JP3169074U - Handle alignment device for bottle blow molding machine with handle - Google Patents

Abstract

A bottle blow molding machine with a rotary handle for supplying an aligned handle to a bottle blow molding machine with a rotary handle having a plurality of blow modules. At least one handle transport module that supplies a plurality of unaligned handles to an input board 31 and an alignment module 30 provided in each of the blow modules 20 are provided. One alignment module and one blow module form a joint module, each of the alignment modules aligning the handles received from the handle transport module, and aligning the aligned handles to the plurality of blow Supply to the module. As a result, it is possible to avoid a situation in which the high-speed alignment of the handles becomes a bottleneck for speeding up the bottle blow molding machine 10 with a rotary handle. [Selection] Figure 3

Description

  The present invention relates to a bottle blow molding machine with a handle, and more particularly to a handle alignment device for a bottle blow molding machine with a handle.

  The rotary bottle blow molding machine has advantages such as a large production volume and a narrow installation place, and has already been widely used for manufacturing bottles loaded with various liquids in daily life. Taking a large-capacity bottle 1 as an example, as shown in FIG. 1, a handle 2 can be provided on the bottle 1, and the bottle 1 can be easily grasped and used by the handle 2.

  Many conventional bottle blow molding machines with handles are either manually implanted with a handle or are bottle blow molding machines with straight handles, and the bottle blow molding machines with handles are currently rarely used commercially. The bottleneck that is the main cause is that the handle alignment speed cannot keep up with the high mass production speed of the rotary bottle blow molding machine. In addition to the rotary bottle blow molding machine, a separate handle alignment mechanism is installed to maintain the aligned handle in a fixed direction and synchronize it at a high speed to transfer it to the rotary bottle blow molding machine. It is necessary to use a module, and there are problems such as high difficulty, difficulty in implementation, huge equipment, and high manufacturing cost.

  Therefore, the object of the present invention is to develop a plurality of alignment modules installed in a bottle blow molding machine with a handle with respect to the above-described conventional bottleneck, and the number of the alignment modules is the same as the number of blow modules. A plurality of co-modules are formed, and each alignment module only needs to supply the aligned handle to the corresponding blow module, which can break the bottleneck of the high-speed synchronization process of the bottle blow molding machine with handle. Provided is a handle aligning device for a bottle blow molding machine with a handle.

In order to achieve the above object, the present invention provides a handle aligning device for a bottle blow molding machine with a handle.
The handle aligning device for a bottle blow molding machine with a handle according to the present invention is used to supply a plurality of aligned handles to a bottle blow molding machine with a handle.
The bottle blow molding machine with a handle includes a plurality of blow modules provided on the rotating body (15). The handle alignment apparatus of the present invention includes at least one handle transport module for providing the plurality of unaligned handles, and an alignment module provided in each of the blow modules. One alignment module and one blow module form a joint module, each of the alignment modules aligning the handles received from the handle transport module, and aligning the aligned handles. Supply to the corresponding blow module.

  In the handle aligner for a bottle blow molding machine with a handle according to the present invention, each of the alignment modules includes a loading board, an alignment path, a temporary storage area, a separation device, and a transfer device, and the handle transport module includes the alignment module. The plurality of handles are arranged above the input board, and are provided with the plurality of unaligned handles to enter the input board, and the alignment path aligns the plurality of handles into the temporary storage area. It is characterized by temporary storage.

  In the handle aligner for a bottle blow molding machine with a handle according to the present invention, the alignment path includes a first direction alignment path and a second direction alignment path for sequentially performing alignment in different directions.

  In the handle aligning device for a bottle blow molding machine with a handle according to the present invention, a separation device is installed below the temporary storage area, and the separation apparatus is a first-in first-out method among the plurality of handles in the temporary storage area. The handle, which has been aligned one at a time, is placed on the transfer device.

  The handle aligning device for a bottle blow molding machine with a handle according to the present invention is characterized in that the aligned handle is transferred and temporarily stored in the corresponding blow module by the transfer device.

  Accordingly, the present invention forms a common module by one alignment module and one blow module, and the alignment module and the blow module rotate together. There is no problem of high-speed synchronous transfer of the handle. And since the alignment module aligns the plurality of handles, the alignment module needs to align one handle within one cycle time of the bottle blow molding machine with handle. It is possible to avoid a situation where there is sufficient time for the alignment and the high-speed alignment of the handle becomes a bottleneck for increasing the speed of the bottle blow molding machine with the handle.

It is a perspective view of the conventional bottle with a handle. It is a perspective view of the bottle blow molding machine with a handle of the present invention. It is a perspective view which shows the mechanism of the alignment module of this invention. It is sectional drawing 1 of Example 1 which concerns on the 1st direction alignment path | route of this invention. It is sectional drawing 2 of Example 1 which concerns on the 1st direction alignment path | route of this invention. It is sectional drawing 3 of Example 1 which concerns on the 1st direction alignment path | route of this invention. It is sectional drawing 1 of Example 2 which concerns on the 1st direction alignment path | route of this invention. It is sectional drawing 2 of Example 2 which concerns on the 1st direction alignment path | route of this invention. It is sectional drawing 3 of Example 2 which concerns on the 1st direction alignment path | route of this invention. FIG. 3 is a perspective view 1 of a second direction alignment path mechanism of the present invention. It is a perspective view 2 of the 2nd direction alignment path | route mechanism of this invention. It is a perspective view which shows the approach to the temporary storage area of the handle | steering_wheel of this invention. It is a perspective view which shows approach to the transfer equipment of the present invention. It is a perspective view which shows transfer to the blow module of the handle | steering_wheel of this invention. It is a perspective view showing the state where the handle of the present invention is temporarily stored in the blow module

  The detailed contents and techniques of the present invention will be further described with reference to examples. However, it should be noted that the examples are for illustrative purposes and should not be understood as limiting the implementation of the present invention. .

  FIG. 2 is a perspective view of a bottle blow molding machine with a handle, and FIG. 3 is a perspective view showing a mechanism of an alignment module. As shown in FIGS. 2 and 3, the present invention is used to supply a plurality of aligned handles 80 to the bottle blow molding machine 10 with handles. The handle-equipped bottle blow molding machine 10 includes a plurality of blow modules 20 provided on a rotating body (15). Although the present embodiment will be described using eight blow modules 20 as an example, the implementation is not limited to this. The handle alignment device of the present invention includes at least one handle transport module 90 and an alignment module 30 provided in each of the plurality of blow modules 20. The handle transport module 90 provides a plurality of unaligned handles 80, and the number of handle transport modules 90 does not exceed the number of blow modules 20. One alignment module 30 and one blow module 20 form a common module. In addition, each of the alignment modules 30 aligns the handles 80 received from the handle transport module 90 and supplies the aligned plurality of handles 80 to the corresponding plurality of blow modules 20.

  Further, the alignment module 30 of the present invention includes a loading board 31, an alignment path 32, a temporary storage area 33, a separation device 34, and a transfer device 35, respectively. As shown in FIGS. 4A and 6A, the alignment path 32 includes a first direction alignment path 321 and a second direction alignment path 322, and one of the three horizontal, vertical, and depth planes is symmetrical and the other two are aligned. Alignment can be made to a handle whose plane has an asymmetric shape. Further, the handle transport module 90 is installed above any loading board 31 of any alignment module 30 and allows a plurality of unaligned handles 80 to enter the loading board 31. That is, a plurality of handle transport modules 90 are installed based on the necessity of a plurality of alignment modules 30 corresponding to each other, and the handle transport modules 90 respectively provide a plurality of unaligned handles 80 to different input boards 31 at the same time. Can be arranged.

  4A, FIG. 4B, and FIG. 4C are sectional views 1, 2, and 3 of the first direction alignment path Example 1, and FIGS. 5A, 5B, and 5 C are the first direction alignment. FIGS. 6A and 6B are a perspective view of the second direction alignment path mechanism, and FIGS. 2 and 7 are temporary storage areas of the handle. It is a perspective view which shows approach to. As shown in FIGS. 4A to 4C, 5A to 5C, 6A, 6B, and 7, the alignment path 32 aligns the handle 80 and temporarily stores it in the temporary storage area 33. Among them, the handle 80 is aligned by guiding a plurality of guide plates 3211 provided in advance in the process of dropping the handle 80 from above by gravity (see FIGS. 4A to 4C). FIG. 4A is a cross-sectional view of one possible embodiment of the first direction alignment path 321 of the present invention, in which a plurality of guide plates 3211 limit the direction of the handle 80 and align the handle 80. Further, even if the plurality of guide plates 3211 are replaced by the spiral guides 3212 (see FIGS. 5A to 5C), the same alignment effect can be obtained.

  Further, as shown in the present embodiment, the handle 80 is a handle having a symmetrical shape on one plane and an asymmetric shape on the other two planes. Therefore, the handle 80 is further passed through the second direction alignment path 322 to the second direction. Directional alignment can be completed. 6A and 6B are one embodiment of the second direction alignment path 322 of the present invention, and include a screw 3221, a pivot 3222, and an inversion seat portion 3223, of which the handle 80 is accommodated in the inversion seat portion 3223. Further, by driving the screw 3221, the pivot 3222 is rotated to move the reverse seat portion 3223, and the handle 80 can be reversed to align the handle 80. The handle 80 can be temporarily stored in the temporary storage area 33 after alignment (see FIG. 7).

  8 is a perspective view showing the approach of the handle to the transfer device, FIG. 9 is a perspective view showing the transfer of the handle to the blow module, and FIG. 10 shows a state where the handle is temporarily stored in the blow module. It is a perspective view. As shown in FIGS. 8 to 10, a separation device 34 is installed below the bottom of the temporary storage area 33, and the separation device 34 is a first-in first-out method, and a handle 80 that has been aligned one at a time is transferred to the transfer device 35. Place it on top (see Figure 8). Further, the handle 80 is transferred to the blow module 20 using the transfer device 35 (see FIG. 9), the handle 80 is temporarily stored in the blow module 20 (see FIG. 10), and the bottle blowing process is performed. The handle 80 temporarily stored in can be implanted in the blow module 20 and positioned and fixed.

  As described above, according to the present invention, since the same number of alignment modules 30 is installed based on the number of blow modules 20, one alignment module 30 and one blow module 20 form a common module. 30 and one blow module 20 can be rotated together. For this reason, the problem of the high-speed synchronous transfer of a handle does not arise between the alignment module 30 and the blow module 20. In addition, since the alignment modules 30 each align the plurality of handles, each alignment module 30 only needs to align one handle within the cycle time in which the bottle blow molding machine with handle 10 rotates once. For this reason, the present invention has a sufficient time for aligning the handle, and it is possible to avoid a situation in which the high-speed alignment of the handle becomes a bottleneck for increasing the speed of the bottle blow molding machine with a handle.

DESCRIPTION OF SYMBOLS 1 Bottle 2 Handle 10 Bottle blow molding machine 15 with a handle Rotating body 20 Blow module 30 Alignment module 31 Loading board 32 Alignment path 33 Temporary storage area 34 Separation apparatus 35 Transfer apparatus 80 Handle 90 Handle transport module 321 Directional alignment path 322 Directional alignment Path 3211 Guide plate 3212 Spiral guide 3221 Screw 3222 Pivot 3223 Reverse seat

Claims (5)

A handle aligning apparatus for a bottle blow molding machine with a handle (10) used for supplying a plurality of aligned handles (80) to a bottle blow molding machine with a handle (10), wherein the bottle blow molding machine with a handle ( 10) comprises a plurality of blow modules (20) provided on the rotating body (15),
The handle alignment device includes at least one handle transport module (90) that provides the plurality of unaligned handles (80);
An alignment module (30) provided in each of the blow modules (20),
One alignment module (30) and one blow module (20) form a joint module,
Each of the alignment modules (30) aligns the handles (80) received from the handle transport module (90), and aligns the aligned handles (80) with the corresponding blow modules (20). A handle aligning device for a bottle blow molding machine with a handle, wherein Each of the alignment modules (30) includes a loading board (31), an alignment path (32), a temporary storage area (33), a separation device (34), a transfer device (35), and the handle transport module (90). ) Is installed above the input board (31) of any of the alignment modules (30), provides the plurality of unaligned handles (80) to enter the input board (31), and The handle for a bottle blow molding machine with a handle according to claim 1, wherein the alignment path (32) aligns the plurality of handles (80) and temporarily stores them in the temporary storage area (33). Alignment device. The bottle blow with a handle according to claim 2, wherein the alignment path (32) includes a first direction alignment path (321) and a second direction alignment path (322) that sequentially perform alignment in different directions. Handle alignment device for molding machines. A separation device (34) is installed below the temporary storage area (33), and the separation device (34) is a first-in first-out method among the plurality of handles (80) in the temporary storage area (33). The handle aligning device for a bottle blow molding machine with a handle according to claim 2, wherein the handle (80), which has been aligned one at a time, is placed on the transfer device (35). The handle (80) having been aligned is transferred and temporarily stored in the corresponding blow module (20) by the transfer device (35). Handle alignment device for bottle blow molding machine with handle.

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