JP5942709B2 - Glass tube packaging method and glass tube packaging device - Google Patents

Description

  The present invention relates to a glass tube packaging method and a glass tube packaging apparatus.

  Conventionally, a micro glass tube having a small ratio of length to diameter ((length) / (diameter)) is used for a reed switch or the like. Such micro glass tubes are usually shipped in a boxed state. Therefore, a process of boxing the minute glass tube is required.

Japanese Patent No. 2651176

  For example, it is also conceivable to use a rod-shaped workpiece automatic boxing device described in Patent Document 1 to box minute glass tubes. However, in the case of a micro glass tube having a small ratio of length to diameter ((length) / (diameter)), when the boxing is performed using the automatic boxing device described in Patent Document 1, the micro glass tube is center axis. It rotates and tilts about a different axis, and it is difficult to arrange it in an orderly manner.

  A main object of the present invention is to provide a method capable of suitably boxing a glass tube having a small length to diameter ratio ((length) / (diameter)).

  The glass tube boxing method according to the present invention is a method of packing a glass tube having a ratio of length to diameter ((length) / (diameter)) of 5 or less into a box. The glass tube boxing method according to the present invention includes a first adsorption step, a first movement step, a first desorption step, a second adsorption step, a second movement step, and a second A desorption step. The first suction step is a step of causing a suction head to suck a plurality of glass tubes aligned along a direction perpendicular to the length direction. The first moving step is a step of moving the suction head into the box after the first suction step. The first desorption step is a step of detaching the plurality of glass tubes from the suction head after the first movement step. The second suction step is a step of causing the suction head to suck a plurality of other glass tubes aligned along a direction perpendicular to the length direction after the first desorption step. The second moving step is a step of moving the suction head above the plurality of glass tubes in the box after the second suction step. The second detaching step is a step of detaching a plurality of other glass tubes from the suction head after the second moving step. The second adsorption step, the second transfer step, and the second desorption step are repeated.

  After the first and second detachment steps, it is preferable to dispose a drop prevention plate that suppresses the drop of the glass tube from the box in front of the plurality of glass tubes placed in the box.

  In the second desorption step, the other glass tubes are adsorbed while pressing the other glass tubes adsorbed by the adsorption head toward the plurality of glass tubes already placed in the box. It is preferable to detach from the head.

  The glass tube boxing device according to the present invention is a device for packing a glass tube having a ratio of length to diameter ((length) / (diameter)) of 5 or less into a box. The glass tube packaging apparatus according to the present invention includes a suction head, a moving mechanism, and a control unit. The suction head is detachable from a plurality of glass tubes aligned along a direction perpendicular to the length direction. The moving mechanism moves the suction head. According to a command from the control unit, a first adsorption process, a first movement process, a first desorption process, a second adsorption process, a second movement process, and a second desorption process are performed. Done. The first suction step is a step of causing a suction head to suck a plurality of glass tubes aligned along a direction perpendicular to the length direction. The first moving step is a step of causing the moving mechanism to move the suction head into the box after the first suction step. The first desorption step is a step of detaching the plurality of glass tubes from the suction head after the first movement step. The second suction step is a step of causing the suction head to suck another glass tube aligned along a direction perpendicular to the length direction after the first desorption step. The second moving step is a step of causing the moving mechanism to move the suction head above the plurality of glass tubes in the box after the second suction step. The second detaching step is a step of detaching a plurality of other glass tubes from the suction head after the second moving step. The second adsorption process, the second movement process, and the second desorption process are repeatedly performed according to a command from the control unit.

  The glass tube packaging apparatus according to the present invention further includes a drop-off suppressing plate that suppresses the drop-out of the glass tube from the box, and at least one of the drop-off suppressing plate and the box is provided after the first and second detachment steps. It is preferable that it moves relatively and the drop-off suppressing plate is located in front of the plurality of glass tubes placed in the box.

  In the second detachment step, the control unit presses the other plurality of glass tubes sucked by the suction head toward the plurality of glass tubes already placed in the box, while The glass tube is preferably detached from the suction head.

  According to the present invention, it is possible to provide a method capable of suitably boxing glass tubes having a small ratio of length to diameter ((length) / (diameter)).

1 is a schematic side view of a part of a boxing device according to an embodiment of the present invention. It is a schematic front view of a part of a boxing device according to an embodiment of the present invention. It is a schematic sectional drawing of a part of the boxing apparatus which concerns on one Embodiment of this invention. It is a schematic front view of a part of a boxing device according to an embodiment of the present invention.

  Hereinafter, an example of the preferable form which implemented this invention is demonstrated. However, the following embodiment is merely an example. The present invention is not limited to the following embodiments.

  Moreover, in each drawing referred in embodiment etc., the member which has a substantially the same function shall be referred with the same code | symbol. The drawings referred to in the embodiments and the like are schematically described. A ratio of dimensions of an object drawn in a drawing may be different from a ratio of dimensions of an actual object. The dimensional ratio of the object may be different between the drawings. The specific dimensional ratio of the object should be determined in consideration of the following description.

  The glass tube boxing device 1 shown in FIGS. 1 to 4 is capable of suitably packing a short cylindrical tubular glass tube having a ratio of length to diameter ((length) / (diameter)) of 5 or less. It is. The boxing device 1 is suitably used for boxing a glass tube having a length of 10 mm or less, and further a glass tube having a length of 8 mm or less. Examples of such a glass tube include a glass tube for a reed switch.

  1 to 4 each show only a part of the boxing device 1. The boxing device 1 includes a part shown in FIGS. 1 and 3 and a part shown in FIGS. 3 and 4 are views showing a state after the second desorption step described later is performed a plurality of times. In this embodiment, FIGS. The desorption process, the first second movement process, the first second desorption process, and the like are also incorporated.

  The boxing device 1 includes a suction head 10, a moving mechanism 20, and a control unit 30. The suction head 10 is a head in which a plurality of glass tubes 40 aligned along a direction perpendicular to the length direction of the glass tube 40 can be attached and detached. The suction head 10 can be moved by the moving mechanism 20. The suction head 10 and the moving mechanism 20 are each connected to the control unit 30 and controlled by the control unit 30.

  As shown in FIGS. 1 and 2, the control unit 30 first has a plurality of glass tubes aligned along the x-axis direction that is a direction perpendicular to the length direction of the glass tube 40 at the suction position. 40 is adsorbed by the adsorption head 10 (first adsorption step).

  As shown in FIGS. 3 and 4, after the first suction step, the suction head 10 is moved into the box 50 by the moving mechanism 20 in accordance with a command from the control unit 30 (first movement step). Here, the box 50 is arranged on the installation table 60 so as to open sideways (specifically, in the y-axis direction). The box 50 includes a bottom wall portion 51, a back wall portion 52, and side wall portions 53 and 54 (see FIG. 4).

  After the first moving process, the plurality of glass tubes 40 are desorbed from the suction head 10 according to the command of the control unit 30 (first desorbing process). Thereby, a row of glass tubes 40 can be arranged in the box 50.

  After the first desorption step, the suction mechanism 10 is moved again to the suction position of the glass tube 40 by the moving mechanism 20 according to the instruction of the control unit 30, and then, as shown in FIGS. 1 and 2, A plurality of other glass tubes 40 aligned along the x-axis direction, which is a direction perpendicular to the length direction of the glass tube 40, are adsorbed by the adsorption head 10 (second adsorption step).

  After the second suction step, as shown in FIGS. 3 and 4, the suction mechanism 10 is moved above the plurality of glass tubes 40 in the box 50 by the moving mechanism 20 in accordance with a command from the control unit 30 ( Second moving step).

  After the second moving process, the control unit 30 detaches the plurality of other glass tubes 40 from the suction head 10 and arranges them in a row on the plurality of glass tubes 40 previously arranged in a row in the box 50. Place (second desorption step).

  By repeating the second adsorption process, the second movement process, and the second desorption process in accordance with an instruction from the control unit 30, the plurality of glass tubes 40 are filled in a matrix in the box 50.

  In the boxing method of the glass tube 40 of the present embodiment, the glass tube 40 remains adsorbed by the adsorption head 10 until the glass tube 40 is installed in the box 50. Therefore, the rotation of the glass tube 40 is suppressed, and the glass tube 40 can be suitably packed in the box 50. Further, for example, even when a smaller number of glass tubes 40 than the desired number are adsorbed to the adsorption head 10, the glass tubes 40 placed in the box 50 roll along the circumferential direction and are closely packed. To go.

  From the viewpoint of enabling the glass tube 40 to be placed more orderly in the box 50, the other plurality of glass tubes 40 sucked by the suction head 10 are already placed in the box 50 in the second desorption step. It is preferable that the other plurality of glass tubes 40 be detached from the suction head 10 while pressing toward the plurality of glass tubes 40 placed.

  In the boxing device 1, a drop-off suppressing plate 70 is disposed in front of the box 50. Before the first detachment step is performed, the drop-off suppressing plate 70 is located below the bottom wall portion 51 of the box 50. After the first dropout process is performed, at least one of the dropout suppression plate 70 and the box 50 moves relatively, and the dropout suppression plate 70 is positioned in front of the glass tube 40 placed in the box 50. In addition, even after the second drop-off process is performed, at least one of the drop-off suppression plate 70 and the box 50 moves relatively, and the drop-off suppression plate 70 is placed in front of the glass tube 40 placed in the box 50. Located in. For this reason, dropping of the mounted glass tube 40 from the box 50 is effectively suppressed.

  Moreover, you may incline the installation stand 60 or the box 50 so that the edge part of the glass tube 40 which touches the back wall part 52 of the box 50 may fall, and an other end part may go up. Thereby, it is suppressed more effectively that the glass tube 40 falls from the box 50. Note that when the installation table 60 or the box 50 is tilted, the suction head may be tilted in accordance with the tilt.

  In addition, the drop-off suppression plate 70 may be moved relative to the box 50 by moving the drop-off suppression plate 70, or the drop-off suppression plate 70 is moved with respect to the box 50 by moving the box 50. You may move relatively. Further, the drop-off suppressing plate 70 may be moved relative to the box 50 by moving both the drop-off suppressing plate 70 and the box 50.

DESCRIPTION OF SYMBOLS 1 ... Boxing apparatus 10 ... Adsorption head 20 ... Moving mechanism 30 ... Control part 40 ... Glass tube 50 ... Box 51 ... Bottom wall part 52 ... Back wall part 53, 54 ... Side wall part 60 ... Installation stand 70 ... Drop-off suppression board

Claims (4)

A method of packing a glass tube having a ratio of length to diameter ((length) / (diameter)) of 5 or less into a box,
A first suction step of sucking a plurality of the glass tubes aligned along a direction perpendicular to the length direction to a suction head;
A first moving step of moving the suction head into the box after the first suction step;
A first desorption step of detaching the plurality of glass tubes from the suction head after the first movement step;
After the first desorption step, a second suction step of sucking the other plurality of glass tubes aligned along a direction perpendicular to the length direction to the suction head;
A second moving step of moving the suction head above the plurality of glass tubes in the box after the second suction step;
A second desorption step of detaching the other plurality of glass tubes from the suction head after the second movement step;
With
The second adsorption step, have repeated rows said second moving step and the second desorption step,
A glass tube box in which, after the first and second detachment steps, a drop prevention plate is disposed in front of the plurality of glass tubes placed in the box to prevent the glass tube from dropping from the box. Stuffing method. In the second detaching step, the other plurality of glass tubes adsorbed by the adsorption head are pressed against the plurality of glass tubes already placed in the box. The glass tube packaging method according to claim 1, wherein the glass tube is detached from the suction head. An apparatus for filling a box with a glass tube having a ratio of length to diameter ((length) / (diameter)) of 5 or less,
A suction head capable of attaching and detaching the plurality of glass tubes aligned along a direction perpendicular to the length direction;
A moving mechanism for moving the suction head;
A control unit;
With
According to the instruction of the control unit,
A first suction step of causing the suction head to suck a plurality of the glass tubes aligned along a direction perpendicular to the length direction;
A first moving step of causing the moving mechanism to move the suction head into the box after the first sucking step;
A first desorption step of detaching the plurality of glass tubes from the suction head after the first movement step;
After the first desorption step, a second adsorption step of adsorbing the plurality of glass tubes aligned along a direction perpendicular to the length direction to the adsorption head;
After the second suction step, a second moving step for causing the moving mechanism to move the suction head above a plurality of glass tubes in the box;
A second desorption step of detaching the other plurality of glass tubes from the suction head after the second movement step;
Is done,
According to the instruction of the control unit, the second adsorption process, the second movement process and the second desorption process are repeatedly performed ,
Further comprising a drop-off suppressing plate that suppresses the glass tube from falling off the box,
After the first and second detachment steps, at least one of the drop-off suppressing plate and the box moves relatively, and the drop-off suppressing plate is placed in front of the plurality of glass tubes placed in the box. Located in a glass tube packaging device. In the second detaching step, the control unit presses the other plurality of glass tubes sucked by the suction head toward the plurality of glass tubes already placed in the box. The glass tube packaging apparatus according to claim 3, wherein the other plurality of glass tubes are detached from the suction head.

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