JPH0688567B2 - Container holder - Google Patents

Description

TECHNICAL FIELD The present invention relates to a container or a bottle holder applied to devices such as a bottle washing machine, a rinser, a filler, a capper, a caser, an uncaser, and a conveyor.

(Prior Art) As a container carrying support, the one described in Japanese Utility Model Publication No. 52-882 is conventionally known, and as a carrier for a bottle washing machine, it is disclosed in Japanese Utility Model Publication No. 53-88437. Although the above-mentioned ones have been publicly known, at present, there is no simple one that satisfies both the holding of the container or the bottle and the centering at the same time.

(Problems to be solved by the invention) Therefore, when handling a wide variety of containers in a bottle filling plant or a filling plant, when handling in a broad sense (conveying, indexing, positioning, holding, grasping, etc.), the size of the container , The dedicated container holders that match the shape are exchanged or adjusted, but in that case, the equipment of each stage that constitutes the plant (washing machine, rinser, filler, capper, caser, uncaser,
Each container (conveyor, etc.) requires a dedicated container holder, and there are many types of container holders, and in addition, it takes a lot of time for setup work such as replacement and adjustment of container holders. .

The present invention is proposed in view of the above problems, and the object of the present invention is to replace the container holder, or to eliminate the setup work such as adjustment, which can be shared by many types of containers, The installation space can be significantly reduced,
The production start-up period such as adjustments and trial runs associated with mold changes can be eliminated, and unattended operation and 24-hour operation are possible.
An object of the present invention is to provide a container holder that can easily perform aseptic filling and the like and can significantly reduce the process time in the sterilization process.

(Means for Solving the Problems) In order to achieve the above object, the container holder of the present invention supports two axes in parallel and axially movable on the frame of the container holder, and Both ends of the actuating lever are pivotally supported at the ends, the central portion of the crop lever is pivotally supported at the frame, and one pair of grippers is arranged between the shafts at intervals. Of the pair of grippers, one end of one gripper is fixed to the one shaft, the other end of the gripper is slidably attached to the other shaft of the shaft, and one end of the other gripper is connected to the above shaft. The gripper is slidably attached to one shaft, the other end of the gripper is fixed to the other shaft, and an opening for gripping a container is provided at an opposite edge of each pair of grippers.

(Operation) The container holder of the present invention is configured as described above,
The actuating lever is rotated about its central portion, the two shafts are moved in opposite directions along the axial direction, and the pair of grippers are advanced from both sides of the container toward the container and brought into contact with the container. Hold and center the container.

(Embodiment) Next, the container holder of the present invention will be described with reference to one embodiment shown in FIGS. 1 to 11. (1) is a cassette type frame, and a plurality of holes are formed on the lower surface of the frame (1). (2)
Is provided. Further, (5) is a holding material, and the holding material (5)
Is composed of a base part (3) and a guide part (4), and the holding material (5) is symmetrically installed at both ends of the frame (1). As shown in FIG. A cutout groove (6) is provided on both sides of (5), and a bending rib (7) of the frame (1) and a cover (8) that covers the holding material (5) are bent in the cutout groove (6). The ribs (9) are inserted and fixed by spring pins (not shown). Also (1
0) is the operating lever, and both ends of the operating lever (10) are
As shown in FIG. 5, a notch hole (11) is provided, a pin (12) is fixed by welding at the center of the operating lever (10), and the pin (12) holds the holding member (5). Is rotatably mounted on. Further, (13) is a spring lever fixed to the pin (12), and a spring hooking pin (14) is fixed to one end of the spring lever (13) by welding,
An elongated hole (15) is provided at the other end of the spring lever (13) as shown in FIG. Further, (16) is a lever, and (17) is a pin screwed into the base portion (3) of the holding material (5), and the lever (16) is rotatably supported by the pin (17). Also, (18) is the lever (16)
A spring hook pin fixed by welding, and a stopper pin (19) fixed to the lever (16) by press fitting,
The stopper pin (19) is the long hole (15) of the lever (16).
Is slidably engaged with. Further, (20) is a tension spring mounted between the spring hooking pin (14) and the spring hooking pin (18), and the tension lever (20) causes the spring lever (13) to center on the pin (12). The lever (16) rotates about the pin (17). This structure is the same at both ends of the frame (1). Also (2
1) A pair of shafts (22) supported by a guide (4) of a holding material (5) so as to be movable in the axial direction, and coaxial (21)
Guide pins (23) are fixed to both ends of (22) by spring pins (not shown) or the like.
The lower end portion of the operating lever (10) is inserted into the notch hole (11). Further, (24) is a plurality of reinforcing members which are slidable with respect to the shafts (21) and (22), and each reinforcing member (24) has a frame (1) as shown in FIG. A notch groove (26) that engages with the bending rib (7) is provided, and each reinforcing member (24) is fixed to the bending rib (7) of the same frame (1) by a spring pin (25). There is. See also (27)
Reference numeral (28) is a gripper, and as shown in FIG. 1, the gripper (27) is fixed to the shaft (21) by a spring pin (29) while being slidable on the shaft (22). . Further, the gripper (28) is fixed to the shaft (22) by the spring pin (30), while it is slidable with respect to the shaft (21), and the operating lever (10) is rotated clockwise in FIG. When rotated to, the shafts (21) (22) move to the positions shown in Fig. 6, the grippers (27) (28) move to the positions shown in Fig. 9, and the bottle (C) is opened. Further, (31) in FIG. 1 is the gripper (27).
It is a V-shaped opening provided at the opposite edge of (28). It is desirable that the grippers (27) (28), the holding material (5), the reinforcing material (24), etc. be made of a synthetic resin material to reduce the weight.

Next, the operation of the container holder shown in FIGS. 1 to 11 will be specifically described. When there is no bottle (C), the spring lever (13) and the operating lever (10) rotate to the positions shown in Figs. 5 and 7 by the force of the tension spring (20), and the stopper pin (19) moves to the spring lever (13). Of the spring lever (13) and the operating lever (1
0) is positioned at the positions shown in Figs. At this time, the shafts (21) (22) are moved to the positions shown in FIGS. 1 and 5, and the grippers (27) (28) are held in the closed position. When holding the bottle (C), the guide pins (23) of the shafts (21) and (22) are pushed in the directions of arrows (A) and (A ') in FIG. 1 by pushing means (not shown). At this time, the guide pin (23) moves from the position shown in Fig. 5 to the position shown in Fig. 6 while sliding in the notch hole (11) of the operating lever (10), and the operating lever (10) moves to the pin ( Rotate around 12) to the position shown in Fig. 6,
The grippers (27) (28) move to the open position shown in FIG. 9 to enable the bottle (C) to be gripped. On the other hand, the spring lever (13) rotates in the same direction as the actuating lever (10) by being pushed in the direction of the arrows (A) and (A ') (see Fig. 8), and the lever (16) moves to the pin (17). The tension spring (20) is stretched by rotating about, and the stopper pin (19) passes the position of the pin (12), and the spring lever (13).
And the actuating lever (19) comes to rest in the position shown in FIGS. When the grippers (27) (28) move to the open position shown in FIG. 9, the tension spring (20) moves to the opposite side of the pin (12) with respect to FIG. 7 as shown in FIG. . When the grippers (27) (28) are moved to the open position shown in FIG. 9 as described above, the neck portion of the bottle (C) is inserted between the grippers (27) (28) from below or above the container holder. When the neck of the bottle (C) is inserted between the grippers (27) and (28), the pushing means for pushing the guide pin (23) in the directions of the arrows (A) and (A ') is retracted and at the same time, The shaft (2
1) Insert the guide pin (23) of (22) into the arrow (B) of Fig. 1.
Push in the (B ') direction. At this time, grippers (27) (28)
Synchronously advances from both sides of the neck of the bottle (C) toward the neck (moves in the closing direction), contacts the neck, and grips the neck. Thus, the bottle (C) is held in a hanging state by the container holder.

In this way, the grippers (27) (28) are moved in the closing direction to grip the neck of the bottle (C), so that even if the neck of the bottle (C) has a different diameter, the neck of the bottle (C) can be Can be reliably gripped. A hole (2) through which the bottle (C) passes is provided on the lower surface of the frame (1), and the bottle (C) having a high height is suspended and supported by the grippers (27) (28). Also bottle (C)
After transporting to a predetermined position, the grippers (27) and (28) are opened and the bottle (C) is discharged. The grippers (27) (28)
The shape of the opening (31) provided at the facing edge portion is not limited to the V shape, but may be a U shape, an arc shape, or the like.

(Effect of the Invention) In the container holder of the present invention, as described above, the actuating lever is rotated about its central portion, and the two shafts are moved in the opposite directions along the axial direction so that the pair of grippers can be installed in the container holder. Since the container is held and centered by advancing it from both sides toward the container and bringing it into contact with the same container, it is possible to eliminate the setup work for replacing or adjusting the container holder. It can also be used for a wide variety of containers. In addition, since the containers are transported in units of a square gripper, a conveyor for transporting the containers, which was conventionally required, can be eliminated, the machine can be made compact, and the installation space of the machine can be greatly saved. In addition, since the outer dimensions of each gripper are constant, it is possible to eliminate the need for production start-up time such as adjustments and trial runs associated with mold changes. In addition, since there is no need to adjust the holder when handling the container, and no situation such as a tumbling occurs, the unstable factors can be eliminated and unattended operation and 24-hour operation are possible.
Further, since the container is gripped by the pair of grippers, the handling device can be simplified, the entire handling device can be sterilized, and aseptic filling can be easily performed. In addition, since the handling device can be simplified as described above, the process time in the sterilization process can be greatly shortened, which is effective.

[Brief description of drawings]

FIG. 1 is a plan view showing an embodiment of the container holder of the present invention, FIG. 2 is a front view thereof, and FIG. 3 is an arrow III-I of FIG.
A side view taken along line II, FIG. 4 is a front view of an arrow IV portion in FIG. 1, FIGS. 5 and 6 are plan views of an arrow V portion in FIG. 2, and FIGS. 7 and 8 are arrows in FIG. Fig. 9 is a plan view taken along the line VII, Fig. 9 is a plan view showing the opened state of the gripper, Fig. 10 is a side view showing the gripped state of the container, and Fig. 11 is a view taken along the line XI-XI in Fig. 2. It is a vertical side view. (1) …… Container holder frame, (10) …… Actuating lever, (21) (22) …… Two shafts, (28) (29) …… Each pair of grippers, (31) …… Aperture.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Masho Yamada No. 1 Takamichi, Iwazuka-cho, Nakamura-ku, Nagoya, Aichi Prefecture Mitsubishi Heavy Industries, Ltd. Nagoya Machinery Works (56) References: 51-129150 ) Japanese Patent Publication Sho 52-21945 (JP, B2)

Claims (1)

[Claims] 1. A frame of a container holder which supports two shafts in parallel with each other so as to be movable in an axial direction, and both ends of an actuating lever are pivotally supported by the ends of these shafts, and the central part of the actuating lever is One pair of grippers of each pair are arranged at intervals between the shafts, and one end of one of the pair of grippers of the pair is attached to the one shaft. The grip is fixed and the other end of the gripper is slidably attached to the other shaft of the shaft, one end of the other gripper is slidably attached to the one shaft, and the other end of the gripper is attached to the other shaft. A container holder, characterized in that it is fixed to a shaft, and an opening for gripping the container is provided at the opposing edge of each pair of grippers.