection unit 28 is located downstream of the ferry plate 12 disposed below the inlet star wheel 10 (see FIGS. 2 and 3), and the bottle gripper 18 is inverted in the supply-side inversion zone B. Is provided on the upstream side of the position where the start of the operation is started. In addition, as shown in FIG. 3, the injection unit 28 of the bottle bottom cleaning mechanism 26 has
A large number of washing water injection ports 28a are provided, and as shown in FIG. 4, the surface 28b of the injection section 28 is slightly lower than the container transport surface 12a of the ferry plate 12 (difference between the two). Are arranged to be L ₁ ).

In this embodiment, the container 2 supported on the bottom surface 2a by the ferry plate 12 and being rotated and conveyed by the star wheel 10 is gripped by the bottle gripper 18 and has the same height until the reversal is started later. Since the container 2 is transported as it is, the washing water injection unit 2
8 is positioned slightly below the height of the bottom surface 2a of the container 2 so that the bottom surface 2a of the container 2 gripped and transported by the bottle gripper 18 does not come into contact. Further, the width of the washing water spraying section 28 is at least in the width direction of the bottom surface 2a of the container 2 (rotating body 16
(In the direction perpendicular to the direction in which the container 2 is conveyed). Further, as shown in FIG. 3, the cleaning water injection unit 28 is provided with a control valve 3 for adjusting the pressure of the cleaning water injected from the injection port 28a.
2 is provided, and the height (H ₁ ) of the jetted cleaning water is usually set to be equal to or less than the height (H ₂ ) of the container port 2b (see FIG. 5). If a cover or the like is provided to prevent the container port 2b from being re-contaminated by splashing of the washing water, the jetting height (H ₁ ) of the washing water is set to be equal to or less than the height (H ₂ ) of the container 2. It is not necessary.

The operation of the container cleaning apparatus according to the above configuration will be described. Many containers 2 conveyed by the conveyor 4 are pre-cleaned by the pre-cleaning mechanism 6 and then delivered to the inlet star wheel 10 at predetermined intervals by the infeed screw 8. These containers 2 are held in pockets 10 a of the inlet starwheel 10, and are rotatably transported with their outer peripheral surfaces guided by guide members 14. The container 2 to be transported has a bottom surface 2a supported by a ferry plate 12, and slides on the ferry plate 12 to move.

Each container 2 rotated and conveyed by the inlet starwheel 10 is delivered to each bottle gripper 18 of the rotating body 16 which rotates in synchronization with the starwheel 10. The container 2 gripped by the bottle gripper 18 is conveyed at the same height in an upright state, passes over the ferry plate 12, and moves above the bottle bottom cleaning mechanism 26. In the cleaning mechanism 26, the cleaning water is sprayed from a large number of cleaning water injection ports 28a of the injection unit 28, and the cleaning water is sprayed onto the bottom surface 2a of the container 2 that moves upright to be cleaned.

As described above, the washing water is sprayed from below in the vertical direction to the bottom surface 2a of the container 2 in the upright state. Therefore, even if the height of the container 2 is different, the spraying portion of the bottle bottom washing mechanism 26 is provided. There is no need to adjust the position of 28, and it is possible to use the container 2 of various sizes. Also,
Since the cleaning water is injected by the injection unit 28 having a large number of injection ports 28a, the cleaning is performed for a relatively long time compared to the case where the cleaning water is injected to the inverted container and the cleaning is performed as in the conventional apparatus. Thus, the lubricating chemical and dirt can be reliably removed. Furthermore, a large number of injection ports 28a
The washing water is jetted from below, the jet pressure of the washing water is made weaker than before, and the height of the jetted washing water does not exceed the height of the container 2, so that the washing water reaches the discharge side. It does not scatter and adhere to the container 2 after cleaning.

The container 2 whose bottom 2a has been cleaned by the bottle bottom cleaning mechanism 26 moves to the supply-side reversal zone B, and
It is rotated 0 degrees to be in an inverted state. Then, the cleaning zone C
The outer surface and the inner surface are washed by the outer washing spray nozzle 22 and the inner washing jet nozzle (not shown). Subsequently, the water is conveyed while the draining zone D is in an inverted state, and draining is performed. The container 2 that has been drained after washing is turned again by 180 degrees in the discharge side reversal zone E, returned to the upright state, and delivered to the discharge star wheel 24 at the container discharge position F. The paper is discharged onto the conveyor 4 by the discharge star wheel 24 and sent to the next step.

In the above embodiment, the rotary type rinser has been described. However, the present invention is not limited to the rotary type.
The present invention is applicable to any type of container cleaning apparatus that performs cleaning by inverting the container, and can provide the same effects as those of the above-described embodiment. Further, the washing water jetting section 28 is not limited to one having a plurality of washing water jets 28a in each of the vertical and horizontal directions as shown in FIG. 3, and as shown in FIG. Even if they are arranged in a row,
As the container 2 advances, the entire bottom 2a can be washed.

[0021]

As described above, according to the present invention, a plurality of grippers for holding containers, a transport mechanism for circulating and transporting these grippers along a predetermined path, and supplying containers to the respective grippers. In a container cleaning device including a star wheel, a reversing mechanism for reversing a gripper gripping a container to invert the container and a nozzle for spraying a cleaning fluid onto the inverted container to perform cleaning, the container is gripped by the gripper. A cleaning means capable of injecting a cleaning fluid over the entire width of the container is provided on the upstream side of the position where the container starts to be inverted and below the bottom surface of the container, and is gripped by the gripper in an upright state. By cleaning the bottom of the moving container, it is not necessary to adjust the position of the bottle bottom cleaning nozzle even if the size of the container is different. It is possible to reliably remove the like are.

[Brief description of the drawings]

FIG. 1 is a schematic plan view schematically showing the whole of a container cleaning apparatus according to an embodiment of the present invention.

FIG. 2 is an enlarged plan view showing a main part of the container cleaning device.

FIG. 3 is a perspective view of an essential part for explaining the operation of the container cleaning device.

FIG. 4 is a side view of a cleaning mechanism for a container bottom provided in the container cleaning device.

FIG. 5 is an explanatory view illustrating the height of a cleaning fluid ejected from a cleaning mechanism at the bottom of the container.

FIG. 6 is a schematic plan view schematically showing the entire conventional container cleaning apparatus.

FIG. 7 is a flowchart illustrating the operation of the conventional container cleaning apparatus.

FIG. 8 is a plan view showing another configuration of the washing water injection unit.

[Explanation of symbols]

 2 Container 2a Bottom of Container 10 Star Wheel (Inlet Star Wheel) 20 Reversing Mechanism (Cam Rail) 26 Cleaning Means (Cleaning Mechanism) 28 Cleaning Means (Cleaning Water Injection Unit)

Claims (2)

[Claims] 1. A plurality of grippers for holding containers, a transport mechanism for circulating and transporting these grippers along a predetermined path, a star wheel for supplying containers to each of the grippers, and a gripper gripping the containers is inverted. In a container cleaning apparatus having a reversing mechanism for causing the container to be inverted and a nozzle for jetting a cleaning fluid to the inverted container for cleaning, the container gripped by the gripper is upstream of a position at which the container starts reversing. Cleaning means capable of spraying a cleaning fluid over the entire width of the container is provided below the bottom surface of the container on the side, and the bottom surface of the container which is gripped by the gripper and moves in an upright state is washed. And container cleaning equipment. 2. The container cleaning apparatus according to claim 1, further comprising control means for controlling a pressure of a cleaning fluid ejected from said cleaning means.